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1)  conducting rigid inclusions
导电刚性包体
2)  rigid conductive material
刚性导电物质
3)  rigid conductive thin plate
刚性导电薄板
1.
Based on Maxwell\'s equations and the thermal conduction differential equation,a theoretical model for rigid conductive thin plate of induction-heating system under multi-pulse magnetic field was established with eddy current field and temperature field included.
针对处于多脉冲磁场下感应加热系统装置中的刚性导电薄板,基于麦克斯韦电磁场方程组及导热微分方程,建立了涡电流场和温度场的理论模型。
4)  Rigid guidance
刚体导引
1.
A computer numeric solution is obtianied using linkage rotation angle curve β( ) for rigid guidance of planar linkage mechanisms.
利用连杆转角曲线β()研究了平面连杆机构刚体导引的计算机数值解法。
5)  rigid-body guidance
刚体导引
1.
The Numerical Atlas Method for Geared 4-bar Mechanism of the Rigid-body Guidance;
利用数值图谱法进行齿轮四杆刚体导引机构的尺度综合
2.
We propose a method for synthesizing adjustable spatial RRSS mechanisms for rigid-body guidance and derive their synthesis equations link by link and task by task.
提出了可调节型空间RRSS机构刚体导引综合的方法,分杆组分任务独立求解导出了相应综合方程,其中R-R杆组综合时运用了共面和反位移原理,简化了求解的复杂度。
3.
Using the constraints of through settled point and alterable pole length and the application of displacement matrix method to the leader mechanism as a rigid-body guidance,this paper introduces the synthesis of carrying out the anticipative track and function generator and the synthesis method of function generator of alterable pole length-pendular hydraulic cylinder.
利用过定点约束及变杆长约束,介绍了用位移矩阵法进行导杆机构的刚体导引、实现预期轨迹和函数发生器综合及变杆长—摆动液压缸机构函数发生器的综合方法,并给出两个综合例子。
6)  rigid body guidance
刚体导引
1.
Based on the existing methods of mechanism s dimensional synthesis, equation groups for dimensional synthesis of rigid body guidance of the 4 bar mechanism were gotten by complex numbers method firstly, the solution to meet the request of design are obtained using the continuation method.
根据已有的连杆机构尺度综合方法 ,首先用复数法得到四杆机构的刚体导引综合方程组 ,再由连续法得到满足设计要求的精确解。
补充资料:刚性颗粒增强体
分子式:
CAS号:

性质:作为陶瓷基复合材料增强体的刚性颗粒,一般具有以下特点:(1)高模量、高硬度、高强度、高热稳定性及化学稳定性;(2)增强体与基体之间应有一定的结合度;(3)增强体的热膨胀系数比基体材料大,形成热膨胀系数失配,促使基体处于径向受张,切向受压的应力状态;(4)在一定的范围内,增强体的颗粒越大,复合材料的韧性可以提高但强度降低;(5)不同形貌的刚性颗粒增强体对于裂纹的偏折,桥联作用不同。刚性颗粒增强陶瓷基复合材料,比单相陶瓷具有更好的常温力学性能,比延性颗粒补强陶瓷基复合材料具有更好的高温力学性能。这类材料能够耐高温,高应力,是制造切削刀具,高速轴承和陶瓷发动机部件的优良候选材料。

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