钛及钛合金钎焊研究进展
Research Progress in Brazing of Titanium and Titanium Alloys
- 2022年52卷第6期 页码:35-45
DOI: 10.7512/j.issn.1001-2303.2022.06.04
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裴夤崟,杨浩哲,秦建,等.钛及钛合金钎焊研究进展[J].电焊机,2022,52(6):35-45.
PEI Yinyin, YANG Haozhe, QIN Jian, et al.Research Progress in Brazing of Titanium and Titanium Alloys[J].Electric Welding Machine, 2022, 52(6): 35-45.
钛合金具有优异的综合性能,广泛应用在空天和海洋等领域,钎焊技术是钛合金部件的关键连接方法,但存在诸多难题,解决钛合金高可靠钎焊连接具有重要的科学和工程意义。从钛的物理和化学性质出发,分析其钎焊特性,介绍钛合金的常用钎焊方法,阐述了国内外钛合金用钎料的研究进展,并描述了几类典型的钛-异种金属钎焊接头的组织和力学性能特征,讨论了工艺参数对接头强韧化的作用机制;并针对钛及钛合金钎焊时存在低溶蚀高强韧钎料缺失、钎焊设备生产效率受限、充分扩散溶蚀—强韧化矛盾和接头残余应力模拟困难等难点,提出了系统研究钎料组元与成形能力的关系、开发多热源耦合作用真空钎焊设备、探明脆性化合物生成机制与控制措施和计算材料学与CAE仿真协同预测接头性能的基本思路。
With excellent comprehensive properties, titanium alloys are widely used in aerospace, marine and other fields. Brazing technology is the key connection method of titanium alloy components, but there are many problems. It is of great scientific and engineering significance to solve the high reliable brazing connection of titanium alloy. Starting from the physical and chemical properties of titanium, the brazing characteristics is analyzed, the common brazing methods of titanium alloys is introduced, the research progress of brazing filler metals for titanium alloys at home and abroad is expound, the microstructure and mechanical properties of several typical titanium-dissimilar metal brazed joints are described, and the action mechanism of process parameters on the toughening of joints are discussed. For the difficulties in titanium and titanium alloy brazing, such as the absence of low corrosion and high strength and toughness brazing filler metals, the limited production efficiency of brazing equipment, the contradiction between full diffusion corrosion and toughening, and the difficulty in simulating joint residual stress, etc., the basic ideas of systematically studying the relationship between filler metal elements and forming ability, developing vacuum brazing equipment with multi-heat source coupling, exploring formation mechanism and control measures of brittle compounds, and predicting the joint performance by computational materials science and CAE simulation are put forward.
钛合金钎焊钛基钎料工艺参数
titanium alloybrazingTi-based filler metalsprocess parameters
C.莱茵斯,M.皮特尔斯,莱茵斯,et al.钛与钛合金[M].北京:化学工业出版社,2005.
熊腊森.焊接工程基础[M].北京:机械工业出版社,2007.
卞红,田骁,冯吉才,等.TC4/Ti60合金钎焊接头界面组织及力学性能[J].焊接学报,2018,39(05):33-36,68.
BIAN Hong,TIAN Xiao,FENG Jicai,et al.Interracial microstructure and mechanical properties of TC4/Ti60 alloy brazed joints[J].Transactions of the China Welding Institution,2018,39(05):33-36,68.
Jing Y,Xiong H,Shang Y,et al.Design TiZrCuNi filler materials for vacuum brazing TA15 alloy[J].Journal of Manufacturing Processes,2020,53:328-335.
宋晓国,曹健,李兆光,等.TiZrNiCu钎料钎焊Ti533 11S高温钛合金接头界面结构及性能[J].稀有金属材料与工程,2013,42(08):1694-1698.
Song Xiaoguo,Cao Jian,Li Zhaoguang,et al.Interfacial Microstructure and Properties of Ti53311S Titanium Alloy Joints Brazed Using TiZrNiCu Filler Metal[J].Rare Metal Materials and Engineering,2013,42(08):1694-1698.
王同,陆文林,李勍,等.热氢处理炉真空加热温度场数值模拟与分析[J].金属热处理,2021,46(02):209-212.
Wang Tong,Lu Wenlin,Li Qing,et al.Numerical simulation and analysis of vacuum heating temperature field of hydrogen treatment furnace[J].Heat Treatment of Metals,2021,46(02):209-212.
陈凯华.铝/钛异种合金激光深熔钎焊新工艺[D].北京:北京工业大学,2011.
CHEN Kaihua.Study on Laser Penetration Welding-Brazing of Al/Ti Dissimilar Alloys[D].Beijing:Beijing University of Technology,2011.
Tomashchuk I,Sallamand P,Méasson A,et al.Aluminum to titanium laser welding-brazing in V-shaped gro- ove[J].Journal of Materials Processing Technology,2017,245:24-36.
Yanbin C,Shuhai C,Liqun L.Influence of interfacial reaction layer morphologies on crack initiation and propagation in Ti/Al joint by laser welding-brazing[J].Materials & Design,2010,31(1):227-233.
Zhang Y,Chen Y,Zhou J,et al.Experimental and numerical study on microstructure and mechanical properties for laser welding-brazing of TC4 Titanium alloy and 304 stainless steel with Cu-base filler metal[J].Journal of Materials Research and Technology,2020,9(1):465-477.
张静,张涛,程杨阳.基于高频感应钎焊的TC4钛合金层积成形研究[J].稀有金属材料与工程,2017,46(11):3440-3445.
Zhang Jing,Zhang Tao,Cheng Yangyang.Laminated Forming of TC4 Titanium Alloy by High Frequency Induction Brazing[J].Rare Metal Materials and Engineering,2017,46(11):3440-3445.
