LiteForm Technical Manual
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Transcript of LiteForm Technical Manual
FLEXX-BLOCK® INSULATED CONCRETE FORMS SPECIFICATION SHEET
This document is intended for general information purposes only regarding specifications for Flexx-Block® Insulated Concrete Forms by Lite-Form® Technologies.
1. Pro duct De scri pti o n Flexx-Block is an insulating concrete forming system, which consists of two flame-resistant expanded polystyrene (EPS) foam boards separated by polypropylene webs. The EPS boards are 51mm (2”) thick, which gives a total total thickness of 102mm (4”) of EPS. The webs separate the EPS boards to form 102mm (4”), 152mm (6”), 203mm (8”), 254mm (10”), and 305mm (12”) cavities, which creates the concrete wall thicknesses. The webs are spaced every 152mm (6”) on center horizontally and 406mm (16”) on center vertically, and contain a 32mm (1.25”) wide furring strip that extends within 6mm (.25”) to the top and bottom of each block. The furring strips facilitate fasteners for attachment of both exterior and interior finishes.
2. Desi gn/ Pe rform a nce of Flexx- Block ®
Test Description Result Pass/Fail Criteria
Referenced Standard
R-Value (Thermal Resistance) per inch (per 25.4mm) R 4.13 Min. R 4.00 ASTM C518 Water Absorption 0.21% Max. 3.0% ASTM D2842
Water Vapor Permeance 1.64 perm Max. 3.5 perm ASTM E96
Compressive Strength 25 psi Min. 15 psi ASTM D1621 & C165 Flexural Strength 51psi Min. 35 psi ASTM C203 Dimensional Stability 0.60% Max. 2.0% ASTM D2126 Density 1.65pcf Min. 1.35pcf ASTM C1622, C303 Limiting Oxygen Index 31.00% Min. 24.0% ASTM D2863 Formaldehyde Emission NONE N/A AATTC-112 Fungi Resistance NONE N/A ASTM G21 Flame Spread Rating <25 N/A ASTM E84 Smoke Developed Rating <450 N/A ASTM E84 Sound Transmission STC 53 N/A ASTM E90
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FlexxBlock Detail Drawings
FB08-01 - 8” FlexxBlock Section with Molded Corner
FB08RC - 8” Right and Left Corner Blocks
FB06RC - 6” Right and Left Corner Blocks
FB04RC - 4” Right and Left Corner Blocks
FB08MC - 8” Molded Corner
FB06MC - 6” Molded Corner
FB04MC - 4” Molded Corner
BL - Brickledge including Height Adjuster
8” to 6” - 8” to 6” Foundation Detail with Standard Floor
8” to 6” - 8” to 6” Foundation Detail with LiteDeck Floor
8” to 4” - 8” to 4” Foundation Detail with Standard Floor
8” to 4” - 8” to 4” Foundation Detail with LiteDeck Floor
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DETAIL A-1
4'
LEFT CORNER RIGHT CORNER
8"
2'A-1
3'
1'
1'-4"
8" Right and Left Corner Detail
DETAIL NO: 8"
DRAWN BY: REVISION DATE:
DATE: SCALE:03/13/13
CAK
DUE TO VARIANCES IN LOCAL CODES, CONSTRUCTION PRACTICES, AND REQUIREMENTS ALL DETAILS SHALL BE CONSTRUCTED IN ACCORDANCEWITH SUCH LOCAL CODES, CONSTRUCTION PRACTICES, AND REQUIREMENTS REGARDLESS OF DETAIL CONSTRUCTION SHOWN IN DRAWING. LITE-FORM TECHNOLOGIES RESERVES THE RIGHT TO CHANGE INFORMATION SHOWN WITHOUT NOTICE.
FlexxBlock®
Copyright 2013© Not to Scale
Tel: 800-551-3313Fax: 402-241-4435www.liteform.com
Lite-Form Technologies1950 West 29th StreetSouth Sioux City, NE. 68776
LEFT CORNER RIGHT CORNER
4'
2'
6"
1'-2"
3'-2"
1'-4"
6" Right and Left Corner Detail
DETAIL NO: 6"
DRAWN BY: REVISION DATE:
DATE: SCALE:03/13/13
CAK
DUE TO VARIANCES IN LOCAL CODES, CONSTRUCTION PRACTICES, AND REQUIREMENTS ALL DETAILS SHALL BE CONSTRUCTED IN ACCORDANCEWITH SUCH LOCAL CODES, CONSTRUCTION PRACTICES, AND REQUIREMENTS REGARDLESS OF DETAIL CONSTRUCTION SHOWN IN DRAWING. LITE-FORM TECHNOLOGIES RESERVES THE RIGHT TO CHANGE INFORMATION SHOWN WITHOUT NOTICE.
FlexxBlock®
Copyright 2013 © Not to Scale
Tel: 800-551-3313Fax: 402-241-4435www.liteform.com
Lite-Form Technologies1950 West 29th StreetSouth Sioux City, NE. 68776
DETAIL A-1
LEFT CORNER RIGHT CORNER
1'-4"
4'-0"
1'-0"
4"
4" Right and Left Corner Detail
DETAIL NO: FB04RC (LC)
DRAWN BY: REVISION DATE:
DATE: SCALE:02/27/14
CAK
DUE TO VARIANCES IN LOCAL CODES, CONSTRUCTION PRACTICES, AND REQUIREMENTS ALL DETAILS SHALL BE CONSTRUCTED IN ACCORDANCEWITH SUCH LOCAL CODES, CONSTRUCTION PRACTICES, AND REQUIREMENTS REGARDLESS OF DETAIL CONSTRUCTION SHOWN IN DRAWING. LITE-FORM TECHNOLOGIES RESERVES THE RIGHT TO CHANGE INFORMATION SHOWN WITHOUT NOTICE.
FlexxBlock ®
Copyright 2013 © Not to Scale
Tel: 800-551-3313Fax: 402-241-4435www.liteform.com
Lite-Form Technologies1950 West 29th StreetSouth Sioux City, NE. 68776
DETAIL A-1
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FlexxBlock Specifications
GeneralSpecifications
Physical Properties of EPS (Expanded Polystyrene)
CSISpecification:FlexxBlockInsulatedConcreteForms
Material Safety Data Sheet on EPS (Expandable Polystyrene)
General Specifications Flexx-Block®
Overall Dimension 16” x 48”
Form Wall Thickness, per side 2 inches
Number of Ties 8 per block
Attachment Rails or Tabs continuous - 6” OC
Pull Out Strength of Tie 175 lb
In-Wall Bracing Optional Horiz. every 4’
Concrete Core Size 4”, 6”, 8”, 10”, 12”
R-Value - Form only by test R-18
R-Value - Form and 8” Concrete Wall,by calculation
R-23
Fire Rating4”6”8”
1 Hour3 Hours4 Hours
STC (Sound Transmission Class)8” Concrete Wall by Calculation
53
AccessoriesBrickledge BlockHeight AdjusterScaffold Bracket
YYOptional
Assembly Hardware90 Degree Corner Tie45 Degree Corner TieT-Intersection TieCustom Corner TieCorner LockBlock LockFull TieHalf Tie
YYYYYYNN
Type XIII
Minimum Density pcf 1.60 pcf
Fire-resistant Bead YES
Flame Spread, max. 6” Less than 20
Smoke Development Less than 300
Compressive Strength, psi 20
Flexural Strength, psi 45
Water Vapor Permeance, (max.) 1.5 max.
Maximum Dimen. Stability % change 2.0% max.
Absorption by Volume, (max.) <0.5
Expanded Polystyrene (EPS)
Flexx-Block® ICF Wall System
General Specifications
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Physical Properties of EPS
Specification Reference (ASTM-C578-95) Type I (1#)
Type VIII (1 1/4#)
Type II (1 1/2#)
Type IX (2#)
Property: Units ASTM Test Density, Min. (pcf) C303 or
D1622 0.90 1.15 1.35 1.80
@ 25 °F 0.238 0.227 0.217 0.208
@ 40 °F 0.250 0.238 0.227 0.217 Thermal Conductivity "K Factor"
BTU/(hr) (sqft)(°F/in)
C177 or C518
@ 75 °F 0.277 0.263 0.250 0.238
@ 25 °F 4.20 4.40 4.60 4.80
@ 40 °F 4.00 4.20 4.40 4.60 Thermal Resistance "R Value"
One inch thickness
C177 or C518
@ 75 °F 3.60 3.80 4.00 4.20
Strength Properties Type I
(1#) Type VIII (1 1/4#)
Type II (1 1/2#)
Type IX (2#)
Property: Units ASTM Test @ 1/2% 3.5 4.3 6.0 8.0
@ 1% 7.0 8.5 12.0 16.0
@ 5% 8.0 11.0 12.0 20.0
Compressive @ xx% deflection psi D1621
@ 10% 10.0 13.0 15.0 25.0
Flexural psi C203 25 32 40 55
Tensile psi D1623 16 17 18 23
Shear psi D732 18 23 26 33
Shear Modulus psi --- 280 370 460 600
Modulus of Elasticity psi --- 180 250 320 460
Long-Term Load 2.1 3.3 4.5 7.0
Short-Term Load 4.0 5.0 5.9 9.1 Allowable Compressive Stress
psi .
Rolling Loads 8.0 10.0 11.8 18.2
Young's modulus psi . . 573 739 1000 1449
Modulus of Subgrade Reaction
[k],pci . . 200 240 280 460
Poisson's Ratio [v] . . .086 .103 .126 .165
Coefficient of Friction . . . 0.5-0.7 0.5-0.7 0.5-0.7 0.5-0.7
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Moisture Resistance Type I
(1#) Type VIII (1 1/4#)
Type II (1 1/2#)
Type IX (2#)
Property: Units ASTM Test Water Vapor Permeance, max. perm.
Perms (ng/Pa•s•m²) E 96 . 5.0
(287) 3.5 (201)
3.5 (201)
2.0 (115)
Absorption by Volume, max. % C272 . < 4.0 < 3.0 < 3.0 < 2.0
Capillarity --- --- . None None None None
Buoyancy lbs/ft³ . . 60 60 60 60
Other Properties Type I
(1#) Type VIII (1 1/4#)
Type II (1 1/2#)
Type IX (2#)
Property: Units ASTM Test Coeff. of Thermal Expansion in./(in) (°F) D696 . 0.000035 0.000035 0.000035 0.000035
Long-Term 167 167 167 167 Max. Service Temperature °F ---
Intermittent 180 180 180 180
Flame Spread max. 6" UL® (BRYX) 20 20 20 20
Smoke Development UL® (BRYX) 300 300 300 300
All values based on data from Huntsman Chemical Corporation, Styrochem International, NOVA Chemical Corporation and BASF Corporation. Federal Trade Commision Ruling: Use the 75 F R-Value when calculating R-Values for residential construction. Design Considerations:
• DO NOT COMPARE polyisocyanurate conditioned R-Values by RIC-TIMA and PIMA to EPS R-Values by ASTM C-578.
• ASK for a 20 year 100% R-Value Warranty. • Flammability: Like many construction materials, EPS is combustible. It should not be exposed to
flame or other ignition sources. Current model building code requirements should be met for adequate protection or seperation from occupied areas.
• Water Absorption Properties: EPS water absorption is low. Moisture takes the path of least resistance and travels around individual beads rather than through them; the non-interconnecting cell structure prevents capillary absorption.
• Water Vapor Transmission: EPS has low permeability but is not considered a vapor barrier.
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LITE-FORM TECHNOLOGIES SECTION 03 11 19 FLEXX-BLOCK®
INSULATED CONCRETE FORMING (ICF) PART 1 GENERAL 1.01 SUMMARY
• Comply with the requirements for Division 1. • Supply & installation of insulated concrete forms, installation of reinforcing steel and placement of concrete
within formwork. • Adequate bracing and falsework shall be provided by the Installing Contractor to comply with all applicable
Codes. 1.02 SCOPE OF WORK
• Furnish all labor, materials, tools and equipment to perform the installation of Lite-Form Insulated Concrete Form Wall System as manufactured by Lite-Form Technologies, 1950 West 29th Street, South Sioux City, NE. 68776. (800) 551-3313.
• Furnish all labor to include placement of reinforcing steel within forms, placement of concrete into forms, and final cleanup.
1.03 PRODUCTS SUPPLIED BUT NOT SPECIFIED OR INSTALLED UNDER THIS SECTION
• EPS compatible modified bituminous sheet waterproofing membrane. • EPS compatible parge coat.
1.04 PRODUCTS INSTALLED BUT NOT SPECIFIED OR SUPPLIED UNDER THIS SECTION
• Sleeves • Inserts • Anchors • Bolts • Reinforcing Steel • Window & Door Opening Bucks • Concrete
1.05 RELATED SECTIONS
• Section 03 20 00 - Concrete Reinforcing • Section 03 30 00 - Cast-In-Place Concrete • Section 03 40 00 - Precast Concrete • Division 04 00 00 - Masonry • Division 05 00 00 - Metals • Division 06 00 00 - Wood, Plastics and Composites • Section 07 13 00 - Sheet Waterproofing • Section 07 24 00 - Exterior Insulation and Finishing Systems • Section 07 46 00 - Siding • Division 08 00 00 - Openings • Section 09 20 00 - Plaster & Gypsum Board
1.06 ALTERNATES
• Materials shall be only as specified in Paragraphs 1.02 & 2.02 as per Manufacturer specified in Paragraph 2.01. No alternate materials shall be accepted for this Section.
1.07 REFERENCES
• ACI 318 Building Code Requirements for Reinforced Concrete • ACI 332 Guide to Residential Cast-in-Place Concrete Construction • ASTM C236 Steady State Thermal Performance of Building Assemblies
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• ASTM C473 Physical Testing of Gypsum Board Products & Gypsum Lath • ASTM D1761 Mechanical Fasteners in Wood • ASTM E84 Surface Burning Characteristics of Building Materials • UBC 26-3 Uniform Building Code Standard Room Fire Test
1.08 DEFINITIONS
• Wall Alignment System - a form alignment & scaffold system designed for use with ICF wall systems. • Contractor Installer- An installation contractor, who has received instructional training in the installation of
Lite-Form wall systems. • Technical Advisor- A technical representative, usually an employee of Lite-Form or a Lite-Form Distributor,
who has received instructional training in the installation of Lite-Form Wall Systems and is in the capacity of supervising an installation crew on site.
