原子氧 meaning in Chinese
atomic oxygen
elemental oxygen
Examples
- Study of erosion effects of silicone materials exposed to simulated atomic oxygen environment
原子氧环境对硅凝胶材料的侵蚀效应研究 - Standard practices for ground laboratory atomic oxygen interaction evaluation of materials for space applications
太空用材料的地面实验室原子氧交互评价的标准规程 - Then both kapton film and protective coating were exposured on the ground - based simulation facilities for ao to study the erosion behavior of kapton and protective film
然后在原子氧( atomicoxygen , ao )侵蚀地面模拟设备中对kapton薄膜以及防护膜进行原子氧侵蚀试验。 - Kapton is used extensively on spacecraft primarily as flexible substrates for lightweight , high - power solar arrays because of its inherent strength , temperature stability , excellent insulation properties , ultraviolet ( uv ) stability and infrared ( ir ) transparency . however , polymeric material undergoes severe degration after being exposured on atomic oxygen ( ao ) in low earth oribit ( leo )
聚合物kapton由于具有较高的比强度,优越的热稳定性、绝缘性、紫外线辐射稳定性及红外线穿透功能,是航天飞行器常用的材料,但由于空间环境中的原子氧对这种材料造成极大的损害,大大限制了这种材料在空间环境下服役时间。 - The mechanical environment is described in the paper and then the environments in three different orbits are proposed , called leo ( low earth orbits ) , meo ( medium earth orbit ) and geo ( geosynchronous earth orbits ) . the influence produced by the atomic oxygen , micrometeorites and debris , ionizing radiation and cold welding under vacuum is presented in the paper . some principles are proposed , which can be as the method to choose materials of the mechanism in space environment
空间环境中力学环境对可动结构的影响直接关系到机构的设计问题,所以本文第四章中岳建如:中文摘要浙江大学博士学位论文20024首先详细论述了空间环境中的力学环境,然后给出了空间环境的三种轨道环境划分,及每一种环境影响因素对空间可动结构设计的影响,包括原子氧、离子射线、温度、微陨石和碎片以及真空冷焊现象等环境因素,提出了材料选择的原则,为可动结构材料选择提供了一定的依据。