基本信息

        张林杰,男,汉族,1973年出生,工学博士,教授,博士生导师。中国焊接学会焊接力学及结构设计与制造专业委员会副主任,中国焊接学会高能束及特种焊接专业委员会委员中国焊接学会计算机辅助焊接工程专业委员会委员,中国焊接学会青年工作委员会常务委员,获陕西高等学校科学技术奖一等奖2项

 

         联系方式:
         710049 陕西省西安市咸宁西路28号,西安交通大学材料科学与工程学院焊接所

         Email: zhanglinjie@mail.xjtu.edu.cn
        手机: 18109271105

        主页: http://gr.xjtu.edu.cn/web/zhanglinjie

教育经历

2003.03 - 2008.03    西安交通大学       材料加工工程专业焊接)  博士

2000.09 - 2003.03    西北工业大学       材料加工工程专业焊接)  硕士

1991.09 - 1995.07    哈尔滨工业大学   焊接工艺及设备专业             学士

工作经历

2020.01 -                 西安交通大学材料学院焊接所             教授

2015.01 - 2019.12   西安交通大学材料学院焊接所             副教授

2008.07 - 2014.12    西安交通大学材料学院焊接所            讲师
2012.01 - 2013.01    韩国科学技术院                                  BK21博士后
2006.04 - 2007.04    日本大阪大学接合科学研究所             研究员
1995.08 - 2000.08    航天部第四研究院7422厂容器分厂     助理工程师

专利和论文

已授权的专利:

[9] ZL201710284251.0,西安交通大学,一种基于微合金化与同步寄生钎焊的钼合金熔焊方法.

[8] ZL2017102834552,西安交通大学, 一种提高钼及钼合金熔焊焊缝强韧性的微合金化方法.
[7] ZL2018102366241,西安交通大学,一种核燃料棒包壳高压充氦与激光焊接成套焊接设备.
[6] ZL2017101340610,西安交通大学,一种用于大长径比燃料棒包壳环焊的激光焊接装置.
[5] ZL2017108126340,西安交通大学,基于波形调制的钼及钼合金对接接头的脉冲激光焊接方法.
[4] ZL2017104333271,西安交通大学,提高机械结合型双金属复合管中覆层与基层结合强度的方法.
[3] ZL2016106171718,西安交通大学,以T2紫铜作为过渡层的钛 钢复合板激光填丝对接焊方法.
[2] ZL2016108751826,西安交通大学,一种基于阶梯孔法的内部残余应力测量方法.
[1] ZL2014102137827,西安交通大学,厚钢板激光全穿透焊接熔池三维形状检测及重构方法.

 已申请的专利:

[15] 201911329190.0,西安交通大学,一种微量微米级RE2O3颗粒多级细化微观组织的钛合金填丝增材制造方法.
[14] 201911288776.7,西安交通大学,一种含工艺台阶外部件与薄板基体的激光调制焊接方法.
[13] 201911024959.8,西安交通大学,一种增材制造与修复用铁粉的气雾化制备工艺.
[12] 2019109953513,西安交通大学,基于超声波驻场防止熔池下榻的发卡式接头焊缝控形系统.
[11] 201910324395.3,西安交通大学,通过固体渗碳方式提高钼及钼合金熔焊焊缝强度的方法.
[10] 201910872920.5, 西安交通大学,电弧增材制造应急修复船舶受损Al-Mg系铝合金构件的方法.
[9] 201910054144.8,西安交通大学,一种提高Mg-10Li-3Al-3Zn镁锂合金表面耐蚀性的方法.
[8] 201811616715.4,西安交通大学,一种厚板单面填充焊接接头残余应力变形控制方法.
[7] 201810236624.1,西安交通大学,一种核燃料棒包壳高压充氦与激光焊接成套焊接设备.
[6] 201710909722.2,西安交通大学,一种基于热循环调控的钼及钼合金激光焊接方法.
[5] 201710284251.0,西安交通大学,一种基于微合金化与同步寄生钎焊的钼合金熔焊方法.
[4] 201710283455.2,西安交通大学,一种提高钼及钼合金熔焊焊缝强韧性的微合金化方法.
[3] 201710434499.0,西安交通大学,基于功率调制改善紫铜激光-电弧复合焊稳定性的方法.
[2] 201710433335.6,西安交通大学,评估正弦调制影响高反射率材料激光焊能量耦合行为的方法.
[1] 201710602110.9,西安交通大学,一种基于功率调制提高紫铜光纤激光焊接热效率的方法.

