Super RTM Radiant Barriers TempShieldTM Bubble ProductsSuper RTM Radiant Barriers...for all your...
Transcript of Super RTM Radiant Barriers TempShieldTM Bubble ProductsSuper RTM Radiant Barriers...for all your...
Unlike mass insulation, which only slows down or resists heat transfer, Radiant
Barrier reflects heat. Heat, by natural law, always turns cold. The problem is how to keep the heat in during the winter and out during the summer.
There are three ways in which heat goes from warm spaces to cold spaces:
·Conduction is direct heat flow through a solid object like a wall or ceiling.
·Convection is heat movement through air, occurring when air is warmed. The warm air expands, becoming less dense, and rises.
·Radiation is the movement of heat rays across air spaces from one warm object to another cooler object. The heat we feel from a wood stove or a quartz space heater is radiant heat.
All objects and bodies give off radiant heat! Even the insulation in your attic gives off radiant heat to the cold attic space in the winter and to the living space in the summer. In winter, regular insulation won’t stop radiant heat loss! Radiant heat must be
TMreflected with a radiant barrier. Super R will reradiate only 3% of heat in which it comes in close physical contact compared with the approximate 90% reradiation of ordinary building materials at the same temperature.
Just like wrapping a baked potato in aluminum foil keeps a potato warm longer by holding the heat in, covering your attic insulation with Radiant Barrier holds the
TMTempShield Bubble Products...for all your insulation needs
TTM
empShield is comprised of a Nylon layer co-extruded between two layers of
durable and economical Polyethylene to create a bubble product that will retain its air much longer than competitive bubble products. Nylon is 100 times more resistant to the passage of air than polyethylene resulting in consistent R values.
Tests indicate that under a one pound psi load for four days, the competitive bubble loses up to 35% of the air or thickness while
TMTempShield will only lose 5% of its air.
POLYETHYLENEADHESIVENYLON
ADHESIVEPOLYETHYLENE
CO-EXTRUDED NYLONBARRIER CONSTRUCTION
heat in the house during winter’s cold. In summer, just like a space suit, Radiant Barrier reflects the sun’s heat before it can warm up the insulation in your attic. When the insulation stays cooler, your house will stay cooler. Think of it like a Thermos Bottle... a near perfect insulator. The tight seal and air space prohibits heat transfer by conduction and convection. The reflective surfaces inhibit radiation heat transfer. If it starts out hot it stays hot because little heat
is transferred to the cooler outside. If it’s cold it stays cold because very little heat is transferred from the warmer outside.
TMSuper R Radiant Barrier can be installed on top of your present insulation like a blanket or stapled under your rafters or crawl space. Regardless of how much insulation you have in your attic, adding Radiant Barrier will save on your heating and cooling expense and keep you
much more comfortable. Up to 17% in energy savings can be realized depending on climate, building configuration, materials used, site, family size, and lifestyle, etc. Your Radiant Barrier dealer has been trained to evaluate your home or business and advise you of your energy savings potential.
TMSuper R Radiant Barriers
...for all your insulation needs
When transporting product in a trailer or container, it’s usually stacked 4 to 5 rolls high, which amounts to a load of 60 lbs. psi and causes the bubbles on the bottom to lose air.
TMTempShield is made of 20% recycled material and comes in extended widths up to ten feet wide.
Top side of trussunder sheathing
1
Below BottomChord
2
3 Over ceilingInsulation
PLACEMENT OPTIONS FOR RADIANT BARRIER
·provide a substantial reduction in fuel costs
·provide greater comfort
·reduce investment dollars needed for heating and cooling equipment
·are double-sided 99% pure aluminum or single-sided aluminum with white on one side
·are reinforced for maximum strength and durability
·meet fire and smoke safety requirements of most Federal, State and Local building codes
·are as much as 97% reflective
·are puncture and tear resistant
TMOur Super R Radiant Barriers and
TMTempShield Foil Bubble Insulations:
·have as little as 0.03 emissivity
· are non-toxic/non-carcinogenic
·are Class A/Class 1 fire rated according to the new ASTM E84 and ASTM E2599 standards
·are clean, lightweight and easy to handle
·are installed with no special tools, clothing or mask
·are resistant to the growth of mold, mildew or bacteria
·provide no nest support for rodent or insect pests
·require no maintenance
CONDUCTIONCONVECTION
CONVECTION
RADIATION
RADIATION
HEAT FLOW100%
up to 7%
up to 45%
50% to 75%
up to 7%
UP TO93%
CONDUCTION
Winter
Summer
STMuper R Radiant Barrier and
TMTempShield Foil Bubble insulation
products were developed to serve the building industry’s expanding needs. With the current focus on saving energy and protecting our environment, you’ll find these products are in the forefront of reflective technology.
