Results 281 to 290 of about 580,035 (347)
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Strain Energy Release Rate in Treated Circumferentially Cracked Spring Steel
International Journal of Manufacturing, Materials, and Mechanical Engineering, 2012The suspension system is a prominent piece of material that plays a vital role in the stability of a vehicle. During the service, the suspension system is subjected to different environmental conditions, at the same time it has to sustain a variety of loads.
Arun K. V., Swetha K. V.
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Strain energy release rate for interfacial cracks in hybrid beams
Mechanics Research Communications, 2006zbMATH Open Web Interface contents unavailable due to conflicting licenses.
Yang, QS, Peng, XR, Kwan, AKH
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Strain energy release rates for internal cracks in rubber blocks
International Journal of Fracture, 1993Strain energy release rates have been calculated by Finite Element Analysis (FEA) for growth of a small crack in a cylindrical rubber block under tension. The crack was assumed to lie in the center of the block in a plane perpendicular to its axis. The rubber was taken to be virtually incompressible in bulk and non-linearly elastic.
Y. W. Chang, A. N. Gent, J. Padovan
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Strain energy release rate at interface of concrete overlaid pavements
International Journal of Pavement Engineering, 2016AbstractA new method for calculating energy release rate (ERR) at the interface of concrete overlaid pavements is proposed using crack closure and the nodal force technique. This method transforms a 3D pavement system into a 2D interfacial crack model via a theoretical conversion.
John Nicholas Karadelis, Yougui Lin
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Strain Energy Release Rate for the Blister Test
2003The configuration of the so-called “blister test” used in adhesion testing is shown in Figure 1. The adhered layer of thickness h may be considered as a circular plate of radius a built-in at its periphery. Use elementary plate theory to show that the strain energy release rate G for a constant pressure p or a central load P is given by $$ \user1{G
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Strain Energy Release Rate for Off-Axis Ply Cracking in Laminated Composites
International Journal of Fracture, 2001Strain energy release rate associated with matrix cracking in the Θ-layer of unbalanced symmetric [O/Θ]s composite laminate is predicted analytically using a 2-D shear lag stress analysis and the Equivalent Constraint Model (ECM). Its dependence on the crack density and ply orientation angle is examined for glass/epoxy and carbon/epoxy laminates ...
Kashtalyan, Maria, Soutis, Costas
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Strain energy release rates of interface cracks in orthotropic layered beams
International Journal of Fracture, 1995We present the results of a numerical (BEM) fracture mechanics analysis of orthotropic tri-layer beams with an interface crack and subjected to the loads as in DCB and ELS specimen set ...
H. E. Ang, J. F. Torrance, C. L. Tan
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The strain energy release rate of delamination in fabric-reinforced composites
International Journal of Adhesion and Adhesives, 1988Abstract Mode I and Mode II delamination fractures are investigated in glass, carbon and Kevlar fabric-reinforced composites. The effects of the angle of reinforcement and of the fibre volume content are examined particularly. The main conclusion is that in designing a fabric-reinforced composite for maximum resistance to delamination, the axes of ...
G Marom +5 more
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Strain Energy Release Rate for the Short Rod Specimen
2003The configuration of the “short rod” specimen for determining fracture toughness is shown in Figure I. Use elementary beam theory to determine the strain energy release rate G.
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