 已发表的学术论文:

2020 

[70] Lin-Jie Zhang, Hai-Bo Zhang*, et al. Improving corrosion resistance of Mg-10Li-3Al-3Zn alloy by laser surface processing [J], Journal of Manufacturing Processes, 2020.

[69] Lin-Jie Zhang, Ru-Yuan Ma*, Yan-Bin Zhang, Qian Guo, Chen-Hong Wang, Jian-Xun Zhang, Suck-Joo Na. Investigation on dissimilar laser beam welding of molybdenum to zirconium via pure titanium interlayer [J]. Optics and Laser Technology, 2020.

[68] Jian LongLin-Jie Zhang*, et al. Towards better understanding of hyperbaric fiber laser spot welding of metallic material [J], Journal of Manufacturing Processes, 2020.

[67] Jiahao WenLin-Jie Zhang, Jie Ning, et al. Laser additively manufactured intensive dual-phase steels and their microstructures, properties and corrosion resistance [J], Materials & Design, 2020.

[66] Sen LiLin-Jie Zhang, Jie Ning, et al. Comparative study on the microstructures and properties of wire+arc additively manufactured 5356 aluminium alloy with argon and nitrogen as the shielding gas [J], Additive Manufacturing, 2020.

[65] Lin-Jie Zhang, Qian Guo*, et al. Evolution of microstructures and performance of laser welded GH3128/Mo dissimilar joints [J], Journal of Materials Engineering and Performance, 2020.

[64] Jian Long, Lin-Jie Zhang*, et al. Fiber laser spot welding of molybdenum alloy in a hyperbaric environment[J], Optics Express, 2020.

[63] Jian Long, Lin-Jie Zhang*, Liang-Liang Zhang, Xiang Wang, Gui-Feng Zhang, Jian-Xun Zhang. Effects of minor Zr addition on the microstructure and mechanical properties of laser welded joint of Al/SiCp metal-matrix composite [J], Journal of Manufacturing Processes, 2020, 49: 373–384.

[62] Jian Long, Lin-Jie Zhang*, Qun-Bing Zhang, Wen-Ke Wang, Jie Zhong, Jian-Xun Zhang. Microstructural characteristics and low cycle fatigue properties at 230°C of different weld zone materials from a 100mm thick dissimilar weld of ultra-supercritical rotor steel [J], International Journal of Fatigue, 2020, 130: 105248.

2019

[61] Liang-Liang Zhang, Lin-Jie Zhang*, Jian Long, Jie Ning, Jian-Xun Zhang, Suck-Joo Na. Effects of titanium on grain boundary strength in molybdenum laser weld bead and formation and strengthening mechanisms of brazing layer [J]. Materials & Design, 2019, 169: 107681.

[60] Lin-Jie Zhang, Jiang-Zhe Liu*, Jun-Yu Pei, Jie Ning, Liang-Liang Zhang, Jian Long, Gui-Feng Zhang, Jian-Xun Zhang, Suck-Joo Na. Effects of Power Modulation, Multipass Remelting and Zr Addition Upon Porosity Defects in Laser Seal Welding of End Plug to Thin-Walled Molybdenum Alloy [J]. Journal of Manufacturing Processes, 2019, 41: 197–207.

[59] Liang-Liang Zhang, Lin-Jie Zhang, Jian Long, Xu Sun, Jian-Xun Zhang, Suck-Joo Na. Enhanced mechanical performance of fusion zone in laser beam welding joint of molybdenum alloy due to solid carburizing [J]. Materials and Design, 2019, 181: 107957.

[58] Lin-Jie Zhang, Chen-Hong Wang*, Yan-Bin Zhang, Qian Guo, Ru-Yuan Ma, Jian-Xun Zhang, Suck-Joo Na. The mechanical properties and interface bonding mechanism of Molybdenum/SUS304L by laser beam welding with nickel interlayer [J]. Materials and Design, 2019, 182: 108002.

[57] Jie Ning, Lin-Jie Zhang*, Cheng-qian Han, Hai-Bo Zhang, Xiao-Wei Lei, Bai-Feng Han. Fiber laser welding characteristics of the butt welded joint of novel ultralight Mg-10.1Li-3.1Al-2.9Zn alloy [J]. Materials Research Express, 2019, 6(10): 106545.