• EPS- Acronym for “Expandable Polystyrene” when referencing the insulating foam component of the Lite-Form ICF Wall System.
• ICF- Acronym for “Insulated Concrete Form”. • Window or Door Opening Buck- a pre-manufactured or site constructed frame assembly consisting of wood
or plastic material used to frame a rough opening within the forming system that will retain concrete around the opening. The frame can also provide for subsequent anchorage of doors and windows within the wall assembly.
1.09 SYSTEM DESCRIPTION / PERFORMANCE REQUIREMENTS
• Insulated concrete wall form system shall consist of 2 flame resistant panels of Expandable Polystyrene (EPS) connected by high-density polypropylene ties.
• Wall system to provide min. 4”, 6”, 8”, 10”, or 12” wall section (as required) at all locations throughout wall area.
• Wall system ties to provide min. 1” (25mm) wide fastening strips @6” (200mm) o/c recessed approximately 1/2” beneath the surface and clearly marked to facilitate finish fastening both interior and exterior.
• Wall system to provide accurate positioning of steel within form cavity to conform to reinforcing requirements of ACI 318.
• EPS foam panels with concrete to provide min. insulation levels as noted: • 4” (100 mm) Cavity Form Unit: R 21 (RSI 3.01) • 6” (160 mm) Cavity Form Unit: R 24 (RSI 3.89) • 8” (200 mm) Cavity Form Unit: R 24 (RSI 3.82) • 10” (200 mm) Cavity Form Unit: R 24 (RSI 3.82) • 12” (300 mm) Cavity Form Unit: R 24 (RSI 3.83) • EPS foam to provide maximum vapor permeation of 3.5 Perm-in. (200 ng/Pa.s.m2) • Finished wall assembly to provide min. rating of STC 53 sound attenuation performance.
1.10 SUBMITTALS
• Submit relevant laboratory tests or data that validate product compliance with performance criteria specified prior to commencement of work under this Section.
• Submit copy of Manufacturer’s Product Manual 1.11 QUALITY ASSURANCE
• Contractor shall engage a Lite-Form trained Contractor Installer or Technical Advisor for the duration of the work under this Section.
• Site Mock-up: If required, construct sample wall mock-up panel to include full wall system and details, located where directed by Consultant. Panel may form part of finished work if approved by Consultant.
• Contractor Installer/Technical Advisor to meet with Contractor prior to material delivery on site to co-ordinate provision of access, storage area, and protection of Lite-Form ICF product and spatial requirements for form alignment placement steel storage & forming.
1.12 DELIVERY STORAGE & HANDLING
• Deliver products in original factory packaging, bearing identification of product, manufacturer and batch/lot number.
• Handle and store products in location to prevent damaging and soiling. • Ensure that UV protection is provided for material, should on-site storage extend beyond 30 days.
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1.13 PROJECT CONDITIONS
• Use appropriate measures for protection and supplementary heating when required to ensure proper curing conditions in accordance with manufacturer’s recommendations if installation is carried out during periods of weather where temperatures are below minimum specified by governing Building Code for concrete and masonry.
1.14 COORDINATION
• Ensure those materials listed under Sub-Section 1.03 & 1.04 are provided to Contractor Installer prior to commencement of work under this Section.
1.15 WARRANTY
• Contact Manufacturer for supply of written copy of specific warranties of the product PART 2 PRODUCTS 2.01 MANUFACTURER Lite-Form Technologies 1950 West 29th Street South Sioux City, NE. 68776 Phone: (800) 551-3313 | Fax: (402) 241-4435 E-Mail: [email protected] | Web Page: www.liteform.com 2.02 MATERIALS
• Insulated concrete forms shall be Lite-Form forms as manufactured by Lite-Form Technologies South Sioux City, NE. 68776.
• Insulated Concrete Forms to be supplied through Lite-Form or an authorized Lite-Form Distributor. • Substitutes and alternates will not be accepted. (See Section 1.06).
2.03 COMPONENTS Provide Lite-Form ICF Wall System Forms as listed below as may be required for proper execution of the work:
• 4”, 6”, 8", 10” & 12” Standard Form Unit • 4” Core - 48”L x 8” W x 16”H • 6” Core - 48"L x 10” W x 16”H • 8" Core - 48"L x 12" W x 16”H • 10” Core – 48”L x 14”W x 16”H • 12” Core – 48”L x 16”W x 16”H • 4”, 6”, 8", 10” & 12” 90 Degree Corners • 6” & 8” Extended Brick Ledge • Height Adjusters in 48"Lengths x 4”H
2.04 CONCRETE
• Concrete supplied under Section 03 30 00 shall be of strength as specified by the design engineer (measured at 28 days).
• Recommended aggregate size to be 3/4” (19mm). • Recommended concrete slump is 4” to 6” +/- 1” (100 to 150mm +/- 25mm) (subject to design revision to suit
application). 2.05 REINFORCING STEEL
• Reinforcing steel shall be as specified in Section 03 20 00 and shall be supplied under that Section for placement by the Lite-Form Contractor Installer.
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2.06 WALL ALIGNMENT SYSTEM
• To aid in the construction of the wall system, and to provide an adjustable device for ensuring plumbness of the wall during construction, where appropriate, an approved alignment system (provided as an installation component of the Lite-Form ICF System) shall be used.
2.07 WATERPROOFING
• Where called for on drawings, Waterproofing shall be Peel & Stick Modified Bituminous Sheet Waterproofing Membrane. Material to be supplied under this Section & installed as specified under Section 07 13 00 (Sheet Waterproofing).
• Waterproofing material shall be EPS foam compatible. 2.08 PARGING
• Where called for on drawings, parging (stucco type) shall be an approved Acrylic Product. supplied under this section and installed as specified under Section 09 20 00 (Plaster & Gypsum Board)
• Alternate EIFS supplied and installed under Section 07 24 00 (Exterior Finishing Systems). PART 3 EXECUTION 3.01 EXAMINATION
• Inspect all areas included in Scope of Work to establish extent of work and verify site access conditions. 3.02 SITE VERIFICATION OF CONDITIONS
• Verify that site conditions are as set out in Part 1- General Conditions. • Examine footings installed under Section 03 30 00 are within +/-¼”(6mm) of level and that steps in footings
are 16” (425 mm) in height. • If specified, ensure reinforcing steel dowels are in place at specified centers along footing lengths
3.03 PREPARATION
• Clean all debris from top of footings prior to commencing work. 3.04 INSTALLATION
• Installation of forms to be in strict accordance with Manufacturer’s Product Manual as supplied in evidence to contractor under Sub Section 1.10 of this Section.
• The Installation Contractor shall ensure Manufacturer’s procedures for the following work are employed on site (As outlined in the Manufacturer’s Installation Manual):
• First Course Placement • Horizontal Reinforcement Placement • Successive Course Placement • Door & Window Opening Construction • Form Alignment & Scaffolding Installation • Vertical Reinforcement Placement • Pre-Concrete Placement Inspection • Concrete Placement • Alignment Assembly Removal
3.05 SERVICE PENETRATIONS
• Service penetrations (e.g.- electrical service conduits, water service pipes, air supply and exhaust ducts etc.) shall be installed at the required locations as indicated by the appropriate trade.
• Service penetrations exceeding 16” x 16” (400mm x 400mm) in area shall be reinforced. • Prior to concrete placement, install service penetration sleeves (supplied by others) at designated locations to
create voids where services can be passed through at later date.
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3.06 CLEANUP
• Clean up and properly dispose of all debris remaining on job site related to the installation of the insulated concrete forms.
3.07 PROTECTION
• Provide temporary coverage of installation to reduce exposure to Ultra Violet light should final finish application be delayed longer than 60 days.
END OF SECTION
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FlexxBlock Marketing Materials
FlexxBlock Installation DVD
FlexxBlock Installation Manual
FlexxBlock Brochure
Forward and Introduction
Description of LiteDeck System 1.1 Materials
1.2 Floor/Roof Formwork Installation
1.3 Structural Engineering
1.4 Span Tables
1.5 Reinforcing Concrete
1.6 Concrete Placement
1.7 Temporary Shoring
1.8 Concentrated Loads
1.9 Maximum Ceiling Load / Steel Stud Load Capacity
1.10 Fire Resistance
1.11 Fire Performance Test w/ Drywall
1.12 Fire Performance Test w/o Drywall
1.13 Sound Transmission Class
1.14 R-Value
1.15 Impact Isolation Class
1.16 Patents
1.17 Imprints
© Copyright 2008 Lite-Form Technologies | Lite-Deck® Technical Evaluation Manual 3
FORWARD and INTRODUCTION
The Technical Evaluation data contained herein is provided for general information only. Itis not to be construed as engineering advice on a particular project and does not replace theengineering judgment, interpretation or conclusions of the Engineer Of Record on aparticular project.
Tests and ReportsThe tests provided herein were conducted by independent firms and facilities and arewarranted to have been done in full compliance with the codes referenced for each test.Further related statements have been secured from information published by the firms,organizations or associations which are referenced herein.
Local Building CodesThe Lite-Deck concrete forming system is sold throughout several building codejurisdictions. Construction codes may be subject to various interpretations and periodicchanges. Lite-Form Technologies does not warrant that the information contained hereincomplies with any specific local code or building regulation. The engineer, designer orinstaller must insure that all applications of Lite-Deck forms are in compliance with theappropriate local codes and regulations in the jurisdiction and for which the specificapplications are being used.
Errors and/or OmissionsThe information contained herein could include technical or typographical errors, omissionsor other inaccuracies. Lite-Form Technologies reserves the right to make changes, correc-tions and/or improvements without notice. Lite-Form Technologies assumes no liability forthe accuracy or completeness of the information contained herein. Further, Lite-FormTechnologies, its’ representatives or distributors disclaim any and all liability for damagesincurred directly or indirectly as a result of such errors, omissions or inaccuracies.
LiabilityLite-Form Technologies, its’ representatives or distributors shall not be held liable for anydirect, indirect, incidental or consequential damages as a result of the interpretation andsubsequent application of any information contained herein.
© 2008 Lite-Form Technologies – South Sioux City Nebraska. Lite-Deck is a registeredtrademark of Lite-Form Technologies. Patent Number 6272749 and 6817150B1. OtherPatents applied for or Pending.
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© Copyright 2008 Lite-Form Technologies | Lite-Deck® Technical Evaluation Manual 5
Description of the LiteDeck System
LiteDeck Floor/Roof System – Stay-in-Place EPS formwork for Concrete Construction
General: The LiteDeck System consists of interlocking rigid polystyrene foam plastic panels with inserted steel or woodstiffeners, and is a permanent formwork for reinforced concrete joists and slab. The system is an ICF (Insulated Concrete Form) panel for floors and roofs to be used in residential and commercial applications.
1.1 Materials: Base Sections: This profile consists of a wire-cut expanded polystyrene (EPS) foam-plastic panel with provision for load-bearing, concrete structural joists. The sides of the panels have an interlocking configuration. Cut-outs for the metal C-channel stiffeners are made on the bottom face of the base sections. The stiffener cut-outs are spaced 12 inches on center. The panels can be either 24 inches or 48 inches wide by lengths as needed. See Detail Drawings in Section 3 The foam billets used to fabricate the base sections are molded from modified, expandable polystyrene beads that comply with Type 8 EPS classification in accordance with the latest ASTM C578 requirements. The foam plastic has a nominal density of 1.25 lbs. pcf and has a maximum flame-spread rating of 25 and maximum smoke-density rating of 450 when tested in accordance with ASTM E84 in a thickness of 4 inches.
Top Hats: This EPS profile comes molded with 100% recycled EPS. During installation, it is attached to the top of the base sections in order to increase the depth of the load-bearing concrete joist. The top hats come in thicknesses of 2, 4 and 6-inches by 4 foot lengths. The foam plastic has a nominal density of 1.25 lbs. pcf. EPS has a maximum flame-spread rating of 25 and a maximum smoke-density rating of 450 when tested in accordance with ASTM E84 in a thickness of 4 inches. See Detail Drawings Section 3; LD 2.3 Steel C-channel: The channels are formed from 18 gauge (0.0516”) Type G90, galvanized steel in compliance with ASTM A653, Chemically Treated, Dry or lightly oiled. The nominal dimensions of the channels are 1 1/2” flange by 3 1/2” web with 3/8” thick return lip. The channels are inserted into the channel cutouts on the bottom face of the base sections. To maintain the base sections in place, 3 inch self-tapping screws with plastic insulation washers are fastened through the top face of the base section and into the stiffener. See LiteDeck Detail Drawing Section 3; LD 2.1
LiteDeck WRS: LiteDeck WRS or Wood Rib System is developed for use with dimensional lumber in place of what traditionally was a steel rib. LiteDeck WRS has cut outs that will accept 2x6 dimensional lumber. See the specs in the Drawings section of this manual 6.0 for dimensions and details.
1.2 Floor/Roof Formwork Installation
Base Sections are installed over temporary shoring. Top hats are then installed on top of base sections as required by code or design. Reinforcing steel is then installed in the joist and in the top slab. Concrete is then placed on the LiteDeck formwork. Once the concrete reaches the required strength, the temporary shoring is removed from under the LiteDeck form. See Installation Manual in Section 4; Marketing Materials
1.3 Structural Engineering
Structural engineering for all projects using LiteDeck formwork shall have the concrete joist engineered for the clear span and loads to be placed on the completed concrete joist. The design shall be in compliance with applicable building code. If the building code does not address concrete joists, the latest edition of (American Concrete Institute) ACI 318 shall be
© Copyright 2008 Lite-Form Technologies | Lite-Deck® Technical Evaluation Manual 6
1.4 Span Tables (Autocad and PDF Files of these drawings are located on the enclosed CD)
Lite-Deck span tables should not be used without first securing competent advice with respect to its suitablility for anygiven application. The use of the informatnion disclosed in this diagram is subject to approval bythe local building code authority. Although the information in this document is believed to be accurate, Lite-Form Technologies, nor any of their employees or representatives makes any warranty, guarantee or representation, ex-pressed for the direct or indirect damages arising from such use.