李万强.钛合金TC6与TC11高频感应钎焊工艺[J].电焊机,2017,47(05):77-81.
LI Wanqiang.Study on high frequency induction brazing of TC6 and TC11 titanium alloy[J].Electric Welding Machine,2017,47(05):77-81.
He P,Feng J C,Xu W.Mechanical property of induction brazing TiAl-based intermetallics to steel 35CrMo using AgCuTi filler metal[J].Materials Science and Engineering A,2006,418(1/2):45-52.
Shapiro A E,Flom Y A.Brazing of titanium at temperatures below 800 ℃:review and prospective applications[J].DVS BERICHTE,2007,243:254-267.
Shapiro A,Rabinkin A.State of the art of titanium-based brazing filler metals[J].Welding Journal,2003,82(10):36-43.
Pang S,Sun L,Xiong H,et al.A multicomponent TiZr-based amorphous brazing filler metal for high-strength joining of titanium alloy[J].Scripta Materialia,2016,117:55-59.
Ganjeh E,Sarkhosh H,Bajgholi M,et al.Increasing Ti-6Al-4V brazed joint strength equal to the base metal by Ti and Zr amorphous filler alloys[J].Materials characterization,2012,71:31-40.
Yuan L,Xiong J,Du Y,et al.Effects of pure Ti or Zr powder on microstructure and mechanical properties of Ti6Al4V and Ti2AlNb joints brazed with TiZrCuNi[J].Materials Science and Engineering:A,2020,788:139602.
Peker A,Johnson W L.A highly processable metallic glass:Zr41.2Ti13.8Cu12.5Ni10.0Be22.5[J].Applied P- hysics Letters,1993,63(17):2342-2344.
Lee M,Kim K,Lee J,et al.Growth of isothermally-solidified titanium joints using a multi-component Zr-Ti-Cu-Ni-Be amorphous alloy as a brazing filler[J].M- aterials characterization,2013,80:98-104.
Cao X,Dong K,Zhu R,et al.A high-strength vacuum brazed TC4/316L joint with a Ti-Zr-based amorphous ribbon as the filler metal[J].Vacuum,2021,187:110070.
Dong H,Yang Z,Wang Z,et al.CuTiNiZrV amorphous alloy foils for vacuum brazing of TiAl alloy to 40Cr steel[J].Journal of Materials Science & Technology, 2015,31(2):217-222.
贾宝华,刘翔,顾永强,等.稀土元素对钛合金的作用机制研究现状及展望[J].热加工工艺,2019,48(09):1-4.
JIA Baohua,LIU Xiang,GU Yongqiang,et al.Research Status and Prospect of Effect Mechanism of Rare Earth Elements on Titanium Alloys[J].Hot Working Technology,2019,48(09):1-4.
丁蓓蓓,李伯龙,韩鹏,等.Nd对一种近α型高温钛合金热稳定性的影响[J].热加工工艺,2011,40(18):4-7.
DING Beibei,LI Bolong,HAN Peng,et al.Effect of Nd on Thermal Stability of Near-α Titanium Alloy[J].Hot Working Technology,2011,40(18):4-7.
He Y,Lu C,Ni C,et al.Tailoring microstructure and mechanical performance of the TC4 titanium alloy brazed joint through doping rare-earth element Dy into Ti-Cu-Ni filler alloy[J].Journal of Manufacturing Processes,2020,50:255-265.
Xia Y,Dong H,Li P.Brazing TC4 titanium alloy/316L stainless steel joint with Ti50-xZrxCu39Ni11 amorph- ous filler metals[J].Journal of Alloys and Compounds,2020,849:156650.
Dong H-G,Zhang R-Z,Xia Y-Q,et al.Interfacial features of TiAl alloy/316L stainless steel joint brazed with Zr-Cu-Ni-Al amorphous filler metal[J].Transactions of Nonferrous Metals Society of China,2021,31(6):1680-1688.
Xia Y,Dong H,Hao X,et al.Vacuum brazing of Ti6 Al4V alloy to 316L stainless steel using a Ti-Cu-based amorphous filler metal[J].Journal of Materials Processing Technology,2019,269:35-44.
Deng Y,Cong W,Xu H.Designing of a thin Mo diffusion barrier towards strong and reliable Ti/Cu dissimilar brazing[J].Materials Science and Engineering:A, 2020,786:139469.
Shi J,Peng X,Tian X,et al.Design of Gr/2024Al composite and Ti6Al4V titanium alloy joint brazed using AgCuSnTi filler and Ni/Nb/Ni composite interlayers[J].Journal of Manufacturing Processes,2020,58:67-74.
Liu S,MiaoJ,Zhang W,et al.Interfacial microstructure and shear strength of TC4 alloy joints vacuum brazed with Ti-Zr-Ni-Cu filler metal[J].Materials Science and Engineering:A,2020,775:138990.
Cai Y S,Liu R C,Ji H B,et al.Vacuum brazing TiAl-based intermetallics using novel Ti-Fe-Mn eutectic brazing alloy[J].Intermetallics,2021,136:107274.
Song X,Tian X,Zhao H,et al.Interfacial microstructure and joining properties of Titanium-Zirconium-Molybdenum alloy joints brazed using Ti-28Ni eutectic brazing alloy[J].Materials Science and Engineering:A,2016,653:115-121.
Chang C,Du Y,Shiue R,et al.Infrared brazing of high-strength titanium alloys by Ti-15Cu-15Ni and Ti-15Cu-25Ni filler foils[J].Materials Science and Engineering:A,2006,420(1-2):155-164.
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