[56] Zhifen Zhang, Linjie Zhang, Guangrui Wen*. Study of inner porosity detection for Al-Mg alloy in arc welding through on-line optical spectroscopy: Correlation and feature reduction [J]. Journal of Manufacturing Processes. 2019, 39: 79-92.

[55] Ning J, Zhang LJ*, Yin XQ, Zhang JX, Na SJ. Mechanism study on the effects of power modulation on energy coupling efficiency in infrared laser welding of high-reflectivity materials [J], Materials & Design, 2019, 178(15): 10871.

[54] Ning J, Zhang LJ*, Yang JN, Yin XQ, Wang XW, Wu J. Characteristics of multi-pass narrow-gap laser welding of D406A ultra-high strength steel [J]. J Mater Process Tech, 2019, 270: 168-181.

[53] Ning J, Hong KM, Inamke GV, Shin YC*, Zhang LJ. Analysis of microstructure and mechanical strength of lap joints of TZM alloy welded by a fiber laser [J]. J Manuf Process, 2019, 39: 146-159.

[52] Zhang Lin-Jie, Liu Jiang-Zhe*, Bai Qing-Lin, Wang Xue-Wu, Sun Yuan-Jun, Li Si-Gong, Gong Xing, Effect of preheating on the microstructure and properties of fiber laser welded girth joint of thin-walled nanostructured Mo alloy [J], International Journal of Refractory Metals and Hard Materials, 2019, 78: 219-227.

[51] Lin-Jie Zhang, Jun-Yu Pei*, Liang-Liang Zhang, Jian Long, Jian-Xun Zhang, Suck-Joo Na, Laser seal welding of end plug to thin-walled nanostructured high-strength molybdenum alloy cladding with a zirconium interlayer [J], Journal of Materials Processing Technology, 2019, 267: 338-347.

[50] Lin-Jie Zhang, Guang-Feng Lu*, Jie Ning, Qi Zhu, Jian-Xun Zhang, Suck-Joo Na, Effects of minor Zr addition on the microstructure and mechanical properties of laser welded dissimilar joint of titanium and molybdenum [J], Materials Science & Engineering A, 2019, 742: 788-797.

2018

[49] Zhang Linjie, Lu Guangfeng*, Ning Jie, Zhang Liangliang, Long Jian, Zhang Guifeng, Influence of Beam Offset on Dissimilar Laser Welding of Molybdenum to Titanium[J], Materials, 2018, 11(10): 1852.

[48]Zhang L J, Pei J Y*, Long J, et al. Effects of Laser Welding and Post-Weld Heat Treatment on Microstructure and Mechanical Properties of Aged Ti55531 Alloy [J]. Materials, 2018, 11(10): 1907.

[47] Yang J N, Zhang L J*, Ning J, et al. Fiber laser welding characteristics of commercially pure zirconium (R60702) and structure-mechanics-corrosion performances of the joint [J]. International Journal of Refractory Metals & Hard Materials, 2018, 73: 58-73.

[46] Gao X L, Liu J, Zhang L J. Dissimilar metal welding of Ti6Al4V and Inconel 718 through pulsed laser welding-induced eutectic reaction technology [J]. International Journal of Advanced Manufacturing Technology, 2018, 96(1-4): 1061-1071.

[45] Lu G F, Zhang L J*, Pei Y, Ning J, Zhang J X. Study on the Size Effects of H-Shaped Fusion Zone of Fiber Laser Welded AZ31 Joint [J]. Metals, 2018, 8: 198. 

[44] Liu J Z, Zhang L J*, Yang H X, et al. Enhancement of corrosion protection performance of SUS304/Q235B dissimilar metals lap joint through fiber laser [J]. International Journal of Advanced Manufacturing Technology, 2018, 96(1–4): 789-802.

2017

[43] Jian-Nan Yang, Lin-Jie Zhang*, Jie Ning, Qing-Lin Bai, Xian-Qing Yin, Jian-Xun Zhang. Single pass laser-MIG hybrid welding of 8-mm thick pure copper (T2) without preheating: Microstructure and properties [J]. Applied Thermal Engineering, 2017,126: 867–883.

[42] Ning-Nian Gou, Lin-Jie Zhang*, Jian-Xun Zhang. Increased quality and welding efficiency of laser butt welding of 2205/X65 bimetallic sheets with a lagging MIG arc [J]. Journal of Materials Processing Technology, 2017, (Available online 16 August 2017).

