1) compressed built up members
组合压杆
1.
The postbuckling load deflection function of compressed built up members is deduced.
以大挠度理论为基础,考虑剪切变形的影响,对压杆的稳定性进行了分析,推导得出了组合压杆屈曲后的挠度与荷载关系的函数表达式。
2) Sectional compression rod
组合式压杆
3) strut array
压杆组
1.
According to the structural characteristic of tensegrity elements,a concept of "compressed strut array" is proposed, and followed with a new formfinding method of tensegiry elements.
根据张拉整体单元的结构特性,提出了压杆组的概念,并引入了一种寻找新的张拉整体单元的方法,从理论上证明其可行性。
4) Screw Assemble
螺杆组合
1.
The effect of carbon fiber length distribution in the composite on its mechanical properties by optimizing screw assemble is studied and the wear behaviors are tested on a MM200 wear machine.
通过优化螺杆组合,研究了CFRPA复合材料中碳纤维的长度分布对其力学性能的影响,用MM—200磨损试验机测试了CFRPA复合材料的磨损性能。
5) screw configuration
螺杆组合
1.
The normal screw combination components of co-rotating twin screw extruder are presented,and the screw configuration is optimized.
介绍啮合同向双螺杆挤出机的常用螺杆组合元件并对螺杆组合进行优化,研究了不同螺杆组合和加料工艺对改性(丙烯腈/丁二烯/苯乙烯)共聚物(ABS)力学性能的影响,并设计出适合于改性ABS加工的螺杆组合及加料工艺。
2.
The effect of screw configuration on the dispersed particle size and its distribution in polymer blends prepared by co-rotating twin-screw extruder using different configurations was studied.
采用啮合同向双螺杆挤出机不同的螺杆组合形式,研究了熔融塑化区中捏合段数量对双螺杆挤出聚合物共混物表层和内层分散相粒子粒径及其分布的影响。
3.
The influence of screw configuration of melting section on the morphology changes of model polymer blends HOPE/PS in a co-rotating twin screw extruder was experimentally investigated.
研究了双螺杆熔融段不同螺杆组合对模型聚合物共混体系HDPE/PS相态变化的影响。
6) screw assemblies
组合螺杆
1.
Three-dimensional isothermal flows of polymer melt in the screw assemblies of a modular intermeshing co-rotating twin-screw extruder ZSK60 were simulated using the polymer flow analysis package POLYFLOW.
采用聚合物流动分析软件POLYFLOW,数值模拟了聚合物熔体在组合式啮合同向双螺杆挤出机ZSK60的组合螺杆中的三维等温流动。
补充资料:复盛螺杆式空压机用油气分离滤芯
压缩机进气除尘滤芯、油过滤芯、油气分离滤芯、进口压缩气体高效过滤器芯国产化、粉尘滤芯、高精度玻璃纤维烧结式滤管、含油尾净化设备,透平机尾气除油滤芯厨房油烟净化,房下水用油水分离器。化工填料:木业、抛光、粉碎、粉制剂行业的粉尘回收器、电火花,线切割等机床过滤滤芯、化工食品精油过滤器、神宝不锈钢微孔过滤器。各种气体、液体、粉尘等测试仪器,神宝在线监测设备滤芯,喷粉设备滤芯。各种压缩机油汽分离器滤芯。
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