锻压技术

热挤压工艺参数对TC32钛合金显微组织及力学性能的影响

英文标题：Influence of hot extrusion process parameters on microstructure and mechanical properties for TC32 titanium alloy

作者：陈由红王新南贺晓勇郝红军

分类号：TG316.3

出版年,卷(期):页码：2025,50(5):173-179

摘要：

针对TC32钛合金的挤压工艺，研究了挤压比为4、6、8以及挤压温度为(Tβ-60)~（Tβ+10） ℃ 条件下TC32钛合金挤压棒材的显微组织和力学性能演变规律。结果表明，挤压比和挤压温度显著影响合金的微观结构和力学性能。当在α+β双相温度区挤压时，合金形成双态组织。随着挤压比的提高，等轴α相的数量减少，短棒状次生α相含量增加且不断粗化，使抗拉强度和屈服强度分别提升了14和4 MPa，而伸长率维持在18%。在β单相温度区挤压时，合金展现出网篮状组织结构，其中片状α相的长度随着挤压比的提高而增长，导致抗拉强度和屈服强度分别下降了17和20 MPa，而伸长率提高了2%。当挤压比保持不变时，合金的抗拉强度随着挤压温度的升高而逐渐增加，而屈服强度和伸长率则先增后减。研究结果为TC32钛合金的综合应用提供了技术参考。

For the extrusion process of TC32 titanium alloy, the evolution laws of microstructure and mechanical properties of TC32 titanium alloy extruded bars under the extrusion ratios of 4, 6 and 8 and the extrusion temperatures of (Tβ-60)-(Tβ+10) ℃ were investigated. The results show that extrusion ratio and extrusion temperature significantly aftect the microstructure and mechanical properties of alloy. When extruded in the α+β two-phase temperature region, a duplex structure is formed. As the extrusion ratio increases, the amount of equiaxed α phase decreases, and the content of short-rod-shaped secondary α phase increases and continues to coarsen, which increases the tensile strength and yield strength by 14 MPa and 4 MPa, respectively, while the elongation remains at 18%. When extruded in the β single-phase temperature region, the alloy exhibits a basket-weave microstructure, in which the length of lamellar α phase increases with the increasing of extrusion ratios, resulting in a decrease of 17 MPa and 20 MPa in tensile strength and yield strength, respectively, while the elongation increases by 2%. When the extrusion ratio remains constant, the tensile strength of alloy gradually increases with the increasing of extrusion temperature, while the yield strength and elongation first increase and then decrease. The research results provide a technical reference for the comprehensive application of TC32 titanium alloy.

基金项目：

作者简介：陈由红（1981-），男，硕士，高级工程师，E-mail：cyh198243@163.com

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