Adhesive Joints Theory (and use of innovative joints) · 2017-05-05 · Adhesive Joints –Theory...
Transcript of Adhesive Joints Theory (and use of innovative joints) · 2017-05-05 · Adhesive Joints –Theory...
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Adhesive Joints – Theory (and
use of innovative joints)ERIK SERRANO STRUCTURAL MECHANICS, LUND UNIVERSITY
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Wood and Timber – Why I’m intrigued
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…to this!
…via this…
From this…
…and this…
Fibre deviation close to knots
Deviation in fibre direction
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Outline
• Wood adhesive bonds
• Basic behaviour (equations)
• Volkersen theory
• Fracture mechanics approaches
• Equivalent elastic layer approach
• A few words on testing
• Conclusions
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An adhesive bond
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Thin or thick bond lines?
0.0001 m
10 m
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Thin adhesive bond lines
• A thin layer where the ”most important” stress
components do not vary in the thickness direction
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Material models
• Commonly used models
Str
ess
Deformation
Str
ess
Deformation
Strength
Stiffness
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Material models
• Less commonly used models
Str
ess
Deformation
Softening behaviour
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Softening behaviourS
tress
Deformation
Strength
Fracture energy
Stiffness
Shape
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Basics
• Simplest possible analysis – 1D-shear lag (Volkersen)
» Constant shear across adhesive layer thickness (t3)
» Pure axial action in adherends and pure shear in adhesive
» Linear elastic behaviour of materials
E1, t1, b1
E2, t2, b2
G3, t3, b3
P1 P2
P3
P4
Luftfahrtforschung, Vol. 15, 1938
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Basic variables
N1(L)N1(0)
N2(0) N2(L)
x
L
dx
N1 N1+dN1
N2 N2+dN2
t3
A1
A2
t3
Cross section
b
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0
0
32
31
dxbdN
dxbdN
t
t
01
01
32
2
2
31
1
1
t
t
A
b
dx
dN
A
A
b
dx
dN
A
0
0
32
2
31
1
t
t
A
b
A
b
21, Axial stress in adherends1
Horizontal equilibrium
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22
11
3123 /)(
u
u
tuu
Assumes constant shear strain
in adhesive layer
222
111
333
t
E
E
G
Assumes linear elastic materials
2a
3
Axial displacement of adherends
2b
2c
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Derivation twice of and using and then
we obtain, using and :
2a 2b 2c
13
032
3 tt
22113
32 11
EAEAt
bG
with the definition of 4
5 Stiffness ratio shear/axial
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Solution of governing equation
• The solution of is given by
where constants C1 and C2 are determined by the
boundary conditions
032
3 tt
)sinh()cosh( 21 xCxC t 6
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Load case “pull-pull”
E1, t1, b1
E2, t2, b2
G3, t3, b3
P
P
113
32
22113
31
1
)sinh(
1
)tanh(
1
AEt
PGC
LAELAEt
PGC
7
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Example 1
• Assume wood-wood joint
• Thicknesses 30-30 (mm)
• E1-E2-G3 12 000 -12 000 -1 000 (MPa)
• L: 10, 20, 50 and 100 mm, t3: 0.1 or 1.0 mm
10 mm 100 mm
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Example 1 – Results
• Symmetric stress distribution
• Influence of L and stiffness ratio (G3/t3) / (EA)
Relative shear stress in bond line
Different y-axis scales!!!
