1) synergistic toughening and strengthening mechanism
协同增韧补强机理
2) toughening and strengthening mechanism
增韧补强机理
1.
In this paper,toughening and strengthening mechanisms of nano-composite ceramics are introduced,the main factors affecting the mechanical properties of the nano-scale ceramic composites are discussed.
本文介绍纳米复相陶瓷的增韧补强机理;对研制高性能纳米陶瓷刀具材料需考虑的主要因素进行了探讨。
2.
Toughening and strengthening mechanisms of nano-composite ceramics were introduced,the main factors affecting the mechanical properties of the nano-scale ceramic composites were discussed.
介绍了纳米复相陶瓷的增韧补强机理;对研制高性能纳米陶瓷刀具材料需考虑的主要因素进行了探讨。
3) self-toughening and strengthening mechanism
自增韧补强机理
1.
Aimed at the difficult problems of the lower fracture toughness and flexural strength of ceramic tools, the self-toughening and strengthening mechanisms of Si_3N_4 ceramics and the toughening and strengthening mechanisms of nano-scale composites were used to successfully develop the advanced self-toughening Si_3N_4 matrix nanocomposite ceramic tool materials.
本文针对目前陶瓷刀具断裂韧度和抗弯强度低的难题,利用氮化硅材料的自增韧补强机理和纳米材料增韧补强机理,成功地研制出了新型自增韧氮化硅基纳米复合陶瓷刀具材料,并对纳米复合粉体分散技术、刀具材料组分配比、烧结工艺、力学性能、微观结构、烧结机理、增韧补强机理、抗氧化机理和切削性能进行了系统深入的研究。
4) synergism toughening mechanisms
协同增韧机理
5) synergistic reinforcing and toughening
协同增强增韧
1.
NR-g-(GMA-co-St)/nano-SiO_2 synergistic reinforcing and toughening PVC
NR-g-(GMA-co-St)与nano-SiO_2协同增强增韧PVC的研究
补充资料:氧化锆相变增韧陶瓷
分子式:
CAS号:
性质:一种利用氧化锆马氏体相变效应来改善脆性的陶瓷。氧化锆在由四方相向单斜相转变时(即马氏体相变),伴随体积和形状变化。能吸收能量,减缓裂纹尖端的应力集中,阻止裂纹扩展,从而提高材料韧性,包括应力诱导相变增韧、裂纹弯曲增韧和微裂纹增韧。分为稳定氧化锆陶瓷(PSZ)、四方氧化锆多晶体陶瓷(TZP)和氧化锆增韧陶瓷(ZTC)三种。用于增强陶瓷基和金属基复合材料韧性。
CAS号:
性质:一种利用氧化锆马氏体相变效应来改善脆性的陶瓷。氧化锆在由四方相向单斜相转变时(即马氏体相变),伴随体积和形状变化。能吸收能量,减缓裂纹尖端的应力集中,阻止裂纹扩展,从而提高材料韧性,包括应力诱导相变增韧、裂纹弯曲增韧和微裂纹增韧。分为稳定氧化锆陶瓷(PSZ)、四方氧化锆多晶体陶瓷(TZP)和氧化锆增韧陶瓷(ZTC)三种。用于增强陶瓷基和金属基复合材料韧性。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条