中国有色金属学报(英文版)
中國有色金屬學報(英文版)
중국유색금속학보(영문판)
TRANSACTIONS OF NONFERROUS METALS SOCIETY OF CHINA
2013年
8期
2276-2282
,共7页
黄德明%王怀柳%陈鑫%陈永%郭华
黃德明%王懷柳%陳鑫%陳永%郭華
황덕명%왕부류%진흠%진영%곽화
Ti-6.5Al-1Mo-1V-2Zr%棒材%锻造%微观组织%力学性能
Ti-6.5Al-1Mo-1V-2Zr%棒材%鍛造%微觀組織%力學性能
Ti-6.5Al-1Mo-1V-2Zr%봉재%단조%미관조직%역학성능
Ti-6.5Al-1Mo-1V-2Zr%bar%forging%microstructure%mechanical properties
研究三种锻造工艺条件下 Ti?6.5Al?1Mo?1V?2Zr 合金大规格棒材的力学性能、微观组织和拉伸断口。结果表明:采用拔长方式在β区高温和低温分别进行开坯锻造和成品锻造,获得的棒材的组织为粗大的魏氏组织,力学性能特别是塑性差,室温拉伸断口为脆性断口;采用镦拔方式在β区高温进行开坯锻造,再采用拔长方式在α+β区进行成品锻造,获得棒材的组织为双态组织,具有最佳的综合力学性能,室温拉伸断口为塑性断口。要获得合格的 Ti?6.5Al?1Mo?1V?2Zr 棒材,关键是开在坯锻造阶段进行充分镦拔以破碎铸锭原始组织,并在成品锻造阶段控制锻造温度和变形量。
研究三種鍛造工藝條件下 Ti?6.5Al?1Mo?1V?2Zr 閤金大規格棒材的力學性能、微觀組織和拉伸斷口。結果錶明:採用拔長方式在β區高溫和低溫分彆進行開坯鍛造和成品鍛造,穫得的棒材的組織為粗大的魏氏組織,力學性能特彆是塑性差,室溫拉伸斷口為脆性斷口;採用鐓拔方式在β區高溫進行開坯鍛造,再採用拔長方式在α+β區進行成品鍛造,穫得棒材的組織為雙態組織,具有最佳的綜閤力學性能,室溫拉伸斷口為塑性斷口。要穫得閤格的 Ti?6.5Al?1Mo?1V?2Zr 棒材,關鍵是開在坯鍛造階段進行充分鐓拔以破碎鑄錠原始組織,併在成品鍛造階段控製鍛造溫度和變形量。
연구삼충단조공예조건하 Ti?6.5Al?1Mo?1V?2Zr 합금대규격봉재적역학성능、미관조직화랍신단구。결과표명:채용발장방식재β구고온화저온분별진행개배단조화성품단조,획득적봉재적조직위조대적위씨조직,역학성능특별시소성차,실온랍신단구위취성단구;채용대발방식재β구고온진행개배단조,재채용발장방식재α+β구진행성품단조,획득봉재적조직위쌍태조직,구유최가적종합역학성능,실온랍신단구위소성단구。요획득합격적 Ti?6.5Al?1Mo?1V?2Zr 봉재,관건시개재배단조계단진행충분대발이파쇄주정원시조직,병재성품단조계단공제단조온도화변형량。
The mechanical properties, microstructure and tensile fracture of Ti?6.5Al?1Mo?1V?2Zr large section bars produced by three diffrent forging processes were investigated. The results show that when billet forging and finish forging were conducted by means of fullering at high and low temperature ofβ-region, respectively;the microstructure of forged bar is coarse Widmanstaten structure; the mechanical properties, especially the reduction of cross-sectional area, are poor, and the room temperature tensile fracture presents a brittle feature. While billet forging was carried out by upset-fullering at high temperature of the β-region, and finish forging was proceeded through fullering at (α+β)-region, the microstructure of forged bar was a duplex structure, the bar has better comprehensive mechanical properties, and the room temperature tensile fracture reveals a ductile feature. In order to obtain qualified Ti?6.5Al?1Mo?1V?2Zr alloy bar, it is the key that as-cast microstructure should be completely broken during billet forging, and the forging temperature and deformation are also well controlled upon finishing forging.