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连续激光烧蚀作用下Ti-6AlTi-48Al合金表面的温度场
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中国航发北京航空材料研究院 先进钛合金航空科技重点实验室,北京 100095

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China


Surface Temperature Field of Ti-6Al and Ti-48Al Alloys Under Continuous Laser Ablation
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Aviation Key Laboratory of Science and Technology on Advanced Titanium Alloys, AECC Beijing Institute of Aeronautical Materials, Beijing 100095, China

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China “Ye Qisun” Science Foundation Project of National Natural Science Foundation (U2141222); AECC Innovation Fund (CXPT-2022-034); AECC BIAM Innovation Fund (KJSJ231506)

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    摘要:

    钛合金的高温阻燃性能是制约其在航空发动机中应用的重要因素,而激光点火法能够精确反映钛合金在局部加热时的阻燃性能。在Ti-6Al与Ti-48Al的温度场研究中,通过钛合金激光点火实验表征了温度场演化特性,同时在微观瞬态机制分析中引入了分子动力学(MD)模拟与JMatPro计算等方法。结果表明:在激光连续照射下,Ti-Al系合金表面首先形成熔池,熔池温度场从中心到边缘呈正态分布。当中心温度达到起燃临界点时,产生扩展燃烧,扩展燃烧路径沿气流方向推进。与Ti-6Al相比,Ti-48Al合金在激光烧蚀下的阻燃性能更高。这是由于Ti-48Al具有更高的传热性能,导致光斑温度场边界附近的热集中效应减弱,因此需要增加氧分压,降低合金起燃点,才能在同等激光热源下达到Ti-48Al合金的起燃边界条件。另外在扩展燃烧路径方面,MD模型显示试件存在边界热集中效应,这揭示了除气流方向之外的另一种扩展燃烧路径影响机制,即激光光斑产生的热量传导至临近边界时中断,在边界附近产生热量集中,因此燃烧路径亦倾向于沿该方向扩展。

    Abstract:

    The high temperature fire retardancy of titanium alloy is an important factor restricting its application in aero-engine, and the laser ignition method can accurately reflect the fire retardancy of titanium alloy under local heating. Due to the limitations of laser ignition experiments on the microscopic boundary and the transient propagation mechanism of the temperature field, molecular dynamics (MD) simulations and JMatPro calculation were applied to study the temperature field of Ti-6Al and Ti-48Al alloys. The results show that a molten pool is formed on the surface of Ti-Al alloys under continuous laser irradiation, and the temperature field of the molten pool is normally distributed from the center to the edge. When the center temperature reaches the critical point of ignition, the extended combustion occurs, and the extended combustion path advances along the direction of the air flow. Compared with Ti-6Al alloy, Ti-48Al alloy has higher fire retardancy under laser ablation. This is due to the better heat transfer performance of Ti-48Al, which leads to the weakening of the heat concentration effect near the boundary of the spot temperature field. So it is necessary to increase the partial pressure of oxygen, and thus to reduce the ignition point of the alloy in order to achieve the ignition boundary condition of Ti-48Al alloy under the same laser heat source. In the aspect of extended combustion path, the boundary heat collection effect of specimens shown by MD models reveals another mechanism affecting combustion expansion path besides the direction of air flow. That is, the heat generated by the laser spot is interrupted when it is transmitted to the boundary of the specimen along the short side direction, resulting in a concentration of heat near the boundary. So the combustion path also tends to expand along this direction.

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孙若晨,弭光宝.连续激光烧蚀作用下Ti-6AlTi-48Al合金表面的温度场[J].稀有金属材料与工程,2024,53(9):2405~2412.[Sun Ruochen, Mi Guangbao. Surface Temperature Field of Ti-6Al and Ti-48Al Alloys Under Continuous Laser Ablation[J]. Rare Metal Materials and Engineering,2024,53(9):2405~2412.]
DOI:10.12442/j. issn.1002-185X.20230822

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历史
  • 收稿日期:2023-12-19
  • 最后修改日期:2024-01-30
  • 录用日期:2024-02-28
  • 在线发布日期: 2024-09-12
  • 出版日期: 2024-09-04