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As a success to challenge the brittleness of titanium matrix composites (TMCs) fabricated by powder metallurgy (PM), both the ductility and the strength have been significantly improved by tailoring a novel network reinforcement distribution.
In situ TiB-whisker-reinforced Ti6Al4V matrix composites with a quasi-continuous network reinforcement distribution exhibited an improved combination of room temperature tensile properties compared to the composites with a uniform reinforcement distribution.
The paper proposes a new measure of irregular reinforcement distribution expressed as an area ratio of the matrix surrounding the single fiber to the circuit of the fiber.
In addition, the reinforcement distribution presents a quasi-continuous chain microstructure in Ti3Al matrix composite sheet.
The Ti3Al matrix composite sheet with a novel quasi-continuous chain reinforcement distribution was prepared by using roll bonding and subsequent reaction annealing with pure Ti and SiCp/Al foils.
The quadratic NURBS basis functions smoothly define the reinforcement distribution function as a NURBS surface.
For this purpose, a Non-Uniform Rational B-spline (NURBS) based reinforcement distribution optimizer is developed.
The effect of reinforcement distribution on billet temperature variation is investigated with calculated solid fraction theory proposed as a function of matrix alloy and volume fraction of reinforcement.
The prospect of combining laminated structure design and tailored reinforcement distribution to toughen brittle materials is investigated.
In this review, a range of uniquely multi-scale hierarchical structures have been successfully designed and fabricated by tailoring reinforcement distribution for DMMCs in order to obtain superior performance.
Also, significant difference in optimal reinforcement distribution for the cases of linear and nonlinear analysis results proves the importance of the influence of realistic nonlinear material properties on the final outcome.
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CEO of Professional Science Editing for Scientists @ prosciediting.com