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Öйú²ÄÁϽøÕ¹[ISSN:1674-3962/CN:61-1473/TG]

¾í:

ÆÚÊý:

2013ÄêµÚ4ÆÚ

Ò³Âë:

001-10

À¸Ä¿:

ÌØÔ¼Ñо¿ÂÛÎÄ

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2013-04-30

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Title:

Major Advancement and Development Trends in Study of Hot-wall Microwave -transparency Mechanisms and High-temperature Microwave-transparent Materials

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Author(s):

Li Zhongping

(Science and Technology on Advanced Functional Composite Materials, Aerospace Research Institute of Materials & Processing Technology, Beijing, 100076)

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ÈÈ͸²¨; ºÚÕÏ; ÈÈÕÏ; ÈÛÈÚÐÍÉÕÊ´; Æû»¯ÐÍÉÕÊ´; ÈÛÈÚ/Æû»¯»ìºÏÐÍ

DOI:

10.7502/j.issn.1674-3962.2013.04.01

ÕªÒª:

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Abstract:

The background and physicsª²basis of hotª²wall microwaveª²transparency problem are discussed in this paper. Major advancement is summarized in areas including behavior of ablation and heatª²transfer, thermoª²dielectric behavior and hotª²wall microwaveª²transparency mechanism, highª²temperature dielectric testing, simulation of hotª²wall microwaveª²transparency, and highª²temperature microwaveª²transparent materials. Future development trends in related areas are presented. Highª²temperature melt and dynamic diversification of solid/liquid/gas result in break of dielectric property for hotª²radome or antenna window, which is the main reason for the ¡°blackout¡± of hypersonic aerospace vehicles. Silica, boron nitride and Siª²Oª²N material are melting ablation, evaporation ablation and melting/evaporation ablation materials respectively. The microwave transporting efficiency of boron nitride is directed by electron conducting loss, while the microwave transporting efficiency of silica is directed by ion conducting loss. Largeª²scale, high precision, wide temperature range and wide frequency range are the main objective for next generation test and computation technology for hotª²wall transparent materials. Big size and Si(B)ª²Oª²Nª²(M) based materials are the important trend for developing new hotª²wall transparent materials.ª¤

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¸üÐÂÈÕÆÚ/Last Update: 2013-04-15