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© Copyright 2008 Lite-Form Technologies | Lite-Deck® Technical Evaluation Manual 7
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© Copyright 2008 Lite-Form Technologies | Lite-Deck® Technical Evaluation Manual 9
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1-#
51
-#5
1-#
61
-#6
2-#
51
&2
Span
8015
1-#
41
-#5
1-#
51
-#6
2-#
52
-#5
2-#
6-
--
3+Sp
an80
151
-#4
1-#
41
-#5
1-#
51
-#6
1-#
62
-#5
2-#
52
-#6
-1
&2
Span
100
151
-#5
1-#
51
-#6
1-#
62
-#5
2-#
6-
--
-3+
Span
100
151
-#4
1-#
51
-#5
1-#
61
-#6
2-#
52
-#5
2-#
6-
-
Des
ign
Tabl
eN
otes
:1.
Des
ign
tabl
esar
efo
rcos
test
imat
ing
purp
oses
only
.Fi
nalb
eam
rein
forc
ing
tobe
desi
gned
bya
licen
sed
desi
gnpr
ofes
sion
alin
resp
onsi
ble
char
ge.
2.Fo
r1sp
anco
nditi
on,l
ongi
tudi
nalr
einf
orci
ngst
eelo
nly
requ
ired
inbo
ttom
ofbe
am.
3.Fo
r2an
d3+
span
cond
ition
s,lo
ngitu
dina
lrei
nfor
cing
requ
ired
inbo
thto
pan
dbo
ttom
ofbe
am.
4.S
hade
dce
llsin
tabl
ere
flect
need
fors
hear
rein
forc
ing
inbe
am.S
hear
rein
forc
ing
tobe
desi
gned
bya
licen
sed
desi
gnpr
ofes
sion
alin
resp
onsi
ble
char
ge.
5.Fo
r2an
d3+
span
cond
ition
s,ce
nter
long
.rei
nfor
cing
inbo
ttom
ofbe
amat
mid
span
and
into
pbe
amat
supp
ort.
6.P
rovi
de3/
4"m
inim
umco
ncre
teco
vert
oal
lrei
nfor
cing
stee
lfor
inte
riore
xpos
ure.
Ref
erto
the
late
stA
CI3
18fo
rmin
imum
clea
ranc
efo
roth
erex
posu
res.
7.M
ultip
lesp
anre
info
rcin
gis
valid
fors
ame
leng
thsp
ans
only
.
Min
imum
Rei
nfor
cing
Stee
lReq
uire
dFo
rG
iven
Span
Supe
rim
pose
dL
ive
Loa
d(P
SF)
Dea
dL
oad
REV. August, 2010
© Copyright 2008 Lite-Form Technologies | Lite-Deck® Technical Evaluation Manual 10
Syst
em6+
4T
abul
ated
span
sbe
twee
n8'
and
21'
Mat
eria
lPar
amet
ers
Con
cret
eSt
reng
th=
3000
psi
Rei
nfor
cem
entS
tren
gth
=60
ksi
Nor
mal
Wei
ghtC
oncr
ete
=14
5lb
s/ft3
2'to
8'9'
10'
11'
12'
13'
14'
15'
16'
17'
18'
19'
20'
21'
Span
Lon
g.L
ong.
Lon
g.L
ong.
Lon
g.L
ong.
Lon
g.L
ong.
Lon
g.L
ong.
Lon
g.L
ong.
Lon
g.L
ong.
Con
ditio
nR
einf
.R
einf
.R
einf
.R
einf
.R
einf
.R
einf
.R
einf
.R
einf
.R
einf
.R
einf
.R
einf
.R
einf
.R
einf
.R
einf
.1
&2
Span
4010
1-#
41
-#4
1-#
41
-#4
1-#
51
-#5
1-#
51
-#6
1-#
62
-#5
2-#
52
-#5
2-#
62
-#6
3+Sp
an40
101
-#4
1-#
41
-#4
1-#
41
-#4
1-#
41
-#5
1-#
51
-#6
1-#
61
-#6
2-#
52
-#5
2-#
51
&2
Span
8015
1-#
41
-#4
1-#
51
-#5
1-#
61
-#6
2-#
52
-#5
2-#
62
-#6
2-#
62
-#7
--
3+Sp
an80
151
-#4
1-#
41
-#4
1-#
51
-#5
1-#
51
-#6
1-#
62
-#5
2-#
52
-#6
2-#
62
-#6
2-#
71
&2
Span
100
151
-#4
1-#
41
-#5
1-#
51
-#6
1-#
62
-#5
2-#
62
-#6
2-#
72
-#7
--
-3+
Span
100
151
-#4
1-#
41
-#4
1-#
51
-#5
1-#
61
-#6
2-#
52
-#5
2-#
62
-#6
2-#
72
-#7
-
Des
ign
Tabl
eN
otes
:1.
Des
ign
tabl
esar
efo
rcos
test
imat
ing
purp
oses
only
.Fi
nalb
eam
rein
forc
ing
tobe
desi
gned
bya
licen
sed
desi
gnpr
ofes
sion
alin
resp
onsi
ble
char
ge.
2.Fo
r1sp
anco
nditi
on,l
ongi
tudi
nalr
einf
orci
ngst
eelo
nly
requ
ired
inbo
ttom
ofbe
am.
3.Fo
r2an
d3+
span
cond
ition
s,lo
ngitu
dina
lrei
nfor
cing
requ
ired
inbo
thto
pan
dbo
ttom
ofbe
am.
4.S
hade
dce
llsin
tabl
ere
flect
need
fors
hear
rein
forc
ing
inbe
am.S
hear
rein
forc
ing
tobe
desi
gned
bya
licen
sed
desi
gnpr
ofes
sion
alin
resp
onsi
ble
char
ge.
5.Fo
r2an
d3+
span
cond
ition
s,ce
nter
long
.rei
nfor
cing
inbo
ttom
ofbe
amat
mid
span
and
into
pbe
amat
supp
ort.
6.P
rovi
de3/
4"m
inim
umco
ncre
teco
vert
oal
lrei
nfor
cing
stee
lfor
inte
riore
xpos
ure.
Ref
erto
the
late
stA
CI3
18fo
rmin
imum
clea
ranc
efo
roth
erex
posu
res.
7.M
ultip
lesp
anre
info
rcin
gis
valid
fors
ame
leng
thsp
ans
only
.
Min
imum
Rei
nfor
cing
Stee
lReq
uire
dFo
rG
iven
Span
Supe
rim
pose
dL
ive
Loa
d(P
SF)
Dea
dL
oad
REV. August, 2010
© Copyright 2008 Lite-Form Technologies | Lite-Deck® Technical Evaluation Manual 11
Syst
em8+
2Ta
bula
ted
span
sbe
twee
n8'
and
19'
Mat
eria
lPar
amet
ers
Con
cret
eSt
reng
th=
3000
psi
Rei
nfor
cem
entS
tren
gth
=60
ksi
Nor
mal
Wei
ghtC
oncr
ete
=14
5lb
s/ft
3
2'to
8'9'
10'
11'
12'
13'
14'
15'
16'
17'
18'
19'
Span
Lon
g.L
ong.
Lon
g.L
ong.
Lon
g.L
ong.
Lon
g.L
ong.
Lon
g.L
ong.
Lon
g.L
ong.
Con
ditio
nR
einf
.R
einf
.R
einf
.R
einf
.R
einf
.R
einf
.R
einf
.R
einf
.R
einf
.R
einf
.R
einf
.R
einf
.1
&2
Span
4010
1-#
41
-#4
1-#
41
-#4
1-#
41
-#5
1-#
51
-#5
1-#
61
-#6
2-#
52
-#5
3+Sp
an40
101
-#4
1-#
41
-#4
1-#
41
-#4
1-#
41
-#5
1-#
51
-#5
1-#
61
-#6
1-#
61
&2
Span
8015
1-#
41
-#4
1-#
41
-#5
1-#
51
-#6
1-#
62
-#5
2-#
52
-#6
2-#
6-
3+Sp
an80
151
-#4
1-#
41
-#4
1-#
41
-#5
1-#
51
-#6
1-#
61
-#6
2-#
52
-#5
2-#
61
&2
Span
100
151
-#4
1-#
41
-#5
1-#
51
-#6
1-#
62
-#5
2-#
52
-#6
2-#
6-
-3+
Span
100
151
-#4
1-#
41
-#4
1-#
51
-#5
1-#
61
-#6
1-#
62
-#5
2-#
52
-#6
2-#
6
Des
ign
Tabl
eN
otes
:1.
Des
ign
tabl
esar
efo
rcos
test
imat
ing
purp
oses
only
.Fi
nalb
eam
rein
forc
ing
tobe
desi
gned
bya
licen
sed
desi
gnpr
ofes
sion
alin
resp
onsi
ble
char
ge.
2.Fo
r1sp
anco
nditi
on,l
ongi
tudi
nalr
einf
orci
ngst
eelo
nly
requ
ired
inbo
ttom
ofbe
am.
3.Fo
r2an
d3+
span
cond
ition
s,lo
ngitu
dina
lrei
nfor
cing
requ
ired
inbo
thto
pan
dbo
ttom
ofbe
am.
4.S
hade
dce
llsin
tabl
ere
flect
need
fors
hear
rein
forc
ing
inbe
am.S
hear
rein
forc
ing
tobe
desi
gned
bya
licen
sed
desi
gnpr
ofes
sion
alin
resp
onsi
ble
char
ge.
5.Fo
r2an
d3+
span
cond
ition
s,ce
nter
long
.rei
nfor
cing
inbo
ttom
ofbe
amat
mid
span
and
into
pbe
amat
supp
ort.
6.P
rovi
de3/
4"m
inim
umco
ncre
teco
vert
oal
lrei
nfor
cing
stee
lfor
inte
riore
xpos
ure.
Ref
erto
the
late
stA
CI3
18fo
rmin
imum
clea
ranc
efo
roth
erex
posu
res.
7.M
ultip
lesp
anre
info
rcin
gis
valid
fors
ame
leng
thsp
ans
only
.
Min
imum
Rei
nfor
cing
Stee
lReq
uire
dFo
rG
iven
Span
Liv
eL
oad
(PSF
)D
ead
Loa
d
Supe
rim
pose
d
REV. August, 2010
© Copyright 2008 Lite-Form Technologies | Lite-Deck® Technical Evaluation Manual 12
Syst
em8+
4T
abul
ated
span
sbe
twee
n8'
and
23'
Mat
eria
lPar
amet
ers
Con
cret
eSt
reng
th=
3000
psi
Rei
nfor
cem
entS
tren
gth
=60
ksi
Nor
mal
Wei
ghtC
oncr
ete
=14
5lb
s/ft
3
2'to
8'9'
10'
11'
12'
13'
14'
15'
16'
17'
18'
19'
20'
21'
22'
23'
Span
Lon
g.L
ong.
Lon
g.L
ong.
Lon
g.L
ong.
Lon
g.L
ong.
Lon
g.L
ong.
Lon
g.L
ong.
Lon
g.L
ong.
Lon
g.L
ong.
Con
ditio
nR
einf
.R
einf
.R
einf
.R
einf
.R
einf
.R
einf
.R
einf
.R
einf
.R
einf
.R
einf
.R
einf
.R
einf
.R
einf
.R
einf
.R
einf
.R
einf
.1
&2
Span
4010
1-#
41
-#4
1-#
41
-#4
1-#
41
-#4
1-#
51
-#5
1-#
51
-#6
1-#
62
-#5
2-#
52
-#5
2-#
62
-#6
3+Sp
an40
101
-#4
1-#
41
-#4
1-#
41
-#4
1-#
41
-#4
1-#
51
-#5
1-#
51
-#6
1-#
61
-#6
1-#
62
-#5
2-#
51
&2
Span
8015
1-#
41
-#4
1-#
41
-#4
1-#
51
-#5
1-#
61
-#6
2-#
52
-#5
2-#
52
-#6
2-#
62
-#6
2-#
72
-#7
3+Sp
an80
151
-#4
1-#
41
-#4
1-#
41
-#4
1-#
51
-#5
1-#
51
-#6
1-#
62
-#5
2-#
52
-#5
2-#
62
-#6
2-#
61
&2
Span
100
151
-#4
1-#
41
-#4
1-#
51
-#5
1-#
61
-#6
2-#
52
-#5
2-#
52
-#6
2-#
62
-#7
2-#
72
-#7
-3+
Span
100
151
-#4
1-#
41
-#4
1-#
41
-#5
1-#
51
-#5
1-#
61
-#6
2-#
52
-#5
2-#
52
-#6
2-#
62
-#6
2-#
7
Des
ign
Tabl
eN
otes
:1.
Des
ign
tabl
esar
efo
rcos
test
imat
ing
purp
oses
only
.Fi
nalb
eam
rein
forc
ing
tobe
desi
gned
bya
licen
sed
desi
gnpr
ofes
sion
alin
resp
onsi
ble
char
ge.
2.Fo
r1sp
anco
nditi
on,l
ongi
tudi
nalr
einf
orci
ngst
eelo
nly
requ
ired
inbo
ttom
ofbe
am.
3.Fo
r2an
d3+
span
cond
ition
s,lo
ngitu
dina
lrei
nfor
cing
requ
ired
inbo
thto
pan
dbo
ttom
ofbe
am.
