[1] 柏林, 赵志国, 龚海波, 等. 航空用钛合金结构件激光成形技术研究进展[J]. 航空制造技术, 2013( 11): 40- 44.

    柏林, 赵志国, 龚海波, 等. 航空用钛合金结构件激光成形技术研究进展[J]. 航空制造技术, 2013( 11): 40- 44.

    BaiL, Zhao ZG, Gong HB, et al. Development of laser forming technology for titanium alloy aircraft structure[J]. Aeronautical Manufacturing Technology, 2013( 11): 40- 44.

    BaiL, Zhao ZG, Gong HB, et al. Development of laser forming technology for titanium alloy aircraft structure[J]. Aeronautical Manufacturing Technology, 2013( 11): 40- 44.

[2] 王华明, 张述泉, 汤海波, 等. 大型钛合金结构激光快速成形技术研究进展[J]. 航空精密制造技术, 2008, 44(6): 28-30.

    王华明, 张述泉, 汤海波, 等. 大型钛合金结构激光快速成形技术研究进展[J]. 航空精密制造技术, 2008, 44(6): 28-30.

    Wang H M, Zhang S Q, Tang H B, et al. Research progress of laser rapid prototyping technology for large titanium alloy structures[J]. Aviation Precision Manufacturing Technology, 2008, 44(6): 28-30.

    Wang H M, Zhang S Q, Tang H B, et al. Research progress of laser rapid prototyping technology for large titanium alloy structures[J]. Aviation Precision Manufacturing Technology, 2008, 44(6): 28-30.

[3] 陈静, 杨海鸥, 杨建, 等. TC4钛合金的激光快速成形特性及熔凝组织[J]. 稀有金属快报, 2004, 23(4): 33-37.

    陈静, 杨海鸥, 杨建, 等. TC4钛合金的激光快速成形特性及熔凝组织[J]. 稀有金属快报, 2004, 23(4): 33-37.

    Chen J, Yang H O, Yang J, et al. Laser rapid prototyping characteristics and fused structure of TC4 titanium alloy[J]. Rare Metals Letters, 2004, 23(4): 33-37.

    Chen J, Yang H O, Yang J, et al. Laser rapid prototyping characteristics and fused structure of TC4 titanium alloy[J]. Rare Metals Letters, 2004, 23(4): 33-37.

[4] 杨建, 黄卫东, 陈静, 等. TC4钛合金激光快速成形力学性能[J]. 航空制造技术, 2007( 5): 73- 76.

    杨建, 黄卫东, 陈静, 等. TC4钛合金激光快速成形力学性能[J]. 航空制造技术, 2007( 5): 73- 76.

    YangJ, Huang WD, ChenJ, et al. Mechanical proper ty of Ti alloy TC4 laser rapid forming[J]. Aeronautical Manufacturing Technology, 2007( 5): 73- 76.

    YangJ, Huang WD, ChenJ, et al. Mechanical proper ty of Ti alloy TC4 laser rapid forming[J]. Aeronautical Manufacturing Technology, 2007( 5): 73- 76.

[5] 张凤英, 陈静, 谭华, 等. 钛合金激光快速成形过程中缺陷形成机理研究[J]. 稀有金属材料与工程, 2007, 36(2): 211-215.

    张凤英, 陈静, 谭华, 等. 钛合金激光快速成形过程中缺陷形成机理研究[J]. 稀有金属材料与工程, 2007, 36(2): 211-215.

    Zhang F Y, Chen J, Tan H, et al. Research on forming mechanism of defects in laser rapid formed titanium alloy[J]. Rare Metal Materials and Engineering, 2007, 36(2): 211-215.

    Zhang F Y, Chen J, Tan H, et al. Research on forming mechanism of defects in laser rapid formed titanium alloy[J]. Rare Metal Materials and Engineering, 2007, 36(2): 211-215.

[6] 游磊. 熔盐电解制备Ti-8LC和Ti-12LC合金的研究[D]. 沈阳: 东北大学, 2012.

    游磊. 熔盐电解制备Ti-8LC和Ti-12LC合金的研究[D]. 沈阳: 东北大学, 2012.

    YouL. Investigation on preparation of Ti-8LC and Ti-12LC alloys by electro-deoxidation of metal oxides in the molten salt[D]. Shenyang: Northeastern University, 2012.

