As a new toughening method, rigid particle toughening calls scientist's attention.
作为一种新型的增韧方法,刚性粒子增韧已经越来越受到人们的关注。
The properties of rigid particle filled polymers, glass bead-filled polypropylene with different interfacial designs are studied through experiments.
本文针对玻璃微珠填充聚丙烯这一刚性粒子填充聚合物复合体系进行了实验研究。
This paper reviews the reason and mechanism of polymer toughened by rigid particle and stresses on the mechanism of plastic deformation and crystalline shape change.
综述了刚性粒子增韧聚合物的由来及增韧机理。重点介绍了塑性形变理论及晶型转变理论。
The result of the discussion shows that the appearance of inorganic nano-scale particle would accelerate the application of inorganic rigid particle in toughening plastic.
通过讨论得出结论,无机纳米粒子的出现,将会大大促进无机刚性粒子在塑料增韧方面的应用。
The title synthetic technology of supermicro polystyrene(PS) rigid particles has been studied. The particle size and distribution is characterized by using laser particle size tester.
研究了超微聚苯乙烯(PS)有机刚性粒子的合成工艺,采用激光粒径分析仪对合成PS有机刚性粒子的粒径及其分布进行了表征;
Further topics include kinematics, particle dynamics, motion relative to accelerated reference frames, work and energy, impulse and momentum, systems of particles and rigid body dynamics.
更进一步探讨运动学,质点动力学,于加速座标系上之运动行为,功,能量,冲量,动量和质点系统与刚体动力学。
The plane linkage was generalized to a root-face hybrid system that composes of a planar particle system and a planar rigid body system.
根据平面连杆机构的组成特点,将平面连杆机构抽象成由平面质点系和平面刚体系组成的一个有根平面混合系统。
In this paper, the effects of reinforcing and toughening of rigid nano-particle on RPVC and the synergistic effect of nanoparticle with CPE were studied.
本文研究了纳米粒子对RPVC的增韧增强效果及纳米粒子和CPE的协同改性效果。
The three-dimensional particle-wall collision mathematical models were founded in the light of the kinetic of rigid and the momentum conservation law, and the effects of wall on the f.
文中根据刚体动力学及动量守恒定理,建立起颗粒–壁面碰撞三维数学模型,并采用此三维数学模型研究了壁面约束效应对细长颗粒流化特性的影响。
You can completely control particle systems. You can add and remove points on point clouds. You can move points directly or apply a simulation using particle or rigid body behavior.
利用ICE系统你可以彻底的控制粒子系统,你能添加或者移除点云中的某个粒子,你能径直控制粒子群中的某个点,能使用粒子做仿真模拟或者控制柔体行为。
You can completely control particle systems. You can add and remove points on point clouds. You can move points directly or apply a simulation using particle or rigid body behavior.
利用ICE系统你可以彻底的控制粒子系统,你能添加或者移除点云中的某个粒子,你能径直控制粒子群中的某个点,能使用粒子做仿真模拟或者控制柔体行为。
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