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Abstract

Strain distributions within adhesively bonded double-lap shear joints under tensile load have been investigated experimentally using the complementary experimental techniques of neutron diffraction (ND) and moire interferometry (MI). ND provides three-dimensional strain values within the samples, whereas MI gives high-resolution maps of the in-plane strain components at the surface. The resulting comprehensive datasets obtained from both aluminium and steel joints were compared against finite element (FE) predictions. The importance of a range of factors (e.g. two-dimensional versus three-dimensional geometry, sample asymmetry, residual strains) was assessed through development of the FE model and detailed comparison with the experimental data. The main conclusions were that FEA can be used accurately to predict strains in the adherends of bonded lap joints and that many of the simplifications of the joints commonly used in the analysis of bonded joints are justified as including them results in relatively small differences compared with sample-to-sample variation and the safety factors used in designing bonded joints.

Keywords

double-lap joint adhesively bonded joint strain neutron diffraction moiré interferometry finite element analysis

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References

Harris

J. A.

Adams

R. D.

Strength prediction of bonded single lap joints by non-linear finite element methods

Int. J. Adhesion and Adhes., 1984, 4, 65–78.

Adams

R. D.

Harris

J.A.

The influence of local geometry on the strength of adhesive joints

Int. J. Adhesion and Adhes., 1987, 7, 69–80.

Loh

W. K.

Crocombe

A. D.

Abdel-Wahab

M. M.

Ashcroft

I. A.

Modelling interfacial degradation using interfacial rupture elements

J. Adhesion, 2003, 79, 1135–1160.

Liljedahl

C. D. M.

Crocombe

A. D.

Abdel-Wahab

M. M.

Ashcroft

I. A.

The effect of residual strains on the progressive damage modeling of environmentally degraded joints

J. Adhesion Sci. and Technol., 2005, 19, 525–548.

Richardson

Crocombe

A. D.

Smith

P. A.

A comparison of two- and three-dimensional finite element analyses of adhesive joints

Int. J. Adhesion and Adhes., 1993, 13, 193–200.

Jumbo

Ashcroft

I. A.

Crocombe

A. D.

Abdel-Wahab

M. M.

The analysis of thermal residual stresses in adhesively bonded joints. In 7th European Adhesion Conference, Freiburg, 2004.

Jumbo

Ashcroft

I. A.

Crocombe

A. D.

Abdel-Wahab

M. M.

Modelling of hygro-thermal residual stresses in adhesively bonded joints. In 9th International Conference on

Science and Technology of Adhesives, 2005 (IOM Communications, Oxford).

Abdel-Wahab

M. M.

Ashcroft

I. A.

Crocombe

A. D. A.

Comparison of failure prediction methods for an adhesively bonded composite beam. J. Strain Analysis, 2004, 39, 173–185.

Hutchings

M. T.

Krawitz

A. D.

(Eds) Measurement of residual and applied stress using neutron diffraction, 1992 (Kluwer, Dordrecht).

10.

Swallowe

G. M.

Critchlow

G. W

Wimpory

R. C.

Pirling

Direct measurement of longitudinal strains and stresses within single lap shear adhesive joints using neutron diffraction

J. Adhesion, 1999, 70, 1–11.

11.

Asundi

Deformation in adhesive joints using moiré interferometry

Int. J. Adhesion and Adhes., 1987, 7, 39–42.

12.

Gascoigne

H. E.

Abdallah

M. G.

Strain analysis of a bonded, dissimilar, composite-material T-joint using moiré interferometry

Optics and Lasers in Engng, 1990, 13, 155–165.

13.

Wang

Y. Y.

Chiang

E P.

Barsoum

R. S.

Chou

S. T.

Study of deformation field of interface crack in adhesive joint

Engng Fracture Mechanics, 1993, 44, 175–184.

14.

Lilleheden

Mechanical properties of adhesives in-situ and in bulk

Int. J. Adhesion and Adhes., 1994, 14, 31–37.

15.

Tsai

M. Y.

Morton

3-Dimensional deformations in a single-lap joint

J. Strain Analysis, 1994, 29, 137–145.

16.

Tsai

M. Y.

Morton

An experimental investigation of nonlinear deformations in single-lap joints

Mechanics of Mater., 1995, 20, 183–194.

17.

Tsai

M. Y.

Morton

The effect of a spew fillet on adhesive stress distributions in laminated composite single-lap joints

Composite Struct., 1995, 32, 123–131.

18.

Fitzpatrick

M. E.

Lodini

(Eds) Analysis of residual stress by diffraction using neutron and synchrotron radiation, 2003 (Taylor and Francis, London).

19.

Huntley

J. M.

Automated analysis of speckle interferograms In Digital speckle pattern interferometry and related techniques (Ed. Rastogi

P. K.

), 2001 (John Wiley & Sons, Chichester, UK).

20.

Post

Han

Ifju

High sensitivity moire: experimental analysis for mechanics and materials, 1994 (Springer-Verlag, New York).

21.

Takeda

Ina

Kobayashi

Fourier-transform method of fringe-pattern analysis for computer-based topography and interferometry

JOSA, 1982, 72, 156–160.

22.

Buckland

J. R.

Huntley

J. M.

Turner

S. R. E.

Unwrapping noisy phase maps by use of a minimum-cost-matching algorithm

Appl. Optics, 34, 5100–5108.

Numerical and experimental investigation of three-dimensional strains in adhesively bonded joints

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