4.S
hade
dce
llsin
tabl
ere
flect
need
fors
hear
rein
forc
ing
inbe
am.S
hear
rein
forc
ing
tobe
desi
gned
bya
licen
sed
desi
gnpr
ofes
sion
alin
resp
onsi
ble
char
ge.
5.Fo
r2an
d3+
span
cond
ition
s,ce
nter
long
.rei
nfor
cing
inbo
ttom
ofbe
amat
mid
span
and
into
pbe
amat
supp
ort.
6.P
rovi
de3/
4"m
inim
umco
ncre
teco
vert
oal
lrei
nfor
cing
stee
lfor
inte
riore
xpos
ure.
Ref
erto
the
late
stA
CI3
18fo
rmin
imum
clea
ranc
efo
roth
erex
posu
res.
7.M
ultip
lesp
anre
info
rcin
gis
valid
fors
ame
leng
thsp
ans
only
.
Min
imum
Rei
nfor
cing
Stee
lReq
uire
dFo
rG
iven
Span
Supe
rim
pose
dL
ive
Loa
d(P
SF)
Dea
dL
oad
REV. August, 2010
© Copyright 2008 Lite-Form Technologies | Lite-Deck® Technical Evaluation Manual 13
Syst
em10
+2T
abul
ated
span
sbe
twee
n8'
and
21'
Mat
eria
lPar
amet
ers
Con
cret
eSt
reng
th=
3000
psi
Rei
nfor
cem
entS
tren
gth
=60
ksi
Nor
mal
Wei
ghtC
oncr
ete
=14
5lb
s/ft3
2'to
8'9'
10'
11'
12'
13'
14'
15'
16'
17'
18'
19'
20'
21'
Span
Lon
g.L
ong.
Lon
g.L
ong.
Lon
g.L
ong.
Lon
g.L
ong.
Lon
g.L
ong.
Lon
g.L
ong.
Lon
g.L
ong.
Con
ditio
nR
einf
.R
einf
.R
einf
.R
einf
.R
einf
.R
einf
.R
einf
.R
einf
.R
einf
.R
einf
.R
einf
.R
einf
.R
einf
.R
einf
.1
&2
Span
4010
1-#
41
-#4
1-#
41
-#4
1-#
41
-#4
1-#
41
-#5
1-#
51
-#5
1-#
61
-#6
1-#
62
-#5
3+Sp
an40
101
-#4
1-#
41
-#4
1-#
41
-#4
1-#
41
-#4
1-#
41
-#5
1-#
51
-#5
1-#
51
-#6
1-#
61
&2
Span
8015
1-#
41
-#4
1-#
41
-#4
1-#
51
-#5
1-#
51
-#6
1-#
62
-#5
2-#
52
-#5
2-#
62
-#6
3+Sp
an80
151
-#4
1-#
41
-#4
1-#
41
-#4
1-#
51
-#5
1-#
51
-#6
1-#
61
-#6
2-#
52
-#5
2-#
51
&2
Span
100
151
-#4
1-#
41
-#4
1-#
51
-#5
1-#
51
-#6
1-#
62
-#5
2-#
52
-#5
2-#
62
-#6
-3+
Span
100
151
-#4
1-#
41
-#4
1-#
41
-#4
1-#
51
-#5
1-#
61
-#6
1-#
62
-#5
2-#
52
-#5
2-#
6
Des
ign
Tabl
eN
otes
:1.
Des
ign
tabl
esar
efo
rcos
test
imat
ing
purp
oses
only
.Fi
nalb
eam
rein
forc
ing
tobe
desi
gned
bya
licen
sed
desi
gnpr
ofes
sion
alin
resp
onsi
ble
char
ge.
2.Fo
r1sp
anco
nditi
on,l
ongi
tudi
nalr
einf
orci
ngst
eelo
nly
requ
ired
inbo
ttom
ofbe
am.
3.Fo
r2an
d3+
span
cond
ition
s,lo
ngitu
dina
lrei
nfor
cing
requ
ired
inbo
thto
pan
dbo
ttom
ofbe
am.
4.S
hade
dce
llsin
tabl
ere
flect
need
fors
hear
rein
forc
ing
inbe
am.S
hear
rein
forc
ing
tobe
desi
gned
bya
licen
sed
desi
gnpr
ofes
sion
alin
resp
onsi
ble
char
ge.
5.Fo
r2an
d3+
span
cond
ition
s,ce
nter
long
.rei
nfor
cing
inbo
ttom
ofbe
amat
mid
span
and
into
pbe
amat
supp
ort.
6.P
rovi
de3/
4"m
inim
umco
ncre
teco
vert
oal
lrei
nfor
cing
stee
lfor
inte
riore
xpos
ure.
Ref
erto
the
late
stA
CI3
18fo
rmin
imum
clea
ranc
efo
roth
erex
posu
res.
7.M
ultip
lesp
anre
info
rcin
gis
valid
fors
ame
leng
thsp
ans
only
.
Min
imum
Rei
nfor
cing
Stee
lReq
uire
dFo
rG
iven
Span
Supe
rim
pose
dL
ive
Loa
d(P
SF)
Dea
dL
oad
REV. August, 2010
© Copyright 2008 Lite-Form Technologies | Lite-Deck® Technical Evaluation Manual 14
Syst
em10
+4T
abul
ated
span
sbe
twee
n9'
and
25'
Mat
eria
lPar
amet
ers
Con
cret
eSt
reng
th=
3000
psi
Rei
nfor
cem
entS
tren
gth
=60
ksi
Nor
mal
Wei
ghtC
oncr
ete
=14
5lb
s/ft3
2'to
9'10
'11
'12
'13
'14
'15
'16
'17
'18
'19
'20
'21
'22
'23
'24
'25
'Sp
anL
ong.
Lon
g.L
ong.
Lon
g.L
ong.
Lon
g.L
ong.
Lon
g.L
ong.
Lon
g.L
ong.
Lon
g.L
ong.
Lon
g.L
ong.
Lon
g.L
ong.
Con
ditio
nR
einf
.R
einf
.R
einf
.R
einf
.R
einf
.R
einf
.R
einf
.R
einf
.R
einf
.R
einf
.R
einf
.R
einf
.R
einf
.R
einf
.R
einf
.R
einf
.R
einf
.
1&
2Sp
an40
101
-#4
1-#
41
-#4
1-#
41
-#4
1-#
41
-#5
1-#
51
-#5
1-#
61
-#6
1-#
62
-#5
2-#
52
-#5
2-#
52
-#6
3+Sp
an40
101
-#4
1-#
41
-#4
1-#
41
-#4
1-#
41
-#4
1-#
51
-#5
1-#
51
-#5
1-#
61
-#6
1-#
61
-#6
2-#
52
-#5
1&
2Sp
an80
151
-#4
1-#
41
-#4
1-#
41
-#5
1-#
51
-#6
1-#
61
-#6
2-#
52
-#5
2-#
52
-#6
2-#
62
-#6
2-#
72
-#7
3+Sp
an80
151
-#4
1-#
41
-#4
1-#
41
-#4
1-#
51
-#5
1-#
51
-#6
1-#
61
-#6
2-#
52
-#5
2-#
52
-#6
2-#
62
-#6
1&
2Sp
an10
015
1-#
41
-#4
1-#
41
-#5
1-#
51
-#6
1-#
61
-#6
2-#
52
-#5
2-#
52
-#6
2-#
62
-#6
2-#
72
-#7
-3+
Span
100
151
-#4
1-#
41
-#4
1-#
41
-#5
1-#
51
-#5
1-#
61
-#6
1-#
62
-#5
2-#
52
-#5
2-#
62
-#6
2-#
62
-#7
Des
ign
Tabl
eN
otes
:1.
Des
ign
tabl
esar
efo
rcos
test
imat
ing
purp
oses
only
.Fi
nalb
eam
rein
forc
ing
tobe
desi
gned
bya
licen
sed
desi
gnpr
ofes
sion
alin
resp
onsi
ble
char
ge.
2.Fo
r1sp
anco
nditi
on,l
ongi
tudi
nalr
einf
orci
ngst
eelo
nly
requ
ired
inbo
ttom
ofbe
am.
3.Fo
r2an
d3+
span
cond
ition
s,lo
ngitu
dina
lrei
nfor
cing
requ
ired
inbo
thto
pan
dbo
ttom
ofbe
am.
4.S
hade
dce
llsin
tabl
ere
flect
need
fors
hear
rein
forc
ing
inbe
am.S
hear
rein
forc
ing
tobe
desi
gned
bya
licen
sed
desi
gnpr
ofes
sion
alin
resp
onsi
ble
char
ge.
5.Fo
r2an
d3+
span
cond
ition
s,ce
nter
long
.rei
nfor
cing
inbo
ttom
ofbe
amat
mid
span
and
into
pbe
amat
supp
ort.
6.P
rovi
de3/
4"m
inim
umco
ncre
teco
vert
oal
lrei
nfor
cing
stee
lfor
inte
riore
xpos
ure.
Ref
erto
the
late
stA
CI3
18fo
rmin
imum
clea
ranc
efo
roth
erex
posu
res.
7.M
ultip
lesp
anre
info
rcin
gis
valid
fors
ame
leng
thsp
ans
only
.
Min
imum
Rei
nfor
cing
Stee
lReq
uire
dFo
rG
iven
Span
Supe
rim
pose
dL
ive
Loa
d(P
SF)
Dea
dL
oad
REV. August, 2010
© Copyright 2008 Lite-Form Technologies | Lite-Deck® Technical Evaluation Manual 15
Syst
em12
+2Ta
bula
ted
span
sbe
twee
n10
'and
26'
Mat
eria
lPar
amet
ers
Con
cret
eSt
reng
th=
3000
psi
Rei
nfor
cem
entS
tren
gth
=60
ksi
Nor
mal
Wei
ghtC
oncr
ete
=14
5lb
s/ft
3
2'to
8'11
'12
'13
'14
'15
'16
'17
'18
'19
'20
'21
'22
'23
'24
'25
'26
'Sp
anL
ong.
Lon
g.L
ong.
Lon
g.L
ong.
Lon
g.L
ong.
Lon
g.L
ong.
Lon
g.L
ong.
Lon
g.L
ong.
Lon
g.L
ong.
Lon
g.L
ong.
Con
ditio
nR
einf
.R
einf
.R
einf
.R
einf
.R
einf
.R
einf
.R
einf
.R
einf
.R
einf
.R
einf
.R
einf
.R
einf
.R
einf
.R
einf
.R
einf
.R
einf
.R
einf
.1
&2
Span
4010
1-#
41
-#4
1-#
41
-#4
1-#
41
-#4
1-#
51
-#5
1-#
51
-#6
1-#
61
-#6
1-#
62
-#5
2-#
52
-#5
2-#
63+
Span
4010
1-#
41
-#4
1-#
41
-#4
1-#
41
-#4
1-#
41
-#4
1-#
51
-#5
1-#
51
-#5
1-#
61
-#6
1-#
62
-#5
2-#
51
&2
Span
8015
1-#
41
-#4
1-#
41
-#5
1-#
51
-#5
1-#
61
-#6
1-#
62
-#5
2-#
52
-#5
2-#
62
-#6
2-#
6-
-3+
Span
8015
1-#
41
-#4
1-#
41
-#4
1-#
51
-#5
1-#
51
-#6
1-#
61
-#6
1-#
62
-#5
2-#
52
-#5
2-#
62
-#6
2-#
61
&2
Span
100
151
-#4
1-#
41
-#5
1-#
51
-#5
1-#
61
-#6
1-#
62
-#5
2-#
52
-#5
2-#
62
-#6
2-#
6-
--
3+Sp
an10
015
1-#
41
-#4
1-#
41
-#4
1-#
51
-#5
1-#
51
-#6
1-#
61
-#6
2-#
52
-#5
2-#
52
-#6
2-#
62
-#6
2-#
6
Des
ign
Tabl
eN
otes
:1.
Des
ign
tabl
esar
efo
rcos
test
imat
ing
purp
oses
only
.Fi
nalb
eam
rein
forc
ing
tobe
desi
gned
bya
licen
sed
desi
gnpr
ofes
sion
alin
resp
onsi
ble
char
ge.
2.Fo
r1sp
anco
nditi
on,l
ongi
tudi
nalr
einf
orci
ngst
eelo
nly
requ
ired
inbo
ttom
ofbe
am.
3.Fo
r2an
d3+
span
cond
ition
s,lo
ngitu
dina
lrei
nfor
cing
requ
ired
inbo
thto
pan
dbo
ttom
ofbe
am.
4.S
hade
dce
llsin
tabl
ere
flect
need
fors
hear
rein
forc
ing
inbe
am.S
hear
rein
forc
ing
tobe
desi
gned
bya
licen
sed
desi
gnpr
ofes
sion
alin
resp
onsi
ble
char
ge.
5.Fo
r2an
d3+
span
cond
ition
s,ce
nter
long
.rei
nfor
cing
inbo
ttom
ofbe
amat
mid
span
and
into
pbe
amat
supp
ort.
6.P
rovi
de3/
4"m
inim
umco
ncre
teco
vert
oal
lrei
nfor
cing
stee
lfor
inte
riore
xpos
ure.
Ref
erto
the
late
stA
CI3
18fo
rmin
imum
clea
ranc
efo
rot
her
expo
sure
s.7.
Mul
tiple
span
rein
forc
ing
isva
lidfo
rsam
ele
ngth
span
son
ly.
Min
imum
Rei
nfor
cing
Stee
lReq
uire
dFo
rG
iven
Span
Supe
rim
pose
dL
ive
Loa
d(P
SF)
Dea
dL
oad
REV. August, 2010
© Copyright 2008 Lite-Form Technologies | Lite-Deck® Technical Evaluation Manual 16
Syst
em12
+4Ta
bula
ted
span
sbe
twee
n11
'and
30'
Mat
eria
lPar
amet
ers
Con
cret
eSt
reng
th=
3000
psi
Rei
nfor
cem
entS
tren
gth
=60
ksi
Nor
mal
Wei
ghtC
oncr
ete
=14
5lb
s/ft
3
2'to
11'
12'
13'
14'
15'
16'
17'
18'
19'
20'
21'
22'
23'
24'
25'
26'
27'
28'
29'
30'
Span
Lon
g.L
ong.