®As an ENERGY STAR partner, we bring you products that create a substantial cost and energy savings while increasing your physical comfort. The easy to handle, non-toxic, non-carcinogenic materials, are reinforced to outlast our competitors’ products. Plus, our environmentally friendly products require no protective clothing, respirator or special tools for installation and are virtually maintenance free.
An added safety benefit to our products include the new ASTM E84 and ASTM E2599 Class A/Class 1 fire rating.
TM TMTempShield and Super R have an extensive bank of testing for fire safety, vapor transmission, mold and mildew resistance, emittance and smoke density, along with a full line of physical
TMSuper R Radiant Barrier and TMTempShield Foil Bubble Insulations
TM
NASA &Foiling the Effects of Heat and
SMCold
The same material used in making Super TM
R kept NASA astronauts from losing body heat in the intense elements of space. The Space Shuttle’s outer heat tiles and many other areas contain radiant barrier protection against heat and cold. This same technology is incorporated into our Super
TMR product line, giving you cutting edge materials and performance.
Independent Laboratory and Government Agency Testing
TMTempShield Products Listed for Building InsulationTMTempShield products are now listed by the following building code agencies:
American Society for Testing and MaterialsASTM C 1313: Standard Specification for Sheet Radiant BarrierASTM E 96, Procedure A: Water Vapor TransmissionASTM C 1338: Resistance to the Growth of FungiASTM C 1371: Surface Emittance of Radiant BarrierASTM D 3310: Test Method for Determining CorrosivityASTM D 2261: Tearing Strength of FabricsASTM E 84: Burning Characteristics according to E 2599 Mounting Method
International Code CouncilICC Evaluation Services, Inc.
Reflective Insulation Manufacturers Association InternationalRIMA International Verification Program
Metropolitan Dade County (FL) Building Code Compliance Dept.Product Control Notice of AcceptanceAcceptance Number 03-0616.03
TMTempShield bubble products have also been evaluated and approved by the states of California, Wisconsin and Minnesota
properties tests. Both products and applications have been evaluated by an impressive and ever growing list of agencies including: ICC, ASTM, RIMA International, and the states of California, Wisconsin and Minnesota.
TMTempShield is one of the most versatile building materials on the market today. Use it in a crawl space, side wall, attic, basement wall, metal building, post frame, plumbing, agriculture, radiant floor heating and much more. You are limited only by your imagination!
The Florida Solar Energy Center at Cape Canaveral has tested radiant barriers in both small scale laboratory and full scale building models. Their results indicate that radiant barriers provide significant resistance to heat transfer. Current testing by the Tennessee Valley Authority, Oak Ridge Laboratories in Tennessee, and
the University of Mississippi support those findings. Northeastern Illinois University conducted winter tests in both residential and commercial structures using infra-red thermograph photography. The photos showed significant resistance to heat transfer over the regular insulation.
Seal and Insulatewith ENERGY STAR
Your Radiant Barrier Distributor:
How Much Can You Save Using Radiant Barrier In Your Attic?
Climate Zone Saving MapHumid Subtropical SIPR PHPR Avg. Cost kWh Yearly Cost Yearly Savings San Antonio 34.3 31 35.1 11.6 1,481.67 520.06 New York 32.5 31 35.1 18.74 2,393.66 840.17 Atlanta 38.5 31 35.1 10.07 1,286.24 451.47Continental Warm Topeka 30 46 30.5 10.03 1,281.13 390.75 Indianapolis 30.1 46 30.5 9.56 1,221.10 372.44Desert Las Vegas 19.2 23 21.1 12.36 1,578.75 331.54 Tucson 23 23 21.1 10.97 1,974.60 416.64Humid Continental Minneapolis 25.7 54 25 10.59 1,352.67 338.17 Detroit 24.4 54 25 12.46 1,591.52 397.88Steppe Pocatello 16 36 14.9 7.99 1,020.57 152.06 Helena 13.7 36 14.9 9.16 1,170.00 174.33Marine West Coast Astoria OR 9.6 ~100 9.6 8.87 1,226.21 117.16Mediterranean San Francisco 2.3 97 2.3 14.75 1,884.02 43.34Western High Areas Boulder 19.7 44 19.7 11.04 1,410.13 277.79Tropical Savanna Miami 36.8 42 38.6 11.44 1,461.24 564.04
References: SIPR (Sample Integrated Percent Reduction) and PHPR (Peak Hour Percent Reduction) calculations based on a Climate Study conducted by M.A. Medina, B. Young / Building and Environment 41 (2006) ppg. 1767-1778 with homes equipped with radi-ant barrier in the attic. kWh average based on survey conducted by USA Today 12/13/2011. Yearly Cost estimated at 12,773 kWh per year based on a 2005 Residential Consumption Survey Table calculated by EIA (2008), Table US-3, retreived Jan. 20, 2012 and data from the EPA eGRID2020 Version 1.1. Yearly Savings are estimates based averages of SIPR and PHPR.
30.5%
35.1%23%
25%14.9%9.6%
19.7%2.3%
38.6%