L=100
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Example 2
• Assume glass-wood-adhesive
• Thicknesses 8-30-1 (mm)
• E1-E2-G3 70 000-12 000-1 000 (MPa)
• L: varying 10, 20, 50 and 100 mm
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• Non-uniform stress distribution
Relative shear stress in bond line
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Conclusions – so far …
• Stress distribution depends on stiffness ratios expressed
through joint parameter
• If
<< 1 (small) => uniform stress distribution
>> 1 (large) => non-uniforms stress distribution
22113
32 11
EAEAt
bG
L
L
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Conclusions – so far …
• Parameter
<< 1 (small)
– small overlap length
– low bond line stiffness in relation to axial stiffness of
adherends
>> 1 (large)
– large overlap length
– high bond line stiffness in relation to axial stiffness of
adherends
L
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Joint load-bearing capacity
• Assume joint capacity is reached when max shear
stress equals bond line shear strength, then from
Where is the bond line shear strength
(Assumes is chosen such that for which case
max stress occurs at x=0)
6
1
22113
3max
)sinh(
1
)tanh(
1
LEALEAG
tP f
t
ft
7
111
22 EA
EA
11
22
EA
EA
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Example: Influence of overlap length
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Conclusions – so far …
• Joint capacity (N) depends on adhesive shear strength
and parameter
• Pmax thus depends on geometry, strength AND stiffness
parameters
1
22113
3max
)sinh(
1
)tanh(
1
LEALEAG
tP f
t
L
22113
32 11
EAEAt
bG
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Stress/strength analyses (using FEM)
• Conventional strength analysis:
– Linear elastic material response
– Mostly stressed point governs failure
– Sharp corners can give high stress ( )
– For brittle/stiff joints (i.e. traditional wood adhesive
joints)
» Depicts the stress distribution at low load levels (?)
» Difficult (impossible) to use for prediction of joint
capacity?
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Stress/strength analyses using FEM
• Elasto-plastic analysis
– Elasto-plastic material
– Mostly stressed point governs failure
– Sharp corners can give high strains ( )
– Depicts the stress distribution in ductile joints at low load levels
– Can be used for capacity prediction of ductile/flexible joints
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Fracture mechanics-based analysis
• Linear elastic fracture mechanics (LEFM)
– Assumes a brittle joint/bond line
– Assumes stress singularities (sharp corner/ existing
crack)
– Can be used for capacity prediction of brittle joints
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Linear elastic fracture mechanics
• Stress intensity approach
– Assume a small crack exists
– Calculate the stress intensity (stress concentration factor)
• Crack propagation approach (compliance method)
– Assume an existing crack propagates
– Calculate the change of compliance (flexibility) of the joint as the crack propagates
• J-integral
– Calculate the value of a path-independent integral of stress close to the crack tip
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Example – LEFM (compliance method)
Finger joints
Aicher & Radovic (1999)
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Non-linear fracture mechanics-based analyses
• Assume a non-linear material (bond line) behaviour
including softening (Non-linear fracture mechanics=NLFM)
• Can be used for
– Any brittleness of the joint
– Any geometry
– Can be used for prediction of joint capacity in “all”
cases – from brittle to ductile joints
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Softening behaviourS
tress
Deformation
Strength
Fracture energy
Stiffness
Shape
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Influence of rod length
Initial softening
Bonded-in rods
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Stress distributions
Linear elastic At max load
Shear
Normal stress (peel)
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NLFM Approach – Softening Bonds
Shear Tension perp.
Serrano, E. Adhesive Joints in Timber Engineering – Modelling and Testing of Fracture
Properties. PhD thesis, Report TVSM-1012, Lund University 2000.
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Result presentation NLFM
• Joint brittleness ratio is given by
– Material
» Bond line fracture energy and strength
» Adherend material stiffness
» Shape of softening curve
– Geometry
» Joint shape and absolute size of joint
• Normalised strength at failure is given by:
”some stress measure” /”material strength”
Example: for a beam in bending: 𝑀𝑚𝑎𝑥⋅6
𝑏ℎ2/𝑓𝑚
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Influence of joint brittleness ratio
No
rma
lise
d u
ltim
ate
str
en
gth
Joint brittleness ratio
Perfectly plastic
LEFM
E. Serrano. “Glued-in Rods for Timber Structures. A 3D Model and Finite Element Parameter
Studies”. International Journal of Adhesion and Adhesives. 21(2) (2001) pp.115-127.
