1) inorganic particle in weak interface
弱界面无机粒子
2) inorganic particle
无机粒子
1.
Effect of an inorganic particle content on PET chip crystallization;
无机粒子含量对聚酯切片结晶性能的影响
2.
Study on adsorbability of PP/inorganic particle composite fiber;
PP/无机粒子复合纤维吸附性能的研究
3.
On the basis of phase-inversion by means of immersion precipitation,Polyurethane(PU) blend membranes were prepared by introduction of inorganic particle into PU matrix.
通过在聚氨酯膜中引入无机粒子,利用相转化湿法成膜机理,制得了一系列不同粒子含量的聚氨酯共混平板膜。
3) Inorganic particles
无机粒子
1.
Research progress and preparation of PS/inorganic particles(core/shell) composite microspheres
聚苯乙烯/无机粒子(核/壳)复合微球的制备与研究进展
2.
The preparation methods of the ultrafiltration membranes were classified according to both phase separation and introduction of inorganic particles.
根据相分离方式和引入无机粒子的方式归纳了这类超滤膜的制备方法。
3.
The surface property of inorganic particles is modified by the coupling agent before they are added into the ABS resin.
用硅烷偶联剂将几种常用的无机粒子进行表面处理后与ABS进行共混。
4) organic/inorganic interfaces
有机/无机界面
1.
Imitating the mechanism of biomineralization,and taking advantage of self-assembly principle,organic/inorganic interfaces layered composite materials with outstanding properties and hierarchical structures through the use of biomimetic synthesis are fabricated.
模仿生物矿化的形成机制,利用自组装原理能够仿生合成出性能优良和具有多级结构特点的有机/无机界面层状复合材料。
5) organic-inorganic interface
有机-无机界面
6) weak interface
弱界面
1.
Research progress in machanible ceramics with weak interfaces in microstructure and materials design;
可加工陶瓷的弱界面结构特征及其研究进展
2.
The failure process and mechanism of a brittle composite matrix,reinforced with long fibers with weak interface,is studied.
研究了弱界面长纤维增强脆性基复合材料在单轴拉伸荷载下的力学性能及其破裂机理和破坏过程。
3.
The special stepped and multi-layered fracture of CePO_4, toge-(ther) with the network structure of intercalated distributional strong-weak interface forming with the addition of CePO_4 which can yield and capture micro-defect, dissipate energy of primary c.
针对工程陶瓷材料本征脆性问题,作者从应力 应变曲线、压痕及压痕尖端的裂纹扩展等方面探讨了可加工Ce ZrO2/CePO4材料的"塑性化",并从显微结构入手,研究了使这种材料产生"塑性化"的机理,即除CePO4本身具有一定的台阶和层片状断裂外,主要由于CePO4的引入出现了强弱界面共同存在的网络结构,弱界面可以产生和捕获微观缺陷,耗散主裂纹扩展能量,导致局部的剪切变形,从而赋予陶瓷"塑性"。
补充资料:弱界面层理论
分子式:
CAS号:
性质:该理论由Bikerman提出,认为当被粘物、胶黏剂及环境中的低分子物或杂质,通过渗析、吸附及聚集过程,在部分或全部界面内产生,这些低分子物富集区,就是弱界面层。当受外力作用时,破坏过程必然发生在弱界面层。
CAS号:
性质:该理论由Bikerman提出,认为当被粘物、胶黏剂及环境中的低分子物或杂质,通过渗析、吸附及聚集过程,在部分或全部界面内产生,这些低分子物富集区,就是弱界面层。当受外力作用时,破坏过程必然发生在弱界面层。
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