H. Ho scite author profile

A detailed evaluation of the suitability of the Iosipescu specimen tested in the modified Wyoming fixture is presented. A linear finite element model of the specimen is used to assess the uniformity of the shear stress field in the vicinity of the notch, and demonstrate the effect of the nonuniform stress field upon strain gage measurements used for the determination of composite shear moduli. Based upon test results from graphite epoxy laminates, the proximity of the load introduction point to the test section and the material orthotropy greatly influence the individual gage readings, however, shear modu lus determination is not significantly affected by the lack of pure shear. Correction factors are needed to allow for the nonuniformity of the strain field and the use of the average shear stress in the shear modulus evaluation. The correction factors are determined for the region occupied by the strain gage rosette. A comparison of the strain gage readings from one surface of a specimen with corresponding data from moire interferometry on the opposite face documented an extreme sensitivity of some fiber orientations to eccentric loading which induced twisting and spurious shear stress-strain curves. The discovery of specimen twisting explains the apparently inconsistent shear property data found in the literature. Recommendations for improving the reliability and accuracy of the shear modu lus values are made, and the implications for shear strength measurement discussed.

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Numerical analysis of the Iosipescu specimen for composite materials

Tsai

Morton

et al. 1993

Composites Science and Technology

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Development of a Finite Element Human Thorax Model for Impact Injury Studies

Deng¹,

Kong²,

Ho³

1999

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H. Ho

Mechanical behavior of various nanoparticle filled composites at low-velocity impact

Evaluation of interfacial mechanical properties of fiber reinforced composites using the microindentation method

An Evaluation of the Iosipescu Specimen for Composite Materials Shear Property Measurement

Numerical analysis of the Iosipescu specimen for composite materials

Development of a Finite Element Human Thorax Model for Impact Injury Studies

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