增韧补强机理,toughening and strengthening mechanism
1)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。
2)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, theself-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。
3)synergistic toughening and strengthening mechanism协同增韧补强机理
4)reinforcement and toughness增韧补强
英文短句/例句
1.Sintering kinetics and mechanisms of alumina matrix ceramic materials toughened by diopside and AlTiB透辉石/AlTiB增韧补强氧化铝基陶瓷材料烧结动力学和烧结机制
2.Fabrication of Diopside/AlTiB Toughened and Reinforced Alumina Matrix Structural Ceramic Materials by Non-pressure Sintering Process无压烧结制备透辉石/AlTiB增韧补强氧化铝基结构陶瓷材料
3.Fabrication of diopside toughened alumina matrix structural ceramic materials by pressureless sintering process无压烧结制备透辉石增韧补强氧化铝基结构陶瓷材料
4.Study on PP Toughened and Reinforced with Nano-SiO_2;纳米SiO_2增韧增强聚丙烯的研究
5.Study on Capacity and Ductility of FRP Confined Concrete Columns;FRP约束混凝土柱的增强、增韧性能研究
6.Study on the Toughening and Strengthening Mechanisms of PP/UHMWPE Alloy;PP/UHMWPE共混合金增韧增强机理研究
7.Study on Reinforcing and Toughening of Nano-SiO_2 for PE Film纳米SiO_2在PE薄膜中增强增韧的研究
8.PVC Toughened with PU/Nano-CaCO_3 by Reaction Extrusion Technology反应挤出PU/纳米CaCO_3增强增韧PVC
9.RESEARCH DEVELOPMENT OF REINFORCING TOUGHENING MODIFICATION OF CYANATE ESTER RESIN氰酸酯树脂增强增韧改性的研究进展
10.STUDY ON PVC TOUGHENED WITH PUR/MMT BY REACTION EXTRUSION TECHNOLOGY反应挤出PUR/MMT增强增韧PVC材料研究
11.Surface-modified nanometer silica toughening and reinforcing polyvinylchloride表面修饰纳米SiO_2增强增韧聚氯乙烯
12.Strengthening and Toughening Mechanism of Steel Fiber Reinforced High-strength Concrete and Design Method Based on Toughness;钢纤维高强混凝土增强、增韧机理及基于韧性的设计方法研究
13.This exercise develops suppleness as opposed to strength.这项运动不是增强力量,而是增强柔韧性的。
14.Toughing of rubble in tyre is key to enhancing its strength of the interfaces of crystals.轮胎橡胶增韧的关键是要增强晶界之间的强度。
15.Toughened Cement Slurry for Repairing Casing Damage in Oil Wells of the Third Changqing Production Factory增韧水泥浆用于修补长庆油田采油三厂套损井
16.The magnesium borate whisker being a super property is a very good materials for reinforcement.硼酸镁晶须性能较优越,是很好的增强增韧材料,
17.Study on Polypropylene/M-EPDM and Mechanisms of Toughening and Reinforcing;聚丙烯/M-EPDM性能及增韧增强机理的研究
18.Study on the Properties of Thoughening and Strengthening of Polypropylene with Muscovite and Low Density Polyethylene;白云母、LDPE增强增韧PP复合材料性能的研究
相关短句/例句
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, theself-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。
3)synergistic toughening and strengthening mechanism协同增韧补强机理
4)reinforcement and toughness增韧补强
5)strengthening and toughening补强增韧
6)toughening and strengthening增韧补强
延伸阅读
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。