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1)  sealing pressure ratio
密封压比
1.
The experimental results show that this FADW device can attain a high sealing pressure ratio P R>20, with the highest being 28 under the designing conditions, and that the FADW has a good starting property and little influence on the optical quality.
研究表明,此气动窗口在其工作范围内,密封压比PR(环境大气压PAMB/密封腔压PC)> 20, 最大可达到28;而且该气动窗口具有良好的启动性能和对光束质量影响小的特点。
2)  seal pressure
密封比压
1.
Using the finite element ANSYS WorkBench,the ball valve\'s seal face is analyzed and give the distributing law of the seal pressure,and compare the different and similar between the theories value and an analytical value,so can estimate the performance of the ball valve.
以ANSYS WorkBench有限元分析软件为工具,对球阀密封面进行分析并得出密封比压的分布规律,同时比较了理论值与有限元分析值之间的差异,可以更好地评价球阀的密封性能。
3)  labyrinth pressire ratio
迷宫式密封压力比
4)  high-pressure seal
高压密封
1.
The design of D-shape shearing bolts in high-pressure sealing structure was discussed and compared with the design of tensile bolt and general shearing bolt.
比较了两种主要的螺栓———法兰连接结构-主螺栓连接和抗剪螺栓连接在结构方面的特点;提出了一种新开发设计的D形抗剪螺栓结构;探讨了高压密封结构中D形抗剪螺栓的设计,并与普通拉伸螺栓、一般抗剪螺栓的设计进行了比较。
5)  sealing pressure
密封压力
1.
Results show that Kalsi seal has good characteristics such as high sealing pressure,low wear,steady.
结果表明:Kalsi密封结构的“唇部”构造,使密封具备密封压力高、磨损低、扭矩稳定和润滑好等特点;Kalsi密封内接触面从流体动力密封边界一端向外缘,轴向压力呈递增趋势,在“唇部”的波峰(谷)位置应力发生突变至最大值,说明“唇部”动压密封是Kalsi密封的主要表现形式;在相同工况下,Kalsi密封最大密封压力是普通O形密封压力的1。
2.
The packing material with high temperature resistance to 500 ℃ was prepared by taking silicone resin as basic material,powdered aluminum and mica powder as filler,which could endure 500 ℃×36 h ageing process and had sealing pressure greater than or equal to 1 0 MPa.
以有机硅树脂为基料 ,铝粉和云母粉为填料 ,制备了耐 5 0 0℃高温的密封材料 ;该材料经 5 0 0℃× 36h老化实验后 ,密封压力≥ 1 0MPa。
3.
Studies the sealing pressure of the new sealing ring using magnetic fluid establishes the relationships between sealing pressure and width, length of magnetic pole, and sealing clearance, concludes that new type sealing ring has a smaller size and better sealing properties, and compare.
利用磁流体作为密封介质设计了新型径向磁极磁流体密封圈 ,介绍了该密封圈的结构及工作原理 ;给出了耐压能力的数学模型 ,并通过密封间隙中磁场的有限元分析及磁流体流场的分析 ,对该密封圈进行了特性分析 ;给出了密封压力与密封圈磁极长度、磁极宽度和密封间隙三个设计参数之间的变化关系 ,并给出了新型径向磁极密封圈和轴向磁极密封圈的设计比较 。
6)  high pressure sealing
高压密封
1.
Deformation compensation was proved to be a valid way to solve the problem of high pressure sealing.
试验结果表明,变形补偿是解决柱塞偶件超高压密封的有效途径;其中方案E偶件满足超高压下对密封性的要求,共轨压力为150 MPa时,高压泵容积效率可达88。
补充资料:比浓渗透压
分子式:
CAS号:

性质: 溶液渗透压(π)与溶液浓度(c)的比值。渗透压是溶液依数性的一种,渗透压法可用于测定分子量2万以上聚合物的数均分子量及研究聚合物溶液中分子间相互作用情况。理想溶液的比浓渗透压可根据范特霍夫定律表示为。式中M是溶质的分子质量。对于非理想溶液:>。从实验结果可知,比浓渗透压π/c随c而变化,当,式中是聚合物的数均分子量;是无限稀释时,比浓渗透压服从范特霍夫定律,可当作理想溶液处理。

说明:补充资料仅用于学习参考,请勿用于其它任何用途。
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