Equivalent
Elastic layerNLFM
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Comparison with tests – Pull-out
E. Serrano and P. J. Gustafsson. “Fracture mechanics in timber engineering – Strength
analyses of components and joints”. Materials and Structures (2006) 40:87–96.
FEM
Test
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A generalised method
• Equivalent elastic fracture layer method
– Assume simplest possible stress-deformation behaviour
– Adapt stiffness (reduce it) in order to take into account
fracture energy
– Perform linear elastic analysis
– Failure criterion: maximum stress in one point
Gf
Material strength, ft
Displacement (mm)
Stress(MPa)
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A generalised method
• How come this works?
t (MPa)
x (mm)
Linear elastic solution (standard elastic stiffness used)
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A generalised method
• How come this works?
t (MPa)
x (mm)
Linear elastic solution (standard elastic stiffness used)
NLFM solution
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A generalised method
• How come this works?
t (MPa)
x (mm)
Linear elastic solution (standard elastic stiffness used)
NLFM solution
Equivalent elastic layer (adapted stiffness)
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Bonded-in rods – Calculation Results
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Vessby, J., Serrano, E., Enquist, B. Materials and Structures (2010) 43:1085–1095
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Analyses by LEFM and NLFM
Influence of lamination thickness
on beam behaviour
Serrano, E., Larsen, H.J. ASCE Journal of Structural Engineering (1999) 125:740-745.
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Results – NLFM and LEFM
Compliance method (analytical)
Compliance method (analytical)
Lamination thickness (mm)
Bendin
g s
tre
ngth
(MP
a)
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Obstacles (at least some of them…)
• Material behaviour
– Time (creep)
– Moisture (hygroscopic materials)
– nonlinear (plasticity, damage, cracking)
• Experiments…?
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Testing – Parameters needed
• Bond line strength
– Local strength of the bond line at a “material point”
level (not joint “strength”)
• Stiffness
• Failure strain
• Fracture energy
• Shape of response curve, e.g. softening behaviour
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Testing for local strength
• How to test for local strength?
– Small specimen
»Uniform stress distribution
»Small amount of energy released at failure
– Large specimen
»Non-uniform stress distribution
»Large amount of energy released at failure
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Example – Stress distributions
Stiff/brittle
Soft/ductile
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Standard test specimen (not very useful)
Shear stress
Normal stress (peel stress)
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Linear elastic At max load
Brittle adhesive
Semi ductile
adhesive
Ductile adhesive
Shear stress
Peel stress
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Brittle adhesive Ductile adhesive
Brittle adhesive Ductile adhesiveSemi-Ductile adhesive
DIC-measurements
Serrano, E., Enquist, B. Holzforschung,
Vol. 59, pp. 641–646, 2005
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Fracture mechanics tests (softening)
• Capture the complete response, including softening
• Deformation controlled testing
• Stiff test arrangement
– Testing machine
– Load cell
– Specimen and grips
• Fast response of control system
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Softening behaviour S
tress
Deformation
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Fracture mechanics tests (softening)
• The energy released during softening (diminishing load at increasing deformation) must be dissipated by the failure process in the bond line
• Test arrangements with high stiffness release small amounts of energy stable test performance can be achieved
• Small specimens required (3–5 mm bond line length in shear)
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Serrano, E. Adhesive Joints in Timber Engineering – Modelling and Testing of Fracture
Properties. PhD thesis, Report TVSM-1012, Lund University 2000.
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Serrano, E. Adhesive Joints in Timber Engineering – Modelling and Testing of Fracture
Properties. PhD thesis, Report TVSM-1012, Lund University 2000.
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Conclusions
• Adhesive joint capacity (in N or MPa) is determined by
– Local strength of the bond line
– Material stiffness(es)
– Fracture energy of the bond line
– Shape of the softening curve of the bond line
– The geometry of the joint
– The absolute size of the joint
• Large adhesive joints need soft/ductile bond lines to be efficient
• NLFM can be considered a general theory for brittle to ductile joints
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A few other factors affecting... (Marra,1992)
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Thanks for the attention…questions?