Lon
g.L
ong.
Lon
g.L
ong.
Lon
g.L
ong.
Lon
g.L
ong.
Lon
g.L
ong.
Lon
g.L
ong.
Lon
g.L
ong.
Lon
g.L
ong.
Lon
g.L
ong.
Con
ditio
nR
einf
.R
einf
.R
einf
.R
einf
.R
einf
.R
einf
.R
einf
.R
einf
.R
einf
.R
einf
.R
einf
.R
einf
.R
einf
.R
einf
.R
einf
.R
einf
.R
einf
.R
einf
.R
einf
.R
einf
.1
&2
Span
4010
1-#
41
-#4
1-#
41
-#4
1-#
41
-#5
1-#
51
-#5
1-#
61
-#6
1-#
61
-#6
2-#
52
-#5
2-#
52
-#6
2-#
62
-#6
2-#
62
-#6
3+Sp
an40
101
-#4
1-#
41
-#4
1-#
41
-#4
1-#
41
-#4
1-#
51
-#5
1-#
51
-#5
1-#
61
-#6
1-#
62
-#5
2-#
52
-#5
2-#
52
-#6
2-#
61
&2
Span
8015
1-#
41
-#4
1-#
51
-#5
1-#
51
-#5
1-#
61
-#6
2-#
52
-#5
2-#
52
-#5
2-#
62
-#6
2-#
62
-#7
2-#
72
-#7
2-#
7-
3+Sp
an80
151
-#4
1-#
41
-#4
1-#
41
-#5
1-#
51
-#5
1-#
61
-#6
1-#
61
-#6
2-#
52
-#5
2-#
52
-#6
2-#
62
-#6
2-#
62
-#7
2-#
71
&2
Span
100
151
-#4
1-#
41
-#5
1-#
51
-#5
1-#
61
-#6
2-#
52
-#5
2-#
52
-#6
2-#
62
-#6
2-#
62
-#7
2-#
72
-#7
--
-3+
Span
100
151
-#4
1-#
41
-#4
1-#
51
-#5
1-#
51
-#6
1-#
61
-#6
1-#
62
-#5
2-#
52
-#5
2-#
62
-#6
2-#
62
-#6
2-#
72
-#7
2-#
7
Des
ign
Tabl
eN
otes
:1.
Des
ign
tabl
esar
efo
rco
stes
timat
ing
purp
oses
only
.Fi
nalb
eam
rein
forc
ing
tobe
desi
gned
bya
licen
sed
desi
gnpr
ofes
sion
alin
resp
onsi
ble
char
ge.
2.Fo
r1
span
cond
ition
,lon
gitu
dina
lrei
nfor
cing
stee
lonl
yre
quire
din
botto
mof
beam
.3.
For
2an
d3+
span
cond
ition
s,lo
ngitu
dina
lrei
nfor
cing
requ
ired
inbo
thto
pan
dbo
ttom
ofbe
am.
4.S
hade
dce
llsin
tabl
ere
flect
need
for
shea
rre
info
rcin
gin
beam
.She
arre
info
rcin
gto
bede
sign
edby
alic
ense
dde
sign
prof
essi
onal
inre
spon
sibl
ech
arge
.5.
For
2an
d3+
span
cond
ition
s,ce
nter
long
.rei
nfor
cing
inbo
ttom
ofbe
amat
mid
span
and
into
pbe
amat
supp
ort.
6.P
rovi
de3/
4"m
inim
umco
ncre
teco
ver
toal
lrei
nfor
cing
stee
lfor
inte
rior
expo
sure
.R
efer
toth
ela
test
AC
I318
for
min
imum
clea
ranc
efo
rot
her
expo
sure
s.
7.M
ultip
lesp
anre
info
rcin
gis
valid
for
sam
ele
ngth
span
son
ly.
Min
imum
Rei
nfor
cing
Stee
lReq
uire
dFo
rG
iven
Span
Supe
rim
pose
dL
ive
Loa
d(P
SF)
Dea
dL
oad
REV. August, 2010
© Copyright 2008 Lite-Form Technologies | Lite-Deck® Technical Evaluation Manual 17
1.5 Reinforcing of Concrete
Placement and specifications of all reinforcing steel shall be designed in compliance with the latest editions of ACI 318and CRSI (Concrete Reinforcing Steel Institute) standards. Any variance from ACI or CRSI standards must be certifiedin advance by a Structural Engineer who is licensed for the jobsite location and specifications.
1.6 Concrete Placement
Placement of concrete shall be in compliance with latest edition of ACI-614 Code (Handling) and ACI-301 and 306Codes for cold and hot weather concrete placement. Any variance from ACI standards must be certified in advance by aStructural Engineer who is licensed for the jobsite location and specifications.
1.7 Temporary Shoring (Complete Test Results are available on the attached Lite-Deck CD)
All Lite-Deck formwork shoring shall be designed in compliance with the latest edition of ACI347R “Guide to Formworkfor Concrete” (design chapter) using Load Table 1 as minimum requirements. Loads in Table 1 have a 2 to 1 safety factorincluded. Distance between support beams under Lite-Deck steel stiffener shall be determined by capacity of verticalshores and spacing between vertical shores. The maximum spacing between vertical shores shall be based on ASTME72-05 Transverse Load Test, submitted as part of this Technical Evaluation.See Transverse Load Test: RADCO Test Report No. RAD-3860
1.8 Concentrated Loads (Complete Test Results are available on the attached Lite-Deck CD)
Maximum loads applied by foot traffic (from construction crews) to the Lite-Deck formwork shall be based on ASTME661-03 Concentrated load Test, submitted as part of this Technical Evaluation. As required by ASTM standard,concentrated loads were placed on the “most vulnerable’ portion of the Lite-Deck form.See Concentrated Load TestRADCO Test Report No. RAD-3861
1.9 Maximum Ceiling Load / Steel Stud Load Capacity(Complete Test Results are available on the attached Lite-Deck CD)
The maximum ceiling load attached to steel C-channels inserted into the base sections shall be based on Steel ChannelWithdrawal Test, submitted as part of this Technical Evaluation.See Ceiling Load Test (Channel Withdrawal)RADCO Test Report No. RAD-3862
1.10 Fire Resistance Rating (Complete Test Results are available on the attached Lite-Deck CD)
Lite-Deck formwork has a 1.5 hour fire resistance rating based on the test results which were made in compliance withASTM E 119-00. See Fire Resistance Rating Test (ASTM E 119-00) SwRI – Test Project No. 01.11579.01.0011.11 Fire Performance Evaluation with Drywall(Complete Test Results are available on the attached Lite-Deck CD)
Foam plastic insulation used in the Lite-Deck formwork system has an average thickness which is in excess of 4 inches.Foam plastic insulation covered with 1/2 inch drywall is in compliance with UBC Standard 26-3, based on Fire Perform-ance Test, submitted as part of this Technical Evaluation.See Fire Performance Test (UBC 26-3)SwRI – Test Project No. 01.10934.01.418a
REV. August, 2010
© Copyright 2008 Lite-Form Technologies | Lite-Deck® Technical Evaluation Manual 18
1.12 Fire Performance Evaluation without Drywall(Complete Test Results are available on the attached Lite-Deck CD)
Foam Plastic insulation used in the Lite-Deck formwork system has an average thickness which is in excess of 4 inches.Foam plastic insulation without 1/2 inch drywall covering is in compliance with UBC Standard 26-3, based on FirePerformance Test, submitted as part of this Technical Evaluation. See Fire Performance Test (UBC 26-3)SwRI – Test Project No. 01.10934.01.418b
1.13 STC -Sound Transmission Class (Full Test located on enclosed CD)
A concrete floor’s ability to reduce the transmission of outside, ambient sound is rated by a Sound Transmission Classnumber. The higher the number, the better the barrier to ambient sound pollution.
Lite-Deck Floor with 3-inch Concrete Cover and 14-inch load-bearing Concrete JoistSTC by Test – 57STC by Calculation – 54 – With ½” Drywall attached direct to Lite-Deck stiffenersSTC by Calculation – 67 – With ½” Drywall attached with Resilient Clips
Lite-Deck Floor with 3-inch Concrete Cover, 14-inch load-bearing Concrete Joist, 1/2 “ Carpet w/PadSTC by Test – 48STC by Calculation – 52 – With ½” Drywall attached direct to Lite-Deck stiffenersSTC by Calculation – 56 – With ½” Drywall attached with Resilient Clips
1.14 IIC – R-Value (Full Test located on enclosed CD)
The insulating value of Lite-Deck forms is achieved by its’ use of EPS (Expanded Polystyrene) Insulation.By test (C177 or C518), the insulating value of the EPS used in Lite-Deck Base Sections is R-4.40 (@ 25-degrees f) perinch of thickness*.Based on the above-referenced tests, the calculated, nominal insulating value of Lite-Deck Base Sections is R-26.4.
1.15 IIC – Impact Insulation Class (Full Test located on enclosed CD)
A concrete floor’s ability to reduce the transmission of sound is rated by an Impact Insulation Class number. This ratingquantifies the transmission of “impact sounds” such as foot traffic. The higher the number, the better the barrier toimpact sounds.
Lite-Deck Floor with 3-inch Concrete Cover and 14-inch load-bearing Concrete JoistIIC by Test – 44IIC by Calculation – 48 – With ½” Drywall attached direct to Lite-Deck stiffenersIIC by Calculation – 61 – With ½” Drywall attached with Resilient Clips
Lite-Deck Floor with 3-inch Concrete Cover, 14-inch load-bearing Concrete Joist, 1/2 “ Carpet w/PadIIC by Test – 82IIC by Calculation – 86 – With ½” Drywall attached direct to Lite-Deck stiffenersIIC by Calculation – 90 – With ½” Drywall attached with Resilient Clips
1.16 Patents
© 2008 – Lite-Form Technologies – Lite-Deck is a registered Trademark of Lite-Form Technologies, South Sioux CityNebraska U.S. – Patent Numbers 6272749 and 681750B1. Other Patents applied for or Pending.
REV. August, 2010
© Copyright 2008 Lite-Form Technologies | Lite-Deck® Technical Evaluation Manual 19
1.17 LiteDeck Imprints
These imprints are printed on all LiteDeck products that leave the South Sioux City, NE. manufacturing facility.
FLOORS • ROOFS • DECKS • WALLS
MADE IN THEUSAPatent No. 6272749, 68177150 B1 - Other Patents Applied for or Pending
Manufactured by, Lite-Form Technologies – So. Sioux City, NE
Phone: 800-551-3313www.litedeck.com
100%RECYCLED EPS
MOLDED TOP HATSWHEN AVAILABLE
Use in Accordance with: ACI 347R, 318, 301, 306 and CRSI Standards
Minimum Steel C Channel Specs: 18 guage - 50ksi3 5/8” x 1 5/8”
CAUTION!
For Technical Questions about:
SHORING - ENGINEERING or REINFORCINGCALL 800.551.3313
USE IN ACCORDANCE WITH: ACI 347R, 318, 301, 306 and CRSI Standards
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LiteDeckSticker_WRS2.pdf 1 4/19/11 12:32 PM
BASE SECTION IMPRINT SRS (Steel Rib System)
BASE SECTION IMPRINT WRS (Wood Rib System)
Detail Drawings
LD-2.1 - 24” Wide Base Section Dimension
LD-2.1.1 - 24” Nominal Base Section Dimension
LD-2.1W - 32” Nominal Base Section Dimension
LD-2.2W - 48” Wide Base Section Dimension
LD-2.3 - 18” Wide Top Hat Section Dimension
LD-2.4 - Typical Combination of Base Section and Top Hats
LD-2.5 - Trans. Section @ LiteDeck
LD-2.6 - Trans. Section @ LiteDeck Floor to ICF Wall
LD-2.7 - Long. Section @ LiteDeck Floor to ICF Wall (Resting)
LD-2.8 - Long. Section @ LiteDeck Floor to ICF Wall (Abutment)
LD-2.9 - Trans. Section @ Interior ICF Wall
LD-2.10 - Longitudinal Section @ Interior ICF Wall
LD-2.11 - Trans Section @ LiteDeck Floor to CMU Wall (Abutment)
LD-2.12 - Long. Section @ LiteDeck Floor to CMU Wall (Resting)
LD-2.13 - Trans. Section @ Interior CMU to LiteDeck Floor
LD-2.14 - Long. Section @ Interior CMU Wall to LiteDeck Floor
LD-2.15 - One Sided Trans. Sect. @ Flush Concrete Beam
LD-2.16 - Longitudinal Section @ Flush Concrete Beam
LD-2.17 - Transverse Section @ Dropped Concrete Beam
LD-2.18 - Long. Section @ Flush Concrete Beam
LD-2.19 - Trans. Section @ Porch Perimeter Beam
REV. August, 2010
24" WRS BASE SECTION DIMENSIONS
DETAIL NO: LD-2.1W
DRAWN BY: REVISION DATE:
DATE: SCALE:03/15/13
LFT
DUE TO VARIANCES IN LOCAL CODES, CONSTRUCTION PRACTICES, AND REQUIREMENTS ALL DETAILS SHALL BE CONSTRUCTED IN ACCORDANCEWITH SUCH LOCAL CODES, CONSTRUCTION PRACTICES, AND REQUIREMENTS REGARDLESS OF DETAIL CONSTRUCTION SHOWN IN DRAWING. LITE-FORM TECHNOLOGIES RESERVES THE RIGHT TO CHANGE INFORMATION SHOWN WITHOUT NOTICE.
