Microstructure and mechanical properties of Ni matrix B4C reinforced functionally graded composites

Phyllosilicate mineral pyrophyllite is predominantly used in the ceramic industry because it exhibits high refractoriness. Due to its thermal transformation into mullite, pyrophyllite is stable at elevated temperatures, making it a suitable mineral additive for refractory non-shaped materials and various ceramic shaped products. In this study, pyrophyllite is employed as 50 % clay replacement in the ceramics and up to 30 % cement replacement in mortars. Physico-mechanical properties were investigated. The firing shrinkage in the ceramics treated at 1200?C was reduced by pyrophyllite addition. Pyrophyllite acted as additional pozzolana during cement hydration. Within the microstructure, it formed micro-reinforcement in the shape of crystalline folia, which improves the mechanical properties of ordinary Portland cement, high aluminate cement, and blended cement mortars. The investigation proved the efficiency and suitability of pyrophyllite employed as a substitution for clay in ceramics and a cement replacement in mortars.

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Microstructure and mechanical properties of Ni matrix B4C reinforced functionally graded composites

Cited by 6 publications

References 13 publications

The influence of spark plasma sintering on multiscale mechanical properties of nickel-based composite materials

The influence of spark plasma sintering on multiscale mechanical properties of nickel-based composite materials

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Application of pyrophyllite in high-temperature treated building materials

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