The direct-current simulation burning method was used to investigate the burn-resistant behavior of Ti14 titanium alloy. The results show that Ti14 alloy exhibits a better burn resistance than TC4 alloy (Ti-6Al-4V). Cu is observed to preferentially migrate to the surface of Ti14 alloy during the burning reaction, and the burned product contains Cu, Cu2O, and TiO2. An oxide layer mainly comprising loose TiO2 is observed beneath the burned product. Meanwhile, Ti2Cu precipitates at grain boundaries near the interface of the oxide layer, preventing the contact between O-2 and Ti and forming a rapid diffusion layer near the matrix interface. Consequently, a multiple-layer structure with a Cu-enriched layer (burned product)/Cu-lean layer (oxide layer)/Cu-enriched layer (rapid diffusion layer) configuration is formed in the burn heat-affected zone of Ti14 alloy; this multiple-layer structure is beneficial for preventing O-2 diffusion. Furthermore, although Al can migrate to form Al2O3 on the surface of TC4 alloy, the burn-resistant ability of TC4 is unimproved because the Al2O3 is discontinuous and not present in sufficient quantity.
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机译:用直流模拟燃烧法研究了Ti14钛合金的耐燃烧性能。结果表明,Ti14合金具有比TC4合金(Ti-6Al-4V)更好的耐燃性。观察到Cu在燃烧反应期间优先迁移到Ti14合金的表面,并且燃烧产物包含Cu,Cu 2 O和TiO 2。在燃烧产物下方观察到主要包含疏松的TiO2的氧化物层。同时,Ti2Cu沉淀在氧化物层界面附近的晶界处,阻止了O-2和Ti之间的接触,并在基体界面附近形成了快速扩散层。因此,在Ti14合金的燃烧热影响区中形成了具有Cu富集层(烧成产物)/ Cu贫层(氧化物层)/ Cu富集层(快速扩散层)构造的多层结构。这种多层结构有利于防止O-2扩散。此外,尽管Al可以迁移以在TC4合金的表面上形成Al 2 O 3,但是由于Al 2 O 3是不连续的并且不存在足够的量,因此TC 4的耐燃烧性没有得到改善。
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