    YouL. Investigation on preparation of Ti-8LC and Ti-12LC alloys by electro-deoxidation of metal oxides in the molten salt[D]. Shenyang: Northeastern University, 2012.

[7] Zhu J, Kamiya A, Yamada T, et al. Influence of boron addition on microstructure and mechanical properties of dental cast titanium alloys[J]. Materials Science and Engineering A, 2003, 339(1/2): 53-62.

    Zhu J, Kamiya A, Yamada T, et al. Influence of boron addition on microstructure and mechanical properties of dental cast titanium alloys[J]. Materials Science and Engineering A, 2003, 339(1/2): 53-62.

[8] 黄立国, 陈玉勇. 硼对钛合金成形能力和力学性能影响的研究进展[J]. 机械工程材料, 2016, 40(6): 8-13.

    黄立国, 陈玉勇. 硼对钛合金成形能力和力学性能影响的研究进展[J]. 机械工程材料, 2016, 40(6): 8-13.

    Huang L G, Chen Y Y. Research progress of effects of boron on formability and mechanical properties of titanium alloys[J]. Materials for Mechanical Engineering, 2016, 40(6): 8-13.

    Huang L G, Chen Y Y. Research progress of effects of boron on formability and mechanical properties of titanium alloys[J]. Materials for Mechanical Engineering, 2016, 40(6): 8-13.

[9] Bermingham M J, Kent D, Zhan H, et al. Controlling the microstructure and properties of wire arc additive manufactured Ti-6Al-4V with trace boron additions[J]. Acta Materialia, 2015, 91: 289-303.

    Bermingham M J, Kent D, Zhan H, et al. Controlling the microstructure and properties of wire arc additive manufactured Ti-6Al-4V with trace boron additions[J]. Acta Materialia, 2015, 91: 289-303.

[10] Brandl E, Schoberth A, Leyens C. Morphology, microstructure, and hardness of titanium (Ti-6Al-4V) blocks deposited by wire-feed additive layer manufacturing (ALM)[J]. Materials Science and Engineering A, 2012, 532: 295-307.

    Brandl E, Schoberth A, Leyens C. Morphology, microstructure, and hardness of titanium (Ti-6Al-4V) blocks deposited by wire-feed additive layer manufacturing (ALM)[J]. Materials Science and Engineering A, 2012, 532: 295-307.

[11] Kobryn P A, Semiatin S L. The laser additive manufacture of Ti-6Al-4V[J]. JOM, 2001, 53(9): 40-42.

    Kobryn P A, Semiatin S L. The laser additive manufacture of Ti-6Al-4V[J]. JOM, 2001, 53(9): 40-42.

[12] Baufeld B. Van der Biest O, Gault R. Additive manufacturing of Ti-6Al-4V components by shaped metal deposition: Microstructure and mechanical properties[J]. Materials & Design, 2010, 31(s1): 106-111.

    Baufeld B. Van der Biest O, Gault R. Additive manufacturing of Ti-6Al-4V components by shaped metal deposition: Microstructure and mechanical properties[J]. Materials & Design, 2010, 31(s1): 106-111.

[13] 李东, 赵永庆. 钛合金晶粒细化研制进展[J]. 材料导报, 2005, 19: 421-422.

    李东, 赵永庆. 钛合金晶粒细化研制进展[J]. 材料导报, 2005, 19: 421-422.

    Li D, Zhao Y Q. The development of grain refinement for titanium alloy[J]. Materials Review, 2005, 19: 421-422.

    Li D, Zhao Y Q. The development of grain refinement for titanium alloy[J]. Materials Review, 2005, 19: 421-422.

[14] 钱远宏, 谭华, 李静, 等. 高功率激光立体成形Ti-6Al-4V合金组织研究[J]. 稀有金属材料与工程, 2014, 43(9): 2162-2166.

    钱远宏, 谭华, 李静, 等. 高功率激光立体成形Ti-6Al-4V合金组织研究[J]. 稀有金属材料与工程, 2014, 43(9): 2162-2166.

    Qian Y H, Tan H, Li J, et al. Microstructure characterization of laser solid forming Ti-6Al-4V alloy by high power[J]. Rare Metal Materials and Engineering, 2014, 43(9): 2162-2166.

