Zijun Lin scite author profile

Under a given microwave curing process, different curing pressures were applied to the carbon fiber–reinforced epoxy resin pre-impregnated laminates. Nondestructive testing and microscopic analysis were used to assess the effect of curing pressure on the interlaminar shear strength (ILSS) of the carbon fiber–reinforced plastic (CFRP) laminates. Results showed that in the low curing pressure stage (below 0.4 MPa), the porosity and ILSS of the components were reduced substantially as the curing pressure increased. In the high curing pressure stage (above 0.4 MPa), the ILSS only increased by 2.2% or so and the porosity and ILSS were no longer sensitive to the pressure, which indicated there was a threshold value (0.4 MPa) of mechanical property for forming the CFRP by the microwave curing. Above the threshold value, the curing pressure should be sufficient to allow the volatile gases to dissolve in the resin, thereby eliminating the generation of voids fundamentally, and the effect of curing pressure on the quality of composites was becoming small. These results could give process engineers some basic references for eliminating the voids in the CFRP component, so that they could reach a balance between preserving the mechanical properties and reducing the curing pressure in a cost-effective way.

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Atomic structures and electronic properties of interfaces between aluminum and carbides/nitrides: A first-principles study

Lin

Peng

et al. 2017

Physica E: Low-dimensional Systems and Nanostructures

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Atomic structure, electronic properties and generalized stacking fault energy of diamond/c-BN multilayer

et al. 2017

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Zijun Lin

Molecular dynamics simulation of plasticity in VN(001) crystals under nanoindentation with a spherical indenter

Nanoindentation of ultra-hard cBN films: A molecular dynamics study

Effect of cure pressure on microstructure and interlaminar shear strength properties of carbon fiber–reinforced plastics with microwave curing

Atomic structures and electronic properties of interfaces between aluminum and carbides/nitrides: A first-principles study

Atomic structure, electronic properties and generalized stacking fault energy of diamond/c-BN multilayer

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