LiteDeck ®
Copyright 2013 Not to Scale
Tel: 800-551-3313Fax: 402-241-4435www.liteform.com
Lite-Form Technologies1950 West 29th StreetSouth Sioux City, NE. 68776
24" WRS BASE SECTION
BEAM
C STUDL C STUDL
2 X 6 DIMENSIONAL LUMBER WOOD STUD INSERT @ 12" O.C.(CONTINUOUS)
EPS Foam Density = 1.25 pcf
Weight = 4.10 pounds per lineal foot or 2.05 psf
8"
8" 6" 8"
1" 1"
6 516"
2"
24"
12"
6"6"
REV. August, 2010
32" WRS BASE SECTION DIMENSIONS
DETAIL NO: LD-2.2W
DRAWN BY: REVISION DATE:
DATE: SCALE:03/15/13
LFT
DUE TO VARIANCES IN LOCAL CODES, CONSTRUCTION PRACTICES, AND REQUIREMENTS ALL DETAILS SHALL BE CONSTRUCTED IN ACCORDANCEWITH SUCH LOCAL CODES, CONSTRUCTION PRACTICES, AND REQUIREMENTS REGARDLESS OF DETAIL CONSTRUCTION SHOWN IN DRAWING. LITE-FORM TECHNOLOGIES RESERVES THE RIGHT TO CHANGE INFORMATION SHOWN WITHOUT NOTICE.
LiteDeck ®
Copyright 2013 Not to Scale
Tel: 800-551-3313Fax: 402-241-4435www.liteform.com
Lite-Form Technologies1950 West 29th StreetSouth Sioux City, NE. 68776
32" WRS BASE SECTION
BEAM
C STUDL C STUDL
2 X 6 DIMENSIONAL LUMBER WOOD STUD INSERT @ 16" O.C.(CONTINUOUS)
EPS Foam Density = 1.25 pcf
16"
6 516"
2"
1" 1"
32"
12" 12"
8"
6"
8"8"
REV. August, 2010
26" WIDE TOP HAT SECTION DIMENSIONS
DETAIL NO: LD-2.3.1
DRAWN BY: REVISION DATE:
DATE: SCALE:03/27/13
LFT
DUE TO VARIANCES IN LOCAL CODES, CONSTRUCTION PRACTICES, AND REQUIREMENTS ALL DETAILS SHALL BE CONSTRUCTED IN ACCORDANCEWITH SUCH LOCAL CODES, CONSTRUCTION PRACTICES, AND REQUIREMENTS REGARDLESS OF DETAIL CONSTRUCTION SHOWN IN DRAWING. LITE-FORM TECHNOLOGIES RESERVES THE RIGHT TO CHANGE INFORMATION SHOWN WITHOUT NOTICE.
LiteDeck®
TM
Copyright 2013 Not to Scale
Tel: 800-551-3313Fax: 402-241-4435www.liteform.com
Lite-Form Technologies1950 West 29th StreetSouth Sioux City, NE. 68776
26" WIDE TOP HAT SECTIONS
6" TOP HAT(Weight = 0.96 lbs / lineal foot)
4" TOP HAT(Weight = 0.64 lbs / lineal foot)
2" TOP HAT(Weight = 0.32 lbs / lineal foot)
6"4"
2"
26"
EPS Foam Density = 0.75 pcf
Notes
REV. August, 2010
REV. August, 2010
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Marketing Materials LiteDeck Brochure
LiteDeck Tilt Brochure
LiteDeck Installation Guide
LiteDeck Knock Down
Installation Manual
Sloped Concrete Roofs
Shoring Posts
Rebar Chairs
Post-Tensioning Cables
Manual CD (Tests and Drawings)
LiteDeck DVD
LiteDeck Tilt DVD
PRODUCTBULLETIN
FEBRUARY 22, 2008 PB.006_Shoring Post/Rebar Chair
P.O.Box 774, South Sioux City, NE 68776 - Ph: 402-241-4402 - FAX: 402-241-4435 - Toll Free: 800-551-3313 | E-mail: [email protected] - Website: www.liteform.com
LITE-DECK SHORING POSTLite-Deck Shoring Post Benefits • Tubeisopenatbothendstopreventaccumulationofwater anddebristherebyretardingrustdevelopment. • Topplatesandbaseplatesareprovidedwithnailholes. • Adjustingnutwith8-inchhandleforpreciseheightadjustment.Applications • Forshoringandreshoringapplications.
Shoring Post PricingPS 6’-0” to 11’-6” PART # 4435 .......................... POR External Tube - 2.24” x.098” x 5’ - 11” Internal Tube - 1.90” x .146” x 6’ - 5” Weight - 37 lbs.
PS 8’-0” to 13’ PART # 4436 ............................... POR External Tube - 2.24” x.098” x 6’ - 7” Internal Tube - 1.90” x .146” x 7’ - 9” Weight - 41 lbs.
* Prices do not include shipping. F.O.B South Sioux City, NE. 68776
RENTAL - $7 per week
Allowable Working Loads in Lbs. Safety Factor 3:1 6’ - 8,800 7’ - 7,900 8’ - 6,900 9’ - 5,850 10’ - 4,650 11’ - 3,400 12’ - 2,500 13’ - 2,000
LITE-DECK REBAR CHAIRS
Rebar Chair Pricing
PART # 4050.................................................POR Large Fits: #6, #7, #8 Bar fitting
*Bags of 100 qty. available.
PRODUCTBULLETIN
FEBRUARY 22, 2008 PB.006_Post-Tension
P.O.Box 774, South Sioux City, NE 68776 - Ph: 402-241-4402 - FAX: 402-241-4435 - Toll Free: 800-551-3313 | E-mail: [email protected] - Website: www.liteform.com
Post-Tension CablePost-Tension Cable • ForPost-Tensioningconcreteslabs. • Reducedconventionalreinforcing • LongerClearspancapabilities
Post Tension Cable Part #4265-1 per linear ft. ............................ PORCABLE ONLY* Prices do not include shipping. F.O.B South Sioux City, NE. 68776
Pocket FormerPocket Former Part # 4265-4 ................................................. POR* Prices do not include shipping. F.O.B South Sioux City, NE. 68776
AnchorAnchor Part #4265-2 ................................................... POR* Prices do not include shipping. F.O.B South Sioux City, NE. 68776
Wedges
Wedges Part #4265-3 .................................................. POR 2pcs complete 1 wedge.* Prices do not include shipping. F.O.B South Sioux City, NE. 68776
PRODUCTBULLETIN
P.O.Box 774, South Sioux City, NE 68776 - Ph: 402-241-4402 - FAX: 402-241-4435Toll Free: 800-551-3313 | E-mail: [email protected] - Website: www.liteform.com
November06,2012 PB.009_MoldedCornerBlock
Molded Corner Block
FlexxBlock Molded Corner Block is available for fast efficient forming of 90º corners • 2”EPSInsulationperside(4”totalEPSthickness)• 16”Tallx2’x4’• AvailableWallThickness-8”• ReduceJobsitewaste• FullCornerTieforattachmentaroundthecorner
FlexxBlock Molded Corner BlockRIGHT CORNER 8” Wall Thickness Part # FB08RLLEFT CORNER 8” Wall Thickness Part # FB08LC
Volume Discounts are available. Call for more details.Full Pallet - 24pcs (12 Rights and 12 Lefts)* Prices do not include tax or shipping. F.O.B South Sioux City, NE. 68776
LEFT Corner RIGHT Corner
Internal Corner TieThe New FlexxBlock Corner Tie is embedded within the corner of the block for more fastening at the corner for interior and exterior finishes.
Full Pallet QTY - 24pcs • 12 Rights • 12 Lefts
Pallet Specs :49” x 60” x 101”
24 ICF BUILDER
Sloped Concrete RoofsTopping an ICF structure with a concrete roof has a number of advantages. Perhaps the most obvious is disaster resistance. A concrete slab will protect belongs and occupants from hurricanes and tornadoes, and is completely fi reproof. (For more information, see Total Shell, Total Protection on page 28 of this issue.)
Th ey can support an enormous amount of weight, so concrete roofs can be converted into decks, rooftop gardens, or even additional parking space.
And coupled with a foam forming system, such as Lite-Deck, concrete can create a high-performance roofi ng system that “completes the energy envelope.” Just like ICF walls, the combination of foam and concrete in the roof protects interior spaces from outside temperature fl uctuations. Near airports, these “ICF roofs” have proven to dramatically reduce sound infi ltration.
But just because a home has a concrete roof doesn’t mean that it has to be fl at. Th anks to innovative forming systems and improved design software, sloped concrete roofs are easier now than ever before. A few builders, like Mike and Dustin King of Ateg Engineering, are taking on incredibly complex roof designs, with multiple hips, valleys, and ridgelines, and constructing them out of concrete.
Th e Kings have designed and built a number of complex, sloping concrete roofs in North Texas. One was installed on the 15,000 sq. ft. Hoff man residence just east of Dallas in Forney, Texas. It has 15 rooms on three levels, and the roof is unbelievably multi-faceted. King even did the bay window roof.
“Most of it was done the same way we do a typical Lite-Deck installation,” says Dustin King. “When it’s on a slope like that, we take a piece of wood and cut it to match the slope, so the shoring can brace off a surface parallel to the fl oor. We can run a screw through
the top of the bracing, through the wood and into the light-gauge steel stud to make sure that nothing moves.”
He uses adjustable Pro-Shore bracing, with beams running 6 feet on center and posts about every 4 feet.
King uses a regular low-slump concrete for most roofs. “We used a 3-inch-slump mix on that project—it has a 7:12 slope—and it stayed in place no problem. I think the steepest we’ve personally done is a 9:12 pitch, and it worked out just fi ne.
Pat Boeshart, inventor of the Lite-Deck system, points out that placing concrete on a sloped surface is not new. “Th ey’ve been
Foam decking creates a series of beam pockets, which are fi lled with reinforced concrete. Pockets running parallel to the ridgeline are usually cut into the foam on site. Some designers recommend a monolithic slab poured over the top of the beams. Others design the fi nal roof fi nish to be applied over the foam.
August/September 2008 25
Sloped Concrete Roofs
doing it since the 1960s on concrete-lined canals and stormwater drainage channels,” he says.
Perhaps the most diffi cult challenge for sloped roofs is the engineering and design work.
“A sloped concrete roof is much more complicated,” King confi rms. “Hips and valleys have to be engineered, and a lot of it is using experience and professional judgment.”
On the Hoff man home, King spec’ed a steel I-beam at the ridge line, with the Lite-Deck running perpendicular to the ridge. “We’ve done a lot of steel ridge beams, but we’ve also done a number of
concrete beams too,” he says.Channels for concrete beams were cut into the foam at all the
hips and valleys. A channel was also cut in the foam halfway between the eaves and the primary ridge line, to tie the other concrete beams together and help support the ridgeline.
One unusual feature of this home is that the roof does not have a monolithic slab poured over the Lite-Deck. Concrete was placed in the beam pockets level with the surface of the foam, but no additional concrete was poured above that.”
“Th ere’s no reason why you couldn’t do the slab,” says King. “In this case, it was just the way it was done.” Th e roof was surfaced with Fossilcrete, which was stamped and colored to resemble shingles. Th e same product was used on the exterior walls, which were carved to resemble ashlar-cut limestone.
Cloyd “Joe” Warnes, a concrete expert and consultingengineer, has more than 40 years of experience with pitched concrete roofs. He built one of the fi rst “all concrete” homes in California in 1966 as part of a study by the U.S. Dept. of Housing and Urban Development (HUD). Warnes points out that if the concrete roof is properly tied into the ICF walls, the entire structure is signifi cantly stronger.
Th at’s precisely what King did with the Hoff man home. “We brought the bars out of the ICF wall several feet and tied them into the roof beams. All of the beam connections have ample connecting steel in them.”
All three major brands of foam decking, Lite-Deck, Insuldeck, and Amdeck, have engineering details available on how to make these connections.
Warnes notes that pitched roofs can be built using a number of other technologies—such as steel joists and plywood—but only foam decking includes the insulation, sound attenuation, and other
Sloping concrete roofs are possible. With modern foam decking systems, even complex roof designs can be created.
All
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26 ICF BUILDER
features most owners will want.At a presentation he gave at the fall 2006 ACI meeting, he
explained the general design process. First, design the structural supports at the ridgelines and in the valleys. Second, determine how the building eaves will be formed and shored. Next, calculate the planking (or other forming) requirements, shoring and rebar needed.
The actual construction process follows those steps quite closely. After the ridgeline beams are installed, contractors form the eaves, shore them, and then place the forming for the rest of the roof. After that is also shored, the rebar is placed and tied into the walls. Any additional beam pockets are cut into the foam at this time. When everything is in place, the concrete is poured, first in the beam pockets, and then as a slab over the entire structure.
The Hoffman home is built without eaves, but King says there are a number of different ways it can be done. “We’ve done it a
couple of different ways. You can end the concrete at the wall, but run the foam out past the wall as eaves. We’ve also formed the eaves with plywood, shored it real well, and poured it with the rest of the roof. Western Forms has an eave form that we’ve used and had good success.” Another possible method is to frame out the eaves as with traditional construction.
Whatever method of pitched roof construction you choose, King says one key is to work closely with the installer and manufac-turer. “The beams on that job came out of out plant at Amarillo, and were delivered to the jobsite pre-cut,” says King. “We worked closely with Ross Raines [the builder] to ensure it went well.”
With foam decking, interior finishes are installed just like they would be in ICF walls. Chases and light boxes are cut in with a hot knife. Insuldeck has pre-cut utility chases molded into the foam. Sheet rock is attached to the integral furring strips. Sometimes, a dropped ceiling—similar to commercial construction—is installed.
All Photos Courtesy Lite-Form Technologies
Foam decking can be capped with a solid concrete slab for maximum protection, or finished with just the beam pockets (bottom right.) The decision will affect the amount of bracing required when the foam panels are set in place (bottom left.)
August/September 2008 27
King and Warnes are both enthusiastic about the future of pitched concrete roofing. Warnes claims that with the worldwide availability of foam decking, “the last barrier to practical construction of all concrete houses has now been breached.”
King was introduced to the technology through Pat Boeshart and others at Lite-Deck, and calls it “the greatest thing.” “It really is a great product,” he says. “We’re still developing what you can do with foam.”