    Qian Y H, Tan H, Li J, et al. Microstructure characterization of laser solid forming Ti-6Al-4V alloy by high power[J]. Rare Metal Materials and Engineering, 2014, 43(9): 2162-2166.

[15] 师博飞, 张安峰, 齐宝路, 等. 热积累对激光直接成形Ti-6Al-4V组织和性能的影响[J]. 激光技术, 2016, 40(1): 29-32.

    师博飞, 张安峰, 齐宝路, 等. 热积累对激光直接成形Ti-6Al-4V组织和性能的影响[J]. 激光技术, 2016, 40(1): 29-32.

    Shi B F, Zhang A F, Qi B L, et al. Influence of heat accumulation on microstructure and property of Ti-6Al-4V in laser direct forming[J]. Laser Technology, 2016, 40(1): 29-32.

    Shi B F, Zhang A F, Qi B L, et al. Influence of heat accumulation on microstructure and property of Ti-6Al-4V in laser direct forming[J]. Laser Technology, 2016, 40(1): 29-32.

[16] 王敏, 郭鸿镇. TC4钛合金晶粒细化及超塑性研究[J]. 塑性工程学报, 2008, 15(4): 155-158.

    王敏, 郭鸿镇. TC4钛合金晶粒细化及超塑性研究[J]. 塑性工程学报, 2008, 15(4): 155-158.

    Wang M, Guo H Z. Study on superplasticity and fine-grained of TC4 alloy[J]. Journal of Plasticity Engineering, 2008, 15(4): 155-158.

    Wang M, Guo H Z. Study on superplasticity and fine-grained of TC4 alloy[J]. Journal of Plasticity Engineering, 2008, 15(4): 155-158.

[17] 罗皓, 陈志强. 硼改性钛合金研究进展[J]. 材料开发与应用, 2010, 25(4): 77-81.

    罗皓, 陈志强. 硼改性钛合金研究进展[J]. 材料开发与应用, 2010, 25(4): 77-81.

    Luo H, Chen Z Q. Progress in boron-modified titanium alloys[J]. Development and Application of Materials, 2010, 25(4): 77-81.

    Luo H, Chen Z Q. Progress in boron-modified titanium alloys[J]. Development and Application of Materials, 2010, 25(4): 77-81.

[18] Genç A, Banerjee R, Hill D, et al. Structure of TiB precipitates in laser deposited in situ, Ti-6Al-4V-TiB composites[J]. Materials Letters, 2006, 60(7): 859-863.

    Genç A, Banerjee R, Hill D, et al. Structure of TiB precipitates in laser deposited in situ, Ti-6Al-4V-TiB composites[J]. Materials Letters, 2006, 60(7): 859-863.

[19] Wang F, Mei J, Wu X H. Direct laser fabrication of Ti6Al4V/TiB[J]. Journal of Materials Processing Technology, 2008, 195(1/2/3): 321-326.

    Wang F, Mei J, Wu X H. Direct laser fabrication of Ti6Al4V/TiB[J]. Journal of Materials Processing Technology, 2008, 195(1/2/3): 321-326.

[20] Lin X, Li Y M, Wang M, et al. Columnar to equiaxed transition during alloy solidification[J]. Science in China Series E, 2003, 46(5): 475-489.

    Lin X, Li Y M, Wang M, et al. Columnar to equiaxed transition during alloy solidification[J]. Science in China Series E, 2003, 46(5): 475-489.

[21] 梁少端, 张安峰, 王谭, 等. 感应加热消除激光直接成形DD4零件裂纹[J]. 中国激光, 2017, 44(2): 0202003.

    梁少端, 张安峰, 王谭, 等. 感应加热消除激光直接成形DD4零件裂纹[J]. 中国激光, 2017, 44(2): 0202003.

    Liang S D, Zhang A F, Wang T, et al. Elimination of laser direct forming crack on DD4 parts by induction heating[J]. Chinese Journal of Lasers, 2017, 44(2): 0202003.

    Liang S D, Zhang A F, Wang T, et al. Elimination of laser direct forming crack on DD4 parts by induction heating[J]. Chinese Journal of Lasers, 2017, 44(2): 0202003.