1) cold load design
冷态吊零
1.
The paper provided result about basic analysis such as hot load design,cold load design and several spring selected methods.
考虑到热态吊零、冷态吊零以及各种弹簧选取方式,探讨了AutoPSA弹簧设计的基本功能。
2.
The result show that there are lower stress of SUS case and OPE case by cold load design method than by hot load design method.
结果表明,冷态吊零比热态吊零具有更小的OPE运行应力和SUS持续应力;一次应力计算获得的弹簧载荷整定值约比准确值低6%;使用两次应力计算可获得精确的弹簧整定值;一次计算加上支吊架零部件重量再重新计算弹簧也能获得比较准确的整定值。
3.
The result about basic analysis such as hot load design,cold load design and several spring selected methods are provided.
考虑到热态吊零、冷态吊零以及各种弹簧选取方式,探讨了AutoPSA弹簧设计的基本功能。
2) hot load design
热态吊零
1.
The paper provided result about basic analysis such as hot load design,cold load design and several spring selected methods.
考虑到热态吊零、冷态吊零以及各种弹簧选取方式,探讨了AutoPSA弹簧设计的基本功能。
2.
The result show that there are lower stress of SUS case and OPE case by cold load design method than by hot load design method.
结果表明,冷态吊零比热态吊零具有更小的OPE运行应力和SUS持续应力;一次应力计算获得的弹簧载荷整定值约比准确值低6%;使用两次应力计算可获得精确的弹簧整定值;一次计算加上支吊架零部件重量再重新计算弹簧也能获得比较准确的整定值。
3.
The result about basic analysis such as hot load design,cold load design and several spring selected methods are provided.
考虑到热态吊零、冷态吊零以及各种弹簧选取方式,探讨了AutoPSA弹簧设计的基本功能。
3) cold state zero adjustment
冷态调零
4) cold load
冷态负荷(管道支吊架)
5) cooling ceiling
冷却吊顶
1.
Analysis of applicability of cooling ceiling air-conditioning system;
冷却吊顶空调系统的适用性分析
2.
Influence of cooling ceiling water supply mode on operation energy consumption;
冷却吊顶供水方式对系统运行能耗的影响
3.
Prediction analysis of cooling ceiling system applying in our country;
冷却吊顶空调系统在我国应用的预测分析
6) chilled ceiling
冷吊顶
1.
The superiority of chilled ceiling includes providing better thermal comfort, lower energy consumption andoperation cost.
冷吊顶技术是一种节能的空调新技术。
2.
Several air terminal devices of radiant cooling system were introduced,chilled ceiling,radiant floor cooling,capillary tube sheet were compaired according to cooling ability,thermal comfort,energy consumption and expense and so on.
介绍几种辐射供冷空调的末端形式,比较冷吊顶、楼板辐射供冷、毛细管席的供冷能力、热舒适性、能耗及投资等方面的不同,并建议完善辐射供冷系统试验研究方法,着重进行拥有自主产权产品的制造工艺的研究。
补充资料:冷态模型试验
分子式:
分子量:
CAS号:
性质:见冷模试验。
分子量:
CAS号:
性质:见冷模试验。
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