Closed-form structural stress and stress intensity factor solutions for spot welds in square overlap parts of cross-tension specimens
Sripichai, K.; Pan, J.
Engineering Fracture Mechanics 96: 307-327
2012
ISSN/ISBN: 0013-7944 DOI: 10.1016/j.engfracmech.2012.08.002
Accession: 082455855
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References
Sripichai, K.; Pan, J.; Tran, V. 2013: Stress intensity factor solutions for spot welds in square overlap parts of cross-tension specimens of different thicknesses and materials Engineering Fracture Mechanics 105: 110-135Lin, P.C.; Pan, J. 2008: Closed-form structural stress and stress intensity factor solutions for spot welds in commonly used specimens Engineering Fracture Mechanics 75(18): 5187-5206
Sripichai, K.; Pan, J. 2012: Closed-form structural stress and stress intensity factor solutions for spot welds in square plates under opening loading conditions Engineering Fracture Mechanics 93: 168-188
Lin, P.C.; Pan, J. 2008: Closed-form stress intensity factor solutions for spot welds in various types of specimens SAE Technical Papers
Lin, P.C.; Pan, J. 2008: Closed-form structural stress and stress intensity factor solutions for spot welds under various types of loading conditions International Journal of Solids and Structures 45(14-15): 3996-4020
Lin, P.C.; Lin, Z.L. 2011: Geometric functions of stress intensity factor solutions for spot welds in cross-tension specimens Engineering Fracture Mechanics 78(18): 3270-3288
Sung, S.; Pan, J. 2017: Accurate analytical structural stress and stress intensity factor solutions for similar and dissimilar spot welds in lap-shear specimens Engineering Fracture Mechanics 182: 265-286
Sung, S.-J.; Pan, J. 2019: Closed-form structural stress solutions for spot welds in square plates under central bending conditions SAE Technical Papers 2019-April(April)
Lin, P.C.; Wang, D.A.; Pan, J. 2007: Mode I stress intensity factor solutions for spot welds in lap-shear specimens International Journal of Solids and Structures 44(3-4): 1013-1037
Wang, D.A.; Lin, P.C.; Pan, J. 2005: Geometric functions of stress intensity factor solutions for spot welds in lap-shear specimens International Journal of Solids and Structures 42(24-25): 6299-6318
Lin, P.C.; Wang, D.A. 2010: Geometric functions of stress intensity factor solutions for spot welds in U-shape specimens International Journal of Solids and Structures 47(5): 691-704
Lin, Z.; Lin, P. 2016: Geometric functions of stress intensity factor solutions for spot welds in coach-peel specimens Engineering Fracture Mechanics 156: 141-160
Tran, V.X.; Pan, J. 2010: Effects of weld geometry and sheet thickness on stress intensity factor solutions for spot and spot friction welds in lap-shear specimens of similar and dissimilar materials Engineering Fracture Mechanics 77(9): 1417-1438
Wang, D.A.; Pan, J. 2005: A computational study of local stress intensity factor solutions for kinked cracks near spot welds in lap-shear specimens International Journal of Solids and Structures 42(24-25): 6277-6298
Tran, V.X.; Pan, J. 2010: Analytical stress intensity factor solutions for resistance and friction stir spot welds in lap-shear specimens of different materials and thicknesses Engineering Fracture Mechanics 77(14): 2611-2639
Lin, P.C.; Lin, Z.; Wang, D.A. 2019: Three-dimensional finite element analyses of local stress intensity factor solutions for kinked cracks of spot welds in commonly used specimens SAE Technical Papers 2019-April(April)
Wang, D.A.; Pan, J. 2005: Effects of specimen width and overlap length on stress intensity factors of spot welds in lap-shear specimens SAE Technical Papers
Wang, D.A.; Pan, J. 2005: Effects of specimen width and overlap length on stress intensity factors of spot welds in lap-shear specimens Sae Transactions 114(5): 469-474
Lin, P.C.; Wang, D.A. 2009: Effects of specimen width and specimen length on stress intensity factor solutions for spot welds in U-shape specimens SAE Technical Papers: 47-57
Lin, P.C.; Pan, J.; Wang, D.A. 2006: Analytic solution of mode i stress intensity factor for spot welds in lap-shear specimens SAE Technical Papers