Study on microstructure and tensile properties of in situ fiber reinforced aluminum matrix composites

## Abstract The morphology and tensile behavior of an __in situ__ hybrid composite system, based on E‐glass‐fibers, liquid‐crystalline polymers, and Noryl (a modified polyphenylene ether/polystyrene blend) with a hierarchical microstructure containing reinforcements with an order‐of‐magnitude diffe

The effects of systematic changes in reinforcement size and matrix microstructure on the crack initiation and growth toughness of a 7091 aluminum alloy reinforced with SiC particulates were studied. It is shown that changes in matrix microstructure have a significant effect on both initiation and gr

The use of aluminum as matrix material for continuous fiber reinforced composites has been investigated for over 20 years, with varying degree of success: industrial applications of these materials remain very limited. This paper describes the development of a practical method of producing near net

## Abstract Three types of surface modifiers, __N__‐β‐aminoethyl‐γ‐aminopropyltrimethoxysilane coupling agent (SGS), a mixture of silane and rare earth elements (SGS/RES), and rare earth elements surface modifier (RES), were used to treat the glass fiber surface. Tensile tests of glass fiber–reinfo