Fast FactsLocation: Forney, TexasSize: 13,000 sq. ft.Completion Date: August 2007Owner: Alan HoffmanBuilder: Ross RainesRoof Installer: Ateg EngineeringProject Engineer: Ateg EngineeringExterior Walls: Buildblock ICFRoof: Lite-DeckExterior Finish: Fossilcrete
Detail Drawing 1.1 Standard LiteDeck Tilt Panel
Project Binder 3. Ready Mix Plant
9.EthanolPlantOfficeSpace
13. Commercial Building Addition
15. Roswell, NM. Theatre
17. Bemidji, MN. Flatcrete Building
19. Kuwait House Project
REV. August, 2010
Versatile • High-Efficiency • Cost-Effective • Lightweight
1950 W. 29th St. • South Sioux City, NE. 68776Toll Free: 800-551-3313 • FAX: 402-241-4402 • www.litedeck.com
®
Project Binder
REV. August, 2010
1-800-551-3313 | www.litedeck.com
What is Lite-Deck Tilt 2
• FAST LIGHTWEIGHT ASSEMBLY
• ENERGY EFFICIENT R-30+
• REUSABLE
• INSULATED OR NON-INSULATED
• LOAD BEARING PANELS
• STANDARD TILT TECHNIQUES
• CUSTOM JOIST WALL DESIGNS
BENEFITS
Lite-Deck Tilt® is a site-cast concrete tilt-up wall system developed byLite-Form Technologies®.
Concrete is poured into the light-weight polystyrene forms and stay in place to providehigh-efficiency insulation of R-30 or more, or removed to be a reusable concrete form!
Each Lite-Deck Tilt® panel includes special features which simplify the finishing process tosave time, labor and materials. Lite-Deck Tilts® Patented Top Hat® design makes shipping andhandling easier and more cost-effective than other tilt-up forming systems. Lite-Deck Tilt® canbe used as sandwich wall panels, or concrete can be poured on one side andinterior features can be attached directly to the Lite-Deck Tilt® system’s integrated steel studswith self tapping screws.
Lite-Deck Tilt® expanded polystyrene (EPS) form is manufactured in the U.S. and is availablethrough a number of dealers and distributors.
TYPICAL APPLICATIONS INCLUDE:• SINGLE AND MULTI-STORY OFFICE AND RETAIL SPACE• WAREHOUSE SPACE• MEDICAL FACILITIES• SCHOOLS• CHURCHES• ADDITIONS
To learn more about Lite-Deck Tilt®:Ph: 1-800-551-3313 • Email: [email protected] • www.litedeck.com.
6" EPS Top Hat
4" EPS Top Hat
2" EPSTop Hat
6 inch EPS Base Section
Perimeter Form Board
REV. August, 2010
1-800-551-3313 | www.litedeck.com
Alliance Ready Mix BuildingJan. 2007 3
Concrete Ready Mix Plant
Sgt. Bluff, IA.
• 15% Recycled EPS Foam for
High Efficient Green Building
Technology
• Total Sq. Ft. of floor -
• Wall height: 60 ft.
• Lite-Deck TILT Site-cast, tilt-up
Insulated Concrete walls and roof
20 WALL PANELS
12 ROOF PANELS
• Forms were custom-fabricated
and supplied by local Lite-Deck
Service Center
4,000 psi concrete w/ limestone
Total Cubic Yards of Concrete:
Walls: 190 Roof: 35
SPECIFICATIONS
Lightweight Lite-Deck Tiltform panels are loadedand shipped to the jobsite.
15% Recycled EPS (Expanded polystyrene)blocks are hot wire cut (1.25 lb. density). 20-guage steel C channels are added to the Lite-Deck TILT Base Sections by Service Center,prior to jobsite delivery.
Service Center adds 6-inch Top Hats (.70lb. density) to Base Section forms prior tojobsite delivery. Load-bearng concretejoists are 24” apart. With 3” concreteexterior face, total joist depth is 15” X 8”.
Some wall panels were custom-cut (hotwire) atService Center, to accomodate building design,openings, etc.
Reinforcing steel being placed. Because ofbuilding design, some panels requireddimensional lumber as perimeter side wallinstead of Lite-Deck’s pre-fabricated EPSside wall.
Anchoring rebar is placed to reinforce top-picking of wall panels. Typical wall panelswere 12’ X 60’.
6 X 6 wire mesh is used to reinforce exteri-or concrete face. Lite-Deck’s pre-fabricat-ed EPS side walls shown here, were pro-vided for most wall panels. After casting,they are removed and discarded.
REV. August, 2010
1-800-551-3313 | www.litedeck.com
Alliance Ready Mix BuildingJan. 2007 4
EPS bulkheads for openings were installed on-site prior to pour. Note the structural beams attop and bottom of opening.
4,000 psi concrete has been placed andgiven a broom finish. To save space andtime, this panel has been stack cast on topof a wall panel. Panels have 3” exteriorface and EPS insulated interior face.
These post-tension roof panels have been stackcast on top of an earlier panel with a poly filmbetween, to assure a clean removal.
Roof panels are post-tensioned, to reducerebar and concrete. Post-tensioning wasdone approx. 4 days following concreteplacement. Load-bearing joists were 24”apart. With 2.5” concrete cover, reinforcedjoists were a total of 14.5” thick.
Lite-Deck forms were pre-fabricated byService Center and featured EPS for curvedperimeter of silo opening, reinforced withwood kickers.
Forming has been removed from the roofpanels. EPS for curved perimeter willremain in place.
Notes:
REV. August, 2010
1-800-551-3313 | www.litedeck.com
Alliance Ready Mix BuildingJan. 2007 5
SPECIFICATIONS
Wall panels were face-picked and top-picked for placement. Typical 12X60 wallpanels weighed approx. 70,000 lbs. Steelkicker braces were attached prior toplacement.
Total erection/placement time for walland roof panels was 2 days. Thelargest wall panel was 14X60 panelsweighed approx. 85,000 lbs.
Panels being face picked for placement.Total of 20 wall panels were placed. A 4-man crew prepped and poured a mini-mum of 1 panel per day.
After a nominal curing time of 7 days,wall panels reached 70% of designstrength and were placed.
Burke braces every 24” were anchored toconcrete pad as soon as wall panel wasplaced.
Rapid Lock plates are being added, tosupport site-cast insulated roof panels.
TESTIMONIALS
Notes:
REV. August, 2010
1-800-551-3313 | www.litedeck.com
Alliance Ready Mix BuildingJan. 2007 6
SPECIFICATIONS
TESTIMONIALS
Steel inbed (every 2’) in wall panels werewelded to a continuous steel inbed on concrete footing. Resulting gap was filled withnon-shrink grout mixture.
Wall panels have all been placed.Openings (top center) were created withEPS sheetgoods and will be removed dur-ing final stage of construction.
Lite-Deck roof panel is being placed. A total of12 roof panels were used. Wall and roof panelshave EPS interior facing with exposed steelattachment rails every 24”.Interior finish will be steel siding.
Roof panel around powder silo is beingplaced. Wall and roof panels have a calcu-lated insulating value of R-30.
Looking up the side of the powder silo. Spaceof approx. 2” between silo wall and concreteroof.
Stage one of this project is completed.Adjoining shop (24’ 7” tall) and office(15’ 4” tall) will be added, using Lite-Deck TILT walls and roof panels.
Notes:
REV. August, 2010
1-800-551-3313 | www.litedeck.com
Alliance Ready Mix BuildingJan. 2007 7
Notes:
Stage II of this project begins with setting theshop panels adjacent to the batch plant.
The EPS form made the mitered edge for acontinuous insulated corner. The panels onthe opposite end are cast and ready to pickin place
Site Cast panels allow picking from one singlecrane location.
Bracing of the wall panels will be removedafter the steel roof is set and welded.
View from the top shows the large sq. ft. ofshop space.
Stage two of this project is completed.Adjoining office (15’ 4” tall) will be added,using Lite-Deck TILT walls.
REV. August, 2010
1-800-551-3313 | www.litedeck.com
8
SPECIFICATIONS
Alliance Ready Mix BuildingJan. 2007
Steel roof trusses are placed. Braces are readyto be removed.
Steel roofing was used to cover the shoparea of this building.
Office panels are the final panels to be tiltedinto place.
Lite-Decks steel studs act as attachment forthe silo containments steel interior finish.
Pick points will be filled with matching epoxyfiller.
The ready mix plant is ready for interiorand exterior touch up finishes.
REV. August, 2010
1-800-551-3313 | www.litedeck.com
ETHANOL PLANT OFFICE SPACEMAY 2006 9
• 4,800 sq. ft. Office Space
• Multiple Story
• Post-Tension Floors/Roofs
• Site-Cast Wall Efficiencies
SPECIFICATIONS
“With a limited castingarea these lightweight EPSpanels were easy to meneu-ver and made production gomuch quicker.”
Tom KoobConstruction Manager
Lightweight EPS panels are carried onto thecasting site.
Engineered 12” roof panel sections easilyslide together onto the steel studs.
Post-Tension Cables are run through the EPSperimeter form board. No drilling necessary
Panel forms are quickly cast and consoli-dated, using standard concrete mixes.
Concrete surface is finished smooth or tex-tured, as specified by designer.
The re-usable perimeter form at the end ofpanels is accomplished with dimensionallumber.
REV. August, 2010
1-800-551-3313 | www.litedeck.com
ETHANOL PLANT OFFICE SPACEMAY 2006 10
• 4,800 sq. ft. Office Space
• Multiple Story
• Post-Tension Floors/Roofs
• Site-Cast Wall Efficiencies
SPECIFICATIONS
Rapid lok connectors withLite-Deck Tilt speed theprocess of setting thefloor and roof panels.
Customized wall panels include openings forwindows, doors, etc. Typical panels for thisproject were 16 ft. wide, 28 ft. 6” tall. Weightper square foot was 57 lbs.
Pre-cast panels are used for the roof, also.Concrete will be sealed with a permanent,elastomeric finish.
To minimize handling, the casting forms werepre-arranged on the building’s concrete floor.
Pre-cast concrete roof panels have beenplaced and are ready for permanent finish.
The form panels for second story were set andshored so that concrete could be cast-in-placeafter the pre-cast roof panels had been placed.
Office space is up and ready for finishing.
REV. August, 2010
1-800-551-3313 | www.litedeck.com
ETHANOL PLANT OFFICE SPACEDETAILS • MAY 2006 11
REV. August, 2010
1-800-551-3313 | www.litedeck.com
ETHANOL PLANT OFFICE SPACEDETAILS • MAY 2006 12
REV. August, 2010
1-800-551-3313 | www.litedeck.com
Commercial AdditionJune, 2005 13
• 9,400 sq. ft. Comm. Addition
• 28’ tall x 16’ wide wall panels
• Custom EPS Roof Panels
SPECIFICATIONS
Attachmetn of steel trussesin preperation for customInsulated EPS roof panels.
Rebar and pick points are placed in the panelforms. Panels feature a removable containmentform along the sides. TILT forms can be cus-tom-built to accommodate all rebar and struc-tural members.
Containment form at end of panels isaccomplished with removable, dimension-al lumber. Panel are cast with 4000 psiconcrete, 5” slump.
Vibrating and power floating. Weight of a stan-dard, 16 x 28’ insulating wall panel is 24,000lbs.
A corduroy finish and sealer is applied tothe concrete surface.
Standard and custom panels were stack-cast toconserve space. The insulating form acceler-ates hydration by approx. 40%.
Insulated wall panel is being placed. Inthis project, walls cost $6.50 per sq. ft.,including placement.
REV. August, 2010
1-800-551-3313 | www.litedeck.com
Commercial AdditionJune, 2005 14
• 9,400 sq. ft. Comm. Addition
• 28’ tall x 16’ wide wall panels
• Custom EPS Roof Panels
SPECIFICATIONS
Custom-built panel is being placed, above adoor. Panels are braced, using conventionaltilt-up hardware.
Stack-cast panels are ready to be placed.Nominal insulating value of walls is R-26.4.
Steel trusses are in place (every 10-feet), toreceive insulated roof panels.
Roof panels are custom-made with steel Cchannels as stiffeners and attachment railsfor drywall. Nominal insulating value ofroof is R-54.
A flat, 2” thick concrete cover is being placed.Steel trusses provided the permanent shoring.Roof will be covered with a waterproof, elas-tomeric system.
Project is finished, ready for occupancy.
No additional installationof mounting angles needed. Steel studs on24” centers for attachingfinishes.
REV. August, 2010
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Roswell, NM. TheatreJune, 2005 15
SPECIFICATIONS
Erected panels are temporarily supported in tra-ditional tilt-up fashion.
Standard insulating wall panels were 8’ X 34’.TILT forms included a removable containmentform along the sides. Standard load-bearingjoists were spaced every 24”.
Conventional lifting anchors and attach-ment plates were cast into panels, perStructural Engineering specs.
Concrete being placed and vibrated in insulat-ing TILT panels, using 4,000 psi concrete, 5”slump. Containment form along end of panelswas accomplished with reusable, dimensionallumber.
Concrete was power floated and a lightbroom finish applied. The use of insulat-ing TILT forms resulted in a nominal R-27insulating value.
Perimeter bracing and reinforcing aroundopening. EPS forms are quickly fabricated toaccommodate any opening or configuration.
Panels were cast with a 3” continuouscover, over the TILT form. Nominal STC(Sound Transmission Class) of 50. Thiswas an important benefit for the owner.
• 42,000 sq. ft. Imax Theater
• Superior EPS sound retention
• Pre-Engineered Floor and Roof
• 15,000lb. average panel weight
REV. August, 2010
1-800-551-3313 | www.litedeck.com
Roswell, NM. TheatreJune, 2005 16
• 42,000 sq. ft. Imax Theater
• Superior EPS sound retention
• Pre-Engineered Floor and Roof
• 15,000lb. average panel weight
SPECIFICATIONS
Standard panels weighed approx. 15,000 lbs.each. Conventional tilt-up equipment and engi-neered pick points were used.
