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Behaviour of Bi-Adhesive in Double-Strap Joint with Embedded Patch Subjected to Bending

References [1] Sabrina, F., M. Riadh, Z. Xiao-Ling. Experimental and Finite Element Analysis of a Double Strap Joint between Steel Plates and Normal Modulus CFRP. Composite Structure, 75 (2006), 156-162. [2] Lee, H. K., S. H. Pyo, B. R. Kim. On Joint Strengths, Peel Stresses and Failure Modes in Adhesively bonded Double-strap supported Single-lap GFRP Joints. Composite Structure, 8 (2009), 44-54. [3] Peter, C., R. Francis. Stress Analysis of Double-strap Bonded Joints using a Variational Method. Int. J. Adhesion

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Stress Analysis of Lap Joints With Embedded Cover Plate

References [1] Temiz, ¸S. J. Application of Bi-adhesive in Double-strap Joints subjected to Bending Moment. Adhesion Sci. Technol., 20 (2006), 1547-1560. [2] Da Silva, L. F. M., A. Pirondi, A. ¨O. Chsner. Hybrid Adhesive Joints, Heidelberg, Springer, 2011. [3] Sayman, O. Elasto-plastic Stress Analysis in an Adhesively bonded Single-lap Joint. Compos. Part B-Eng., 43 (2012), 204-209. [4] Tang, J. H., I. Sridhar, N. Srikanth. Static and Fatigue Failure Analysis of Adhesively bonded Thick Composite

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Influence of Interface Gap on the Stress Behaviour of Smart Single Lap Joints Under Time Harmonic Load

References [1] GOLAND, M., E. REISSNER. The Stress in Cemented Joints. J. Appl. Mech., (1944), A17-A26. [2] PAHOJA, H. M. Stress Analysis of an Adhesive Lap Joint Subjected to Tension, Shear Force and Bending Moments, University of Illinois of Urbana-Champaign, T. & A. M-Report 36 1, August, 1972. [3] VINSON, J. R. Adhesive Bonding of Polymer Composites. Polym. Eng. Sci., 29 (1989), 1325-1331. [4] ADAMS, R. D. The Mechanics of Bonded Joints, Structural Adhesives in Engineering, ImechE Conference

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Local Deplanation Of Double Reinforced Beam Cross Section Under Bending

-order and Fracture Mechanics Approach. ASCE Journal of Engineering Mechanics, 127 (2001), No. 8 , 852–862. [4] N ikolova , G. The Effect of Temperature, Material Properties of Adhesive Layer and Geometry on a Bi-material Structure. Comptes rendus de l’Academie bulgare des Sciences , 68 (2015), No. 3 , 375–382. [5] N ikolova , G., J. I vanova , V. V aleva , Z. M roz . Mechanical and Thermal Loading of Two-plate Structure. Comptes rendus de l’Academie bulgare des Sciences, 60 (2007), No. 7 , 735–742. [6] S inaiski , E. G., M. B raun

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Analytical Study of Elastic-Plastic Fracture in the Crack-Lap Shear Multilayered Beam Configuration

R eferences [1] D avidson , B. D., V. S undararaman . A Single-Leg Bending Test for Interfacial Fracture Toughness Determination. Int. J. Fract ., 78 (1996), 193-210. [2] N arin , J. A. Energy Release Rate Analysis of Adhesive and Laminate Double Cantilever Beam Specimens Emphasizing the Effect of Residual Stresses. Int. J. Adh. Adhes. , 20 (1999), 59-70. [3] Y eung , D. T. S., D. C. C. L am , M. M. F. Y uen . Specimen Design for Mixed Mode Interfacial Fracture Properties Measurement in Electronic Packages. J. Electr. Packag. , 122

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Non-Linear Analysis of Mode II Fracture in the end Notched Flexure Beam

-1669. [20] Blackman, B. R. K., A. J. Kinloch. Fracture Tests for Structural Adhe- sive Joints, in Fracture Mechanics Testing Methods for Polymers, Adhesives and Composites, Eds. A. Pavan, D. R. Moore and J. G. Williams, Elsevier Science Ltd., UK, Oxford, 2001. [21] Martin, R. H. Interlaminar Fracture Characterization.Key Eng. Mater., (1996), 121-122. [22] Rikards, R., A. Korjakin, F.-G. Buchholz, H. Wang, A. Bledzki, G. Wacker. Interlaminar Fracture Toughness of GFRP influenced by Fiber Surface Treatment. Journal of Composite Materials, 32

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-523. [23] Arai, F., D. Andou, T. Fukuda. Adhesion Forces Reduction for Micro Manipulation Based on Micro Physics, Proc. IEEE 9th Annual Int. Workshop on Micro Electro Mechanical Systems, 1996, 354-359. [24] Li, Q., V. Rudolph, W. Peukert. London-van der Waals Adhesiveness of Rough Particles. Powder Technology, 161 (2006), 248-255. [25] Sedin, D. L., K. L. Rowlen. Adhesion Forces Measured by Atomic Force Microscopy in Humid Air. Analytical Chemistry, 72910 (2000), 2183-2189. [26] Chen, S. C., J. F. Lin. Detailed Modelling of

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Fracture in Composites - An Overview (Part I)

Composite Laminates at $$0°/° PLY Interfaces. Engineering Fracture Mechanics , 73 (2006), No. 16 , 2427-2442. Datla, N. V., J. Ulicny, B. Carlson, M. Papini, J.K. Spelt. Mixed-mode Fracture Behaviour of Degraded Toughened Epoxy Adhesive Joints. International Journal of Adhesion and Adhesives , 31 (2011), No. 2, 88-96. Mollón, V., J. Bonhomme, J. Viña, A. Argüelles, A. Fernández-Canteli. Influence of the Principal Tensile Stresses on Delamination Fracture Mechanisms and Their Associated Morphology for Different

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