Hiroshi Suemasu scite author profile

This paper describes a damage accumulation mechanism in cross-ply CFRP laminates [0 2 /90 2 ] 2S subjected to out-of-plane loading. Drop-weight impact and static indentation tests were carried out, and induced damage was observed by ultrasonic C-scan and an optical microscope. Both tests gave essentially the same results for damage modes, sizes, and load-deformation history. First, a crack occurred in the bottom 0 • layer accompanying some delamination along the crack caused by bending stress. Then, transverse cracks occurred in the middle 90 • layer with decreasing contact force between the specimen and the indenter. Measured local strains near the impact point showed that the stress state changed from a bending dominant state to an in-plane tensile dominant state. A cohesive interface element was used to simulate the propagation of multiple delaminations and transverse cracks under static indentation. Two types of analytical models are considered, one with multiple delaminations and the other with both multiple delaminations and transverse cracks. The damage obtained for the model with only multiple delaminations was quite different from that obtained from the experiment. However, the results obtained from the model with both delaminations and transverse cracks well explain the characteristics of the damage obtained in the experiment. The existence of the transverse cracks is essential to form the characteristic impact damage.

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A numerical study on compressive behavior of composite plates with multiple circular delaminations considering delamination propagation

Suemasu

Sasaki

Ishikawa

et al. 2008

Composites Science and Technology

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Multiple Delaminations and their Severity in Circular Axisymmetric Plates Subjected to Transverse Loading

Suemasu

Majima

1996

Journal of Composite Materials

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Instability problem of multiple penny-shape interlaminar delaminations in circular axisymmetric plates subjected to a transverse concentrated loading is theoretically studied. The authors consider a case that all the delaminations located at the same intervals have a same size and propagate simultaneously. Then, they consider two cases that one of the delaminations is larger or smaller than the rest. The energy release rates are obtained in closed forms and the results are compared with those obtained numerically via a finite element analysis. The present solutions agree excellently with the finite element results. When the load is constant, the energy release rate is constant regardless of the size of the delaminations and increases linearly with the number of the delaminations. When one of the delamination is larger or smaller than the others, the energy release rate of the shorter delamination or delaminations become much larger than that of the longer delamination(s), that is, only the smaller delamination(s) tends to propagate until it grows up to the size of the larger delamination(s). Multiple delaminations, if they exist, have a tendency to grow self-similar way.

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Effects of Multiple Delaminations on Compressive Buckling Behaviors of Composite Panels

Suemasu

1993

Journal of Composite Materials

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Compressive buckling stability of composite panels with through-width, equally spaced multiple delaminations are investigated analytically and experimentally. An analytical method is formulated on the basis of Rayleigh-Ritz approximation technique. Timoshenko type shear effects are included. An experiment and a finite element analysis are also conducted on the present model. The analytical results agree very well with the experimental and finite element results. The buckling load, which is the compressive strength of the panel in the case of the present model, reduces significantly due to the existence of multiple delaminations. The mechanism causing the significant loss of the compressive buckling load due to the delaminations is well explained.

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Hiroshi Suemasu

On failure mechanisms of composite laminates with an open hole subjected to compressive load

Damage propagation in CFRP laminates subjected to low velocity impact and static indentation

A numerical study on compressive behavior of composite plates with multiple circular delaminations considering delamination propagation

Multiple Delaminations and their Severity in Circular Axisymmetric Plates Subjected to Transverse Loading

Effects of Multiple Delaminations on Compressive Buckling Behaviors of Composite Panels

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