In the foreground, panels are stack-cast tosave space and labor. Stack-casting theinsulated TILT panels shortened hydrationtime by approx. 30%.
Commercial tilt-up braces were used to stabi-lize panels, following placement. Estimatedcost per square foot of $8.00, including place-ment.
Wall panels have been welded to baseplates and adjoining panels. Interior fin-ish will be anchored to the built-in steelattachment rails, spaced 24” apart.
Conventional metal roof deck was used for thisproject.
Theater complex is in place, ready for fin-ishing. Total of 42,000 square feet of site-cast, tilt up walls.
REV. August, 2010
1-800-551-3313 | www.litedeck.com
Bemidji, MN. Flatcrete Bldg.November, 2005 17
• Single Story Commercial
Building.
• Lite-Deck Stained and Stamped
Tilt Walls and Floors
• Energy Efficient In-Floor Heat
SPECIFICATIONS
Lite-Deck Tilt® allows spe-cial shapes and angles to becast and set with ease.
Insulating Lite-Deck forms were used for thefloor, over the partial basement. In-floor heat-ing system was cast into the concrete cover.Lite-Deck TILT wall panel forms are in thebackground, ready for concrete placement.
Lightweight TILT panels are set andbraced quickly, using traditional tilt-uphardware and techniques.
The project features a variety of stamped andstained concrete surfaces. Concrete wall pan-els have been stamped and are ready to be tilt-ed and placed. Lite-Deck TILT forms have abuilt-in containment rail which is removedprior to placement.
Lite-Deck TILT panels can be custom-builtto accommodate openings and specialprofiles. Casting beds are quickly fabricat-ed for individual block outs, bulkheadsand special angles.
Pre-cast Lite-Deck TILT walls feature a steelattachment rail every 24-inches. On the right,several Lite-Deck forms are stored, ready forplacement, rebar and concrete.
Rustic treatment around openings wasapplied after placement of tilt-up wallpanels. Random stone stamping and stain-ing was done during concrete placement.
REV. August, 2010
1-800-551-3313 | www.litedeck.com
Bemidji, MN. Flatcrete Bldg.November, 2005 18
• Single Story Commercial
Building.
• Lite-Deck Stained and Stamped
Tilt Walls and Floors
• Energy Efficient In-Floor Heat
SPECIFICATIONS
Portions of the interior walls will be finishedwith conventional drywall which is attached toLite-Deck’s built-in rails.
The stamped and stained concrete wallsand floor add warmth to this conferenceroom. High mass concrete walls make anexcellent barrier (nominal STC-50) to out-side and inside sound pollution.
An attractive, maintenance-free finish wasapplied directly to the Lite-Deck TILT concretepanels. Nominal R-30 insulating value pro-vides an energy-efficient envelope for theentire project.
Building features conventional woodtrusses and a commercial, steel roof.
REV. August, 2010
1-800-551-3313 | www.litedeck.com
Kuwait House ProjectOctober, 2006 19
• 1080 sq ft. Single Story
Residential Home.
• Lite-Deck Pre-Cast Walls and
Roof.
• Sandwich panel and standard
wall panels.
SPECIFICATIONS
. Lite-Deck TILT roof panel forms are beingset in place. Lightweight form weighs approx.1.75 lbs. per square foot.
Steel perimeter plate is anchored into toembedded C channel sections which werecut into the Lite-Deck roof forms.
Steel perimeter plate is in place on the insulat-ing Lite-Deck roof forms.
Prior to casting “sandwich” wall panels,EPS blockouts are placed as spacers forthe weld plates in the concrete wall panels.
Release agent is sprayed onto concrete form-ing bed, prior to placement of concrete forsandwich walls. EPS foam will serve as a wallpanel containment form for concrete.
Concrete is being placed and consolidatedfor the first (interior) side of sandwichwall panel. No steel reinforcing was usedon this side of the wall panel. Concretewas 4000 psi mix, 5” slump.
REV. August, 2010
1-800-551-3313 | www.litedeck.com
Kuwait House ProjectOctober, 2006 20
• 1080 sq ft. Single Story
Residential Home.
• Lite-Deck Pre-Cast Walls and
Roof.
• Sandwich panel and standard
wall panels.
SPECIFICATIONS
Concrete placement continues. Concrete was2” thick, on the first (interior) side of thesandwich wall panels.
Center core of Lite-Deck EPS forms areplaced on the first side of concrete sand-wich. On this project, no reinforcing steelwas placed in the load-bearing joists of thesandwich form.
Concrete has been placed and floated for thesecond (exterior) side of the sandwich panels.This panel is ready to cure.
EPS blockouts for windows and doors werepreped before placing concrete on thisstandard Lite-Deck wall panel.
In this demonstration project, the exterior ofone wall panel was stained prior to stamping.
A variety of stamps were used for the exte-rior finish on the stained panel.
REV. August, 2010
1-800-551-3313 | www.litedeck.com
Kuwait House ProjectOctober, 2006 21
• 1080 sq ft. Single Story
Residential Home.
• Lite-Deck Pre-Cast Walls and
Roof.
• Sandwich panel and standard
wall panels.
SPECIFICATIONS
Steel reinforcing and post-tensioning cablesare in place for the insulated concrete roof.
Steel reinforcing and PT cables (per engi-neering specs) are being placed in the Lite-Deck roof forms.
EPS insulation sheets will serve as perimetercontainment for the Lite-Deck roof form. Roofwas pre-cast, prior to placement on building.
Concrete is being placed and consolidatedin the Lite-Deck roof form.
Post-tension cables are mechanically stretchedand anchored off.
After stretching and anchoring, the post-tension cables are trimmed flush.
REV. August, 2010
1-800-551-3313 | www.litedeck.com
Kuwait House ProjectOctober, 2006 22
• 1080 sq ft. Single Story
Residential Home.
• Lite-Deck Pre-Cast Walls and
Roof.
• Sandwich panel and standard
wall panels.
SPECIFICATIONS
Foam Door and windowblockouts are easily removedwith a sawsall.
EPS foam was used to form the 45-degreeedges for the sandwich wall panels. Thedemonstration building’s 4 wall panels allhave this type of pre-mitred edge to provide acontinuously insulated corner.
Sandwich wall panels were tilted andplaced. Largest wall panel was 36’ wide X12’ tall and weighed approx. 70 pounds persquare foot.
Sandwich wall panels being placed. EPS foamblockouts for windows will be removed later.
Pre-cast Lite-Deck roof panels are beingplaced. Three panels were cast for the roofof this 1080 square foot building. Roofpanels weighed approx. 50 pounds persquare foot.
Lite-Deck roof panels were placed on a contin-uous steel ledger which has been attached tothe plates embedded in the wall. Attachmentplates in roof panel will be used to anchor roofto wall.
Last roof panel is being placed. Roof willbe sealed with an elastomeric finish. Oncedoors and windows are installed, buildingwill be ready for finishing and occupancy.
REV. August, 2010
Lite-Form Technologies | 1950 West 29th Street | South Sioux City, NE. 68776 Toll Free: 1-800-551-3313 | Email: [email protected]
Leadership in Energy and Environmental Design (LEED) – New Construction (NC)
When Lite-Form Technologies ICF products are incorporated into the exterior envelope of a building, the energy efficiency and material properties of Lite-Form can help contribute in 4 of the six LEED-NC categories. Summarized below are the categories and how Lite-Form Technologies ICF’s can contribute towards a building certification. Sustainable Sites (SS): This LEED Category covers Site Development issues. SS Prerequisite 1: Control erosion and sedimentation. Credits are obtained for: Proper site selection Use of an urban site A Brownfield site Providing alternative transportation to reduce dependence on single passenger vehicles. Reducing amount of site disturbed with structure and roads Effective storm water management or treatment Impact of parking areas and roof areas to heat island effect Light pollution reduction Lite-Form Technologies makes no contribution toward LEED credits within this category Water Efficiency (WE): This LEED category covers water conservation and pollution issues on site. There are no WE prerequisites for LEED Certification in this category. Credits are obtained for: Reducing or eliminating potable water used for landscaping Reducing potable water used for waste conveyance Overall reduction in water use Lite-Form Technologies makes no contribution toward LEED credits within this category.
REV. August, 2010
Lite-Form Technologies | 1950 West 29th Street | South Sioux City, NE. 68776 Toll Free: 1-800-551-3313 | Email: [email protected]
Energy and Atmosphere (EA): This LEED category covers measures to improve the energy efficiency and reductions in use of ozone depleting refrigerants and green house gases. EA Prerequisite 1: Required compliance with minimum performance standards of national or local energy codes EA Prerequisite 2: Provide fundamental commissioning of the systems installed in the building to verify proper installation and performance EA Prerequisite 3: Elimination of CFC based refrigerants Two (2) points are mandatory from this category for all LEED NC projects. Credits are obtained for performance improvements beyond the minimum national or local energy code requirements (up to 10 points). EA Credit 1: Use of renewable energy sources providing additional commissioning EA Credit 2: No HCFC refrigerants or fire suppression systems EA Credit 3: Continuous monitoring of and optimization of systems performance EA Credit 4: Use of Green Power Sources EA Credit 5: Measurement & Verification Building the exterior walls with Lite-Form ICF’s contributes to this requirement and credits by providing superior air tightness, insulating value and thermal massing. Use of Lite-Form Technologies will result in a better insulated, energy efficient exterior wall system. The continuous solid insulated concrete wall created by Lite-Form will reduce air infiltration and provide thermal mass benefits. Combined with other components like energy efficient glazing and window units, well insulated roof assemblies, and design strategies like effective solar orientation, Lite-Form can contribute to a project qualifying for minimum energy performance under EA Prerequisite 2, and for additional credits for energy performance beyond the minimum national and local energy code requirements, under the Optimized Energy Performance category.
REV. August, 2010
Lite-Form Technologies | 1950 West 29th Street | South Sioux City, NE. 68776 Toll Free: 1-800-551-3313 | Email: [email protected]
Materials and Resources (MR): This LEED category covers recycling building materials, and reducing construction waste. MR prerequisite 1: Required Space must be designated dedicated for separation, collection and Storage of recycled materials. Credits are obtained for: MR Credit 1: Reuse of existing buildings MR Credit 2: Reducing construction waster MR Credit 3: Reuse of existing building components MR Credit 4: Using products with recycled content MR Credit 5: Using local and regional building materials
MR Credit 6: Using materials that are rapidly renewable, harvested from plants that Mature in 10 years or less
MR Credit 7: Using certified wood products, to encourage responsible forest Management.
Use of Lite-Form ICF products will reduce construction waste. Any waste that is generated is 100% recyclable. Lite-Form ties are manufactured from certified 100% first generation recycled polypropylene, 40% post industrial; one half of the calculated amount is included in the total value of recycled content for a project. Use of Lite-Form will contribute to the overall value of recycled content for a project. Recycled Content of Lite-Form® Lite-Deck® Top Hats are manufactured with 100% Recycled EPS. 80% Post Industrial / 20% Post Consumer Lite-Form® Sheet Foam is manufactured with 100% Recycled EPS. 80% Post Industrial / 20% Post Consumer
REV. August, 2010
Lite-Form Technologies | 1950 West 29th Street | South Sioux City, NE. 68776 Toll Free: 1-800-551-3313 | Email: [email protected]
Indoor Environmental Quality (EQ): This LEED category covers indoor air quality requirements for projects EQ Prerequisite 1: Minimum indoor air quality must meet ASHRAE standards. EQ Prerequisite 2: No exposure from second hand smoke is permitted for non- Smoking building users. Credits are obtained for: EQ Credit 1: Monitoring Carbon Dioxide levels with adjustable ventilation system. EQ Credit 2: Optimize air change effectiveness of HVAC system and building envelope EQ Credit 3: Optimize air quality during construction EQ Credit 4: Flush out and filter indoor air prior to occupancy of building EQ Credit 5: Use low VOC products in adhesives, sealants, paints and carpet EQ Credit 6: Use Certified wood products EQ Credit 7: Control dust and chemical exposure within building EQ Credit 8: Provide controllable thermal, ventilation and lighting systems EQ Credit 9: Comply with ASHRAE standards for thermal and humidity comfort EQ Credit 10: Permanently monitor thermal and humidity comfort levels with
Adjustable systems Use of Lite-Form Technologies ICF products will reduce air infiltration. The thermal mass of the concrete wall insulates against surface temperature swings of walls. Lite-Form will not contribute to accidental humidification and condensation within the building. Lite-Form Technologies, incorporated into a project as part of an overall LEED conforming envelope will contribute to reducing air infiltration, reducing temperature swings and minimizing accidental humidification and condensation
REV. August, 2010
Lite-Form Technologies | 1950 West 29th Street | South Sioux City, NE. 68776 Toll Free: 1-800-551-3313 | Email: [email protected]
Innovation & Design Process (ID): This LEED category covers credits available for innovation and exceptional performance above and beyond the requirements of the program. There are no ID Prerequisites for LEED Certification in this category: Credits are obtained for: ID Credit 1: Substantially exceed LEED requirements ID Credit 2: Apply strategies or measures not covered in LEED ID Credit 3: Use LEED Accredited Professional as part of Project team. Past LEED Certified projects incorporating Lite-Form Technologies have been able to qualify for credits under this category for the following:
No off-gassing: Lite-Form product is inert, does not contribute to any degradation of the interior environment. Long Life Cycle: Concrete structures are very durable and will last far longer than other types of conventional construction. Mold Growth control: The entire Lite-Form assembly from formwork foam, plastic ties and the concrete are all inorganic and will not contribute to promotion of growth of mold. Use of High Percentage of Cement Substitute: Moving beyond the usual modest percentage of fly ash, slag cement, or silica fume.
The durability of the concrete structure created through the use of Lite-Form Technologies and the inert and inorganic features of the forms help the product contribute to LEED credits under this category.
REV. August, 2010