1) C-type body-tie structure
C型体接触
1.
The used technologies are N_2O annealed H_2-O_2 grown dielectric for the front gate hardness, high doping of the body region to increase the back gate threshold voltage, and a C-type body-tie structure to eliminate the lateral MOS transistor.
在商用 SIMOX衬底上制备了抗辐照 NMOSFETs,使用的主要技术手段有 :氮化 H2 -O2 合成栅介质加固正栅 ;增加体区掺杂 ,以提高背栅阈值电压 ;采用 C型体接触结构 ,消除边缘寄生晶体管。
2) contact rock mass fissure
接触型岩体裂隙
3) point junction transistor
点接触型晶体管
4) Γ-C° contact equivalence
Γ-C°接触等价
5) C0 contact equivalence
C~0接触等价
6) contact model
接触模型
1.
Two contact models,the classical Coulomb contact model and the modified Coulomb contact model,are used in a fully coupled thermo-mechanical numerical model of friction stir welding, and the suitabilities of the two models to simulate the welding process are analyzed.
在完全热力耦合搅拌摩擦焊接数值模型中采用两种接触模型——经典的Coulomb接触模型和修正的Coulomb接触模型,模拟了搅拌摩擦焊接过程,以分析不同接触模型对搅拌摩擦焊接过程数值模拟的影响。
2.
Based on the first-order shear deformation theory of the composite laminated plate,an FEA model and the method of free vibration analysis for the composite laminates with multiple through-width delaminations were developed,and a linearity contact model was established to simulate the interaction between upper and lower sub-laminates along the delaminated region during the vibration process.
基于Mindlin一阶剪切理论分项等参插值的有限元法,建立了含多个分层损伤复合材料层合板自由振动分析的有限元模型和分析方法,并采用线性接触模型模拟分层区域上、下子板的相互作用。
3.
Fractal surface was introduced into the average flow model and effect of elastic-plastic contact deformation of fractal surfaces on the flow factors and contact factor were analyzed based on the M-B fractal contact model for partial film lubrication.
在M-B分形接触模型的基础上,利用引入接触因子的平均流动模型,分别计算在考虑和不考虑分形表面接触峰变形情况下的流量因子和接触因子,研究分形表面接触变形对润滑状态的影响。
补充资料:接触型胶黏剂
分子式:
CAS号:
性质:涂于两个被粘物表面,经晾干叠合在一起,无需保持压力即可形成具有胶接强度的胶黏剂,如天然橡胶、氯丁橡胶、丁腈橡胶等橡胶的溶剂型胶黏剂。胶涂于被粘体,随溶剂挥发,胶层的黏性逐渐减少而凝聚力逐渐增加,必须在一定的晾置时间内叠合,才能达到预期的粘接强度。
CAS号:
性质:涂于两个被粘物表面,经晾干叠合在一起,无需保持压力即可形成具有胶接强度的胶黏剂,如天然橡胶、氯丁橡胶、丁腈橡胶等橡胶的溶剂型胶黏剂。胶涂于被粘体,随溶剂挥发,胶层的黏性逐渐减少而凝聚力逐渐增加,必须在一定的晾置时间内叠合,才能达到预期的粘接强度。
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