用模拟试验的方法检验飞行器在动力学环境 (冲击、振动、噪声等)下的功能和适应性。它不是模拟某一特定时刻航天器所经历的实际冲击、振动历程,而是对环境响应数据进行统计分析和包络而取得试验规范,作为环境试验的重要依据。 航天器的动力学环境是航天器在运输、装卸、起落、飞行、发射、分离、变轨、返回等过程中由环境诱导而产生的。
大型空间遥感器结构复杂、重量大,在研制过程中,给地面动力学环境试验工装的设计带来很大的困难。
Large space remote sensor's structure is very complex, and it's weight is heavy. In development process, the design of fixture is a difficult work.
组件乃至系统不仅须经历动力学环境试验的严格考核,而且还须在此基础上通过其它相关试验做进一步的测试。
The whole equipment as well as its subassemblies have to be not only strictly examined through dynamics environment experiments, but also should be tested by other relevant experiments.
动力学环境是空间光学遥感器及其组件研制中不可忽视的一个重要因素,因为它会对整机或组件造成结构性的破坏,所以在其研制的不同阶段须进行充分的动力学环境试验。
Dynamics environment is a very important factor for the development of space optics remote sensors because it can bring about damage to the structure of the equipment and its subassemblies.
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