热防护系统 TPS?。
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。
Metallic thermal protection system (MTPS) provides a feasible solution for thermal protection of hypersonic vehicles.
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.
热防护系统是航天飞行器 ,特别是重复使用运载器的关键技术之一。
Thermal protection system (TPS) is one of the key technologies for space vehicle, especially for reusable launch vehicles (RLV).
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。
The two major heat short problems of gap radiation and brackets in metallic thermal protection system (TPS) are studied in this article.
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。
A parallel one-dimensional model for transient thermal analysis of the metallic thermal protection system (MTPS) for reusable launch vehicle (RLV) is established.
被动分频网络功能,对热防护系统高频部分提供出声透明的压缩驱动程序的保护。
The passive crossover network features a thermal protection system on the HF section providing audibly transparent protection for the compression driver.
所提供的数值分析和实验方法可为金属热防护系统的分析与设计提供重要的参考价值。
The numerical and experimental methods presented in this study can provide some reference for the design and analysis of metallic TPS.
指出金属热防护系统仍是下一代重复使用运载器大面积表面热防护系统的优选方案之一。
It is indicated that the metal lic TPS is the one of top priority blue prints of the acreage TPS for the next generation reusable launch vehicle.
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。
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.
对给定的飞行任务,提出了基准运载器,并计算了贮箱材料、热防护系统及设计余量对运载器干质量的影响。
A baseline vehicle is presented for the given flight mission, and the effects of the tank material, the thermal protection system and the design margin on the vehicle dry mass are calculated.
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。
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.
掌握热防护系统(TPS)中热结构超合金蜂窝面板在热环境下的传热隔热特性,是飞行器防热结构设计的先决条件。
Knowledge of the thermal performance of Ni-based honeycomb sandwich panels in a thermal protection structure (TPS) is a prerequisite for the design of metal thermal protection structures(MTPS).
计算结果表明:驻点温度随热防护层厚度的变化并不明显,而冷却系统功率随热防护层厚度增加急剧降低;
The results indicate that the thickness variations exhibit no significant influence on stagnation temperature, while the cooling power drops sharply as the thickness increases.
研究了消防服用多层织物系统的综合热防护性能。
Research of thermal sensors used in firefighter′s clothing thermal protective performance test;
研究了消防服用多层织物系统的综合热防护性能。
Research of thermal sensors used in firefighter′s clothing thermal protective performance test;
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