Effect of interphase layer on matrix cracking in fiber reinforced ceramic matrix composites
The onset of matrix steady-state cracking stands as a pivotal mechanical characteristic in
fiber reinforced ceramic matrix composites (FRCMCs), garnering substantial attention and …
fiber reinforced ceramic matrix composites (FRCMCs), garnering substantial attention and …
Investigation of friction and wear characteristics between modular charge and aluminum alloy for feeding process in artillery systems
Z Wang, L Qian, S Yi, L Yang, L Chen - Tribology International, 2025 - Elsevier
In modern artillery systems, frictional properties of modular charge significantly impact the
operation of artillery feeding system. In this study, Tribology performance between modular …
operation of artillery feeding system. In this study, Tribology performance between modular …
Preparation of Si3N4f/Si3N4 wave-transparent composites by vat photopolymerization combined with chemical vapor infiltration
X Wang, W Duan, S Li, B Liu, G Wang, F Chen - Additive Manufacturing, 2024 - Elsevier
The strategic combination of material selection, forming processes, and densification
techniques is crucial for optimizing the performance of wave-transparent materials in …
techniques is crucial for optimizing the performance of wave-transparent materials in …
[HTML][HTML] Predicting tensile behavior and strength of ceramic matrix composites: A micromechanism-based model incorporating interphase and Coulomb friction
To accurately predict the tensile stress–strain behavior of unidirectional fiber-reinforced
ceramic matrix composites (FRCMCs) considering interphase and Coulomb friction, this …
ceramic matrix composites (FRCMCs) considering interphase and Coulomb friction, this …
Comparative study of interfacial debonding mechanism of fiber pull-out in magnesium phosphate cementitious composites
This study aims to compare the difference of fiber pull-out behavior mechanism between
magnesium phosphate cement (MPC) and basalt fiber-reinforced-polymer-modified …
magnesium phosphate cement (MPC) and basalt fiber-reinforced-polymer-modified …
New insights into interface characterization of ceramic matrix composites: Theory and application of hysteresis loops with Coulomb friction
To better predict the stress–strain relationship during unloading/reloading cycles in
unidirectional fiber-reinforced ceramic matrix composites (FRCMCs), a comprehensive …
unidirectional fiber-reinforced ceramic matrix composites (FRCMCs), a comprehensive …
Effect of heat‐treatment on the microstructure and room‐temperature mechanical properties of alumina–silica fiber
M Chen, X Yang, H Qing‐zhuang… - … Journal of Applied …, 2025 - Wiley Online Library
Abstract Effect of heat‐treatment (900° C∼ 1600° C) on the microstructure and mechanical
properties of alumina–silica fiber was well investigated. The results indicated that the …
properties of alumina–silica fiber was well investigated. The results indicated that the …
Effects of BN and pyrolytic carbon interface materials on the microstructure and mechanical properties of B4C-SiCf ceramics
B Wang, X Zhao, J Zou, S Liu, X Zhang, Z Zhang… - Ceramics …, 2024 - Elsevier
The overall reinforcement in fiber-reinforced ceramics is affected by the high-temperature
stability of the fiber and stress transfer across the interface material. In this study, the …
stability of the fiber and stress transfer across the interface material. In this study, the …
The Friction And Wear Properties of Si3n4 Fiber Were Improved by Constructing Sheath-Core Si3n4@ Pom/Ptfe Yarn Structure
N Wu, S Liu, D Du, J Zhu, C Liu, D An, L Chen - Ptfe Yarn Structure - papers.ssrn.com
One of the major issues in performing 3D weaving with Si3N4 fiber lies in unavoidably being
subjected to wear damage. Hence, an innovative sheath-core Si3N4@ POM nanofiber/PTFE …
subjected to wear damage. Hence, an innovative sheath-core Si3N4@ POM nanofiber/PTFE …