Metallic thermal protection system (MTPS) provides a feasible solution for thermal protection of hypersonic vehicles.
金属热防护系统是高超飞行器热防护系统的理想候选方案。
The two major heat short problems of gap radiation and brackets in metallic thermal protection system (TPS) are studied in this article.
研究了金属热防护系统(TPS)的缝隙辐射及支架两大热短路问题。
A parallel one-dimensional model for transient thermal analysis of the metallic thermal protection system (MTPS) for reusable launch vehicle (RLV) is established.
建立了可重复使用运载器金属热防护系统瞬态热分析的并联一维模型。
Metallic thermal protection system is not only lightweight, but also durable, operable as well as cost effective, so it is a key technology for reducing the cost of reusable launch vehicle.
金属基热防护系统具有轻质、耐用、可操作性、成本高效等特点,是实现降低重复使用飞行器费用的一个关键技术。
The designing rules for primary components of Metallic Thermal Protection System (TPS) are given by comparing and analyzing the difference of superalloy honeycomb TPS panel and improved TPS panel.
通过比较分析超耐热合金防热板和改进型防热板,给出了金属热防护系统的各个部分的设计准则。
A method that can calculate the thickness of fibrous thermal insulation in the metallic protection system was presented.
介绍了一种在设计金属热防护系统中计算纤维隔热材料厚度的方法。
A method that can calculate the thickness of fibrous thermal insulation in the metallic protection system was presented.
介绍了一种在设计金属热防护系统中计算纤维隔热材料厚度的方法。
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