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原文传递 Stressed Oxidation of Hafnium Diboride in Air at 1500 deg C.

题名：	Stressed Oxidation of Hafnium Diboride in Air at 1500 deg C.
作者：	Bowen, T. A.
关键词：	High temperature, Oxidation, Ceramic matrix composites, Creep tests, Failure mode and effect analysis, Materials testing, Ceramic materials, Silicon carbide, Hypersonic vehicles, Compression, Uhtc(ultra-high temperature ceramics), Hfb2(hafnium, Diboride), Sic(silicon carbide)
摘要：	Hypersonic vehicles with narrow airfoils produce thin boundary layers and shock temperatures in excess of 2000C, exceeding the operating limits of traditional aerospace materials. The use of ultra-high temperature ceramics (UHTCs) allows for operating temperatures far exceeding those of metallic alloys. One such UHTC is hafnium diboride (HfB2). Transition metal diborides generally experience significant oxidation degradation at elevated temperatures. The use of additives, such as silicon carbide (SiC) has been shown to reduce the oxidation of transition metal diborides. This research focused on the compressive creep of HfB2 with varying amounts of SiC in air at 1500C. The existing test set-up was successfully modified to permit compression creep testing at higher stress (75-100 MPa) levels for longer durations (>66 h). Post-test microstructural examination revealed significant SiC-depleted layers in HfB2-SiC samples. Oxide layers in HfB2 samples subjected to 75 and 100 MPa compressive creep tests were significantly thinner than those observed under zero stress, suggesting that sustained compressive load may restrict oxidation.
报告类型：	科技报告