热处理对BT25 Y钛合金组织和性能的影响

本文研究了不同的固溶温度、固溶后冷却速度以及热暴露对BT25Y钛合金组织和性能的影响。结果表明,BT25Y钛合金于950℃固溶属于α β两相区固溶,其组织由初生等轴α相和片状α β相组成,硬度随冷速的增大而增大,但随着热暴露时间的延长,在40小时时硬度达到最大值,而后降低;而990℃固溶属于β区固溶,由β相降温分解的α β两相组成,硬度较950℃固溶高,也随冷速的增大而增大,但随着热暴露时间的的延长,硬度在30小时时达到最低值,而后持续增大。     

Developing a novel radial ultrasonic vibration-assisted grinding device and evaluating its performance in machining PTMCs

Particle-reinforcing titanium matrix composites(PTMCs) exhibit the sharp raising applications in modern industries owing to its extraordinary physical and mechanical properties. However, the poor grindability and unstable grinding processes due to the existence of TiC particles and TiB short fibres inside PTMCs, leading to the sudden grinding burn and low material removal rate.In this work, a novel radial ultrasonic vibration-assisted grinding(RUVAG) device with a special cross structure was dev...     

BT-14钛合金舱口外盖白斑问题

BT-14钛板为某产品舱口盖结构用材料,焊前检查时,发现钛板表面有数量不等的白色圆状斑点。文章从白斑的外观形貌、微观组织以及力学性能等方面进行分析,重点研究了白斑组织对钛板使用性能的影响,并提出后续生产中的预防措施。     

TC4钛合金激光冲击强化数值模拟

采用连续显式动态冲击策略对航空用TC4钛合金进行激光冲击强化数值模拟研究.根据冲击波能量变化曲线确定单次冲击求解时间为3000ns,并分析了应力波传播过程.在此基础上开展多点冲击模拟,分析了功率密度、冲击次数和光斑搭接率对残余应力、应变场的影响.得出增加功率密度对增大表面残余压应力的效果更好;增加冲击次数对增大残余压应...     

Improving performance of macro electrolyte jet machining of TC4 titanium alloy: Experimental and numerical studies

Electrolyte jet machining (EJM) is a promising method for shaping titanium alloys due to its lack of tool wear, thermal and residual stress, and cracks and burrs. Recently, macro-EJM has attracted increasing attention for its high efficiency in machining wide grooves or planes. However, macro-EJM generates large amounts of electrolytic products, thereby increasing the difficulty of rapid product removal with a standard tool and reducing the surface quality. Therefore, for enhanced product transport, a novel tool with a back inclined end face was proposed for macro-EJM of TC4 titanium alloy. For comparison, also proposed were ones with a standard flat end face, a front inclined end face, and both front and back inclined end faces. The flow field distributions of all proposed tools were simulated numerically, and experiments were also conducted to validate the simulation results. The results show that one with a 5° back inclined end face can decrease the low-velocity flow zone in the machining area and increase the high-velocity flow zone at the back end of tool, thereby promoting rapid product removal. A relatively smooth bright-white groove surface was obtained. The same tool also resulted in the highest machining depth and material removal rate among the tested ones. In addition, rapid product removal was beneficial to the subsequent processing. Because of its rapid product removal, the machining depth and material removal rate during deep groove machining using the tool with a 5° back inclined end face were respectively 7% and 14% higher than those produced using a standard one. Moreover, the lowest bottom height difference of 0.027 mm can be obtained when the step-over value was 8.2 mm, and a plane with a depth of 0.285 mm and a bottom height difference of 0.03 mm was fabricated using the tool with a 5° back inclined end face.