Adhesive strength of timber joints with unconventional glued-in steel ...
Transcript of Adhesive strength of timber joints with unconventional glued-in steel ...
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Adhesive strength of timber joints with
unconventional glued-in steel rods
Kay-Uwe Schober, Michael Drass, Wieland Becker
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Conventional applications
with glued-in steel rods GIR advantages GIR disadvantages
• High stiffness
• Fire resistance
• Corrosive
atmosphere
resistance
• Aesthetics
• Stringent quality
control
• High assembling
effort
• Geometrical
restrictions due to
design codes
Unconventional embedding
materials by neglecting
adverse aspects
Introduction
Weak-zone
reinforcement
Apex reinforcement
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Innovative application of glued-in rods
Timber-concrete frames Pre-fab assembling joint
Introduction
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Introduction
Innovative application of glued-in rods
Timber-concrete trusses Pre-fab assembling joint
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Introduction
Timber-concrete composite design Corresponding FE-model
Innovative application of glued-in rods
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Design Code Max. Load Restrictions
German Design Code 18,09 kN
• Bondline length
• Steel grade
• Steel rod diameter
Eurocode 5 19,24 kN
• Bondline length
• Timber density
• Shear stiffness
GIROD 30,07 kN
• Bondline length
• Joint tension
• Slenderness
Riberholt 85,36 kN (brittle)
126,54 kN (ductile)
• Bondline length
• Timber density
• Drill-hole-Ø
• Failure mode
Analytical Investigations
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Generally all those approaches deal with:
• Drill-holes are marginal larger than rod diameter
• Steel rods glued-in with epoxy resin or PU adhesives
• Thin adhesive layer between steel and timber
Analyzing larger drill-holes
Modification by admixing dried fillers
Analytical Investigations
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Experimental Investigations
Grouting material
-30
0
30
60
90
120
-2 0 2 4 6 8 10e [‰]
fcm [
MP
a]
fctm
[M
Pa]
3.37 MPa 30 MPa 110 Compressive strength
5.45 MPa 5.5 MPa 30 Bending strength
0.64 MPa 30,000 MPa 19,600 Tensile MOE
0.83 g/cm³ 2.4 g/cm³ 2.0 Density
Ratio RC C25/30 EPC Material property
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• Fiber orientation (parallel / perp. to grain)
• Drill-hole diameter
Experimental Investigations
1. Test Set-up Push-out
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Specimen before testing Specimen after testing
Experimental Investigations
1. Test Set-up Push-out
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• Fiber orientation
(parallel / perp. to grain)
• Drill-hole diameter
• Steel rod and steel grade
• Type of ceramic filler
Experimental Investigations
2. Test Set-up Pull-out
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• WEVO resin 2c epoxy adhesive
• Bertsche grouting mortar Mineral-bound mortar
• Compono® 100 2c epoxy PC
• UHPC 5-phase concrete
Experimental Investigations
Embedding materials
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Experimental Investigations
Test results
Testing parameters
Rod material M 12-10.9 BSt 500 M 12-10.9 BSt 500
Drill-hole diameter [mm] 50 50 50 50 75 75 75 75
Load direction to grain par. perp. par. perp. par. perp. par. perp.
Axial pull-out forces [MN]
WEVO 21.5 27.7 23.4 31.3 11.6 11.3 10.2 10.6
Bertsche 19.6 26.1 20.4 23.2 14.8 17.3 16.0 16.3
CTA 78.6 94.3 69.1 73.4 95.1 96.6 72.9 73.6
UHPC 4.7 5.5 6.7 3.7 9.8 16.1 10.5 9.7
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• Increase of load-carrying capacity with a major drill hole diameter
• Higher bearing loads perpendicular to the grain
• Highest bearing load with epoxy pc
• Adhesive failure with mineral-bound mortar, epoxy resin and UHPC
• Cohesive failure with epoxy pc
Experimental Investigations
Test results
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3D FE-Model
Orthotropic elasticity of timber
Isotropic elasticity of EPC
Plasticity of Timber
Generalized Hill yield-criterion
Bilinear hardening law
Plasticity of EPC
Yield criterion (William & Warnke)
Multilinear hardening law
Numerical Investigations
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2( ) 1 1 expc n n n t
e
Numerical Investigations
What’s going on in the bond line?
Composite Friction model (Xu & Needleman )
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Crack propagation and delamination
between EPC and Timber
Loadstep 0 kN Loadstep 68 kN
Numerical Investigations
Push-out tests – Numerical sensitivity studies
Schober, K.U. & Rautenstrauch, K. (2008). WCTE Miyazaki, Japan.
Schober, K.U. et al. (2012). WCTE Auckland, New Zealand.
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Model calibration to obtain
the embedding stiffness
Numerical Investigations
Push-out tests – Numerical sensitivity studies
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Numerical Investigations
Pull-out tests – Numerical sensitivity studies
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2 kN
63 kN
100 kN
delamination
propagation
Numerical Investigations
Pull-out tests – Numerical sensitivity studies
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• Composite behavior between timber and proposed epoxy PC
can be assumed as rigid and shear resistant
• Design of composite components and complex 3D assemblage joints
with proposed numerical model is possible
• Good agreement of numerical data and lab tests in
deformation behavior
• Proper description of the damage behavior with the proposed
numerical model, verified by lab tests
• Larger drill-hole diameters cause in higher bondline quality
and neglect missgluing
Conclusions
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Outlook
Serero architects Paris
Advanced Manufacturing Technology
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„The 21st Century will be built in wood.“
Andrew Waugh, Whaugh-Thistleton Architects, London, UK
Termite Pavillion, PESTIVAL 2009, source: KLH UK
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Kay-Uwe Schober
Professor for Timber Structures and Structural Design
Institute of Innovative Structures
Mainz University of Applied Sciences, Germany
Questions