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1

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Secondary Buckling and Progressive Failure Analysis of Tailored Composite Panels in Thin-Walled Box-Shape Composite Beams under Bending and Torsion (2008)

Liu, Jun ; Huang, Bao Zong ; Li, Ge Lan

s.l. ; Stafa-Zurich, Switzerland

Advanced materials research Vol. 41-42 (Apr. 2008), p. 445-448

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ISSN: 1662-8985

Source: Scientific.Net: Materials Science & Technology / Trans Tech Publications Archiv 1984-2008

Topics: Mechanical Engineering, Materials Science, Production Engineering, Mining and Metallurgy, Traffic Engineering, Precision Mechanics

Notes: The postbuckling behavior and progressive failure of thin-walled box-shape compositebeams (BSCBs) have been studied using a simplified composite panel model. It is shown that thecarrying capacity of BSCBs under bending and torsion mainly depends on the postbuckling andprogressive failure of panels. It is often necessary to identify and follow secondary buckling oftailored panels for correct estimation of carrying capacity. The failure process of stiffenedcomposite panels is simulated in following path. The criterion of local failure in flange of stiffenersis applied to predict the ultimate failure of stiffened composite panels and thin-walled BSCBs. Thecomparison of the modeling and test shows that the prediction of BSCBs failure is satisfactory

Type of Medium: Electronic Resource

URL: http://www.tib-hannover.de/fulltexts/2011/0528/01/40/transtech_doi~10.4028%252Fwww.scientific.net%252FAMR.41-42.445.pdf

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2

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Improved Damage Model of 2-D Delamination (2006)

Yang, Gang ; Zhang, Ai Feng ; Hu, Wei Ping ; [et al.]

s.l. ; Stafa-Zurich, Switzerland

Key engineering materials Vol. 324-325 (Nov. 2006), p. 439-442

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ISSN: 1013-9826

Source: Scientific.Net: Materials Science & Technology / Trans Tech Publications Archiv 1984-2008

Topics: Mechanical Engineering, Materials Science, Production Engineering, Mining and Metallurgy, Traffic Engineering, Precision Mechanics

Notes: This paper proposes an improved damage model and derives the shear correction factorsfor the model based on the Whitney[1] method. As the model is mainly used in the delamination front,the overly strong assumptions for geometric deformation in this region may be relaxed so that morerealistic displacement fields can be established

Type of Medium: Electronic Resource

URL: http://www.tib-hannover.de/fulltexts/2011/0528/01/52/transtech_doi~10.4028%252Fwww.scientific.net%252FKEM.324-325.439.pdf

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3

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Study on Interlaminar Shear and Damage Behavior of Carbon Fiber Composites with Short Fiber Interleaves: 2. Micro-Mechanical Simulation (2008)

Zhao, Li Jun ; Zhang, Feng Peng ; Hu, Xiao Zhi ; [et al.]

s.l. ; Stafa-Zurich, Switzerland

Advanced materials research Vol. 41-42 (Apr. 2008), p. 341-347

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ISSN: 1662-8985

Source: Scientific.Net: Materials Science & Technology / Trans Tech Publications Archiv 1984-2008

Topics: Mechanical Engineering, Materials Science, Production Engineering, Mining and Metallurgy, Traffic Engineering, Precision Mechanics

Notes: A micro-mechanical model and simulation for the damage behavior of short fiberinterleaves (SFIs) were developed based on Mori-Tanaka method and an equivalent approach tointerface debonding (Fitoussi etc 1990). The damage evolution and the stress-strain relation of SFIshave been predicted in the cases of interlaminar shear, out-of and in-plane tension, respectively. Thesimulation indicates that the damage always starts from the interface debonding of fibersperpendicular to load and the matrix cracking in the direction parallel to fibers, and then rapidlyspreads to more fibers during loading. The strength and the ultimate strain in out-of-plane tensionare much lower than that in interlaminar shear and in-pane tension. The strength and failureprobability of interface bonding are the most considerable factors to affect the damage and failure ofSFIs. The comparison of the simulation with the interlaminar shear test shows a good agreement

Type of Medium: Electronic Resource

URL: http://www.tib-hannover.de/fulltexts/2011/0528/01/40/transtech_doi~10.4028%252Fwww.scientific.net%252FAMR.41-42.341.pdf

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4

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Study on Interlaminar Shear and Damage Behavior of Carbon Fiber Composites with Short Fiber Interleaves: 1. The Comparative Test (2008)

Zhao, Li Jun ; Zhang, Feng Peng ; Hu, Xiao Zhi ; [et al.]

s.l. ; Stafa-Zurich, Switzerland

Advanced materials research Vol. 41-42 (Apr. 2008), p. 335-340

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ISSN: 1662-8985

Source: Scientific.Net: Materials Science & Technology / Trans Tech Publications Archiv 1984-2008

Topics: Mechanical Engineering, Materials Science, Production Engineering, Mining and Metallurgy, Traffic Engineering, Precision Mechanics

Notes: A special test setup was designed and used in compression shear test of unidirectionalcarbon fiber composites to study the effect of short fiber interleaves (SFIs) on the interlaminar shearbehavior. The comparative tests for two kinds of double-notched compression specimens, with andwithout SFIs, were carried out to determine the interlaminar shear strength and modulus (ILSS andILSM) and to examine the failure characteristics. To determine ILSM of the specimens with SFIs aninversion analysis method was proposed based on comparing compression displacement ofspecimens with and without SFIs. The experimental results show that SFIs makes ILSS decreasingdue to lower interface strength, and the complex damage process of SFIs leads to a considerableincrease of interlaminar shear compliance

Type of Medium: Electronic Resource

URL: http://www.tib-hannover.de/fulltexts/2011/0528/01/40/transtech_doi~10.4028%252Fwww.scientific.net%252FAMR.41-42.335.pdf

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A quasi-conforming triangular laminated composite shell element based on a refined first-order theory (1994)

Huang, Bao-Zong ; Shenoy, Vijay B. ; Atluri, S. N.

Springer

Computational mechanics 13 (1994), S. 295-314

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ISSN: 1432-0924

Source: Springer Online Journal Archives 1860-2000

Topics: Mechanical Engineering, Materials Science, Production Engineering, Mining and Metallurgy, Traffic Engineering, Precision Mechanics

Notes: Abstract A “quasi-conforming” triangular laminated shell element based on a refined first-order shear deformation theory is presented. The Hu-Washizu variational principle, involving strain and displacement fields as variables, with stresses being considered as Lagrange multipliers, is used to develop the laminate composite shell element. Both strains and displacements are discretized in the element, while displacements alone are discretized at the boundary. The inter-element C 1 continuity is satisfied a posteriori in a weak form. Due to the importance of rotations and shear deformation in the geometrically non-linear analyses of shells, 7 degrees of freedom per node are chosen, viz. three displacements, two first-derivatives in the in-plane directions of the out-of-plane displacement, and two transverse shear strains at each node. To consider the effect of transverse shear deformation on the global behavior of the laminated composite shell, the Reissner-Mindlin first-order theory, with shear correction factors of Chow and Whitney, is adopted. The transverse shear stresses are obtained through the integration of the 3-D equilibrium equations; and the warping induced by transverse shear is considered in the calculation of the in-plane stresses to improve their accuracy. Numerical examples show that the element has good convergence properties and leads to highly accurate stresses.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00350231

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