[41] Ning Jie, Zhang Linjie*, Zhang Xingjun. Energy Coupling Behavior in Modulated Fiber Laser Welding of High Reflectivity AZ31 Magnesium Alloy [J]. RARE METAL MATERIALS AND ENGINEERING, 2017, 46(5): 1437-1444.

[40] Jian-Nan Yang, Lin-Jie Zhang*, Jie Ning, Qing-Lin Bai, Xian-Qing Yin, Jian-Xun Zhang. Single-pass hybrid laser-MIG welding of 8-mm-thick pure copper (T2) without preheating: weld geometry and integrity [J]. International Journal of Advanced Manufacturing Technology, 2017,91(9-12):3749-3773

[39] Ning J, Zhang L J*, Bai Q L, et al. Comparison of the microstructure and mechanical performance of 2A97 Al-Li alloy joints between autogenous and non-autogenous laser welding[J]. Materials & Design, 2017, 120:144–156.

[38] Jie Ning, Lin-Jie Zhang*, Gui-chuan Jiang, Miao-xia Xie, Xian-qing Yin, Jian-xun Zhang. Narrow gap multi-pass laser butt welding of explosion welded CP-Ti/Q235B bimetallic sheet by using a copper interlayer [J]. Journal of Alloys and Compounds, 2017, 701: 587-602.

[37] Bai QL, Zhang L J*, Xie MX, et al. An investigation into the inhomogeneity of the microstructure and mechanical properties of explosive welded H62-brass/Q235B-steel clad plates [J]. International Journal of Advanced Manufacturing Technology, 2017, 90(5): 1351-1363.

[36] Jie Ning, Lin-Jie Zhang*, Meng-Jun Sun, Xian-Qing Yin, Jing Niu, Jian-Xun Zhang. Studies of the characteristics and size effects of softened zone of laser welded 20MnTiB joint [J]. Journal of Materials Processing Technology, 2017, 243: 405-419.

[35] Jie Ning, Lin-jie Zhang*, Miao-xia Xie, Han-Xin Yang, Xian-qing Yin, Jian-xun Zhang. Microstructure and property inhomogeneity investigations of bonded Zr/Ti/steel trimetallic sheet fabricated by explosive welding [J]. Journal of Alloys and Compounds, 2017, 698: 835-851.

[34]  Ning J., Zhang L. J.*, Na S. J., Yin X. Q., Niu J., Zhang J. X., et al..Numerical study of the effect of laser-arc distance on laser energy coupling in pulsed Nd:YAG laser/TIG hybrid welding [J]. International Journal of Advanced Manufacturing Technology, 2017, 91(1-4):1129-1143.

2016

[33] Zhang L J, Bai Q L*, Ning J, et al. A comparative study on the microstructure and properties of copper joint between MIG welding and laser-MIG hybrid welding [J]. Materials & Design, 2016, 110:35-50.

[32] Ning J, Zhang L J*, Wang A, et al. Effects of double-pass welding and extrusion on properties of fiber laser welded 1.5-mm thick T2 copper joints [J]. Journal of Materials Processing Technology, 2016, 237:75-87.

[31] Zhang L J, Na S J*, Zhang J X. Using arc pressure to investigate the effects of energy source distance on arc plasma behaviour in pulsed Nd:YAG laser/tungsten inert gas (TIG) arc hybrid welding [J]. Lasers in Engineering, 2016, 33(4-6): 279-292.

[30] Zhang L J, Zhang G F*, Bai X Y, et al. Effect of the process parameters on the three-dimensional shape of molten pool during full-penetration laser welding process [J]. International Journal of Advanced Manufacturing Technology, 2016, 86(5-8):1273-1286.

[29] Zhang Gui-Feng, Zhang Lin-Jie*, et al. Development of friction stir spot brazing (FSSB) [J]. Materials & Design, 2016, 94: 502-514.

[28] Gou N N, Zhang J X*, Zhang L J, et al. Single pass fiber laser butt welding of explosively welded 2205/X65 bimetallic sheets and study on the properties of the welded joint [J]. International Journal of Advanced Manufacturing Technology, 2016, 86(9-12):1-11.

2015

[27] Xie Miao-Xia, Zhang Lin-Jie*, et al. Microstructure and mechanical properties of CP-Ti_X65 bimetallic sheets fabricated by explosive welding and hot rolling [J]. Materials & Design, 2015, 87:181-197.

[26] Zhang Lin-Jie, Zhang Gui-Feng*, et al. Microstructure and properties of the laser butt welded 1.5-mm thick T2 copper joint achieved at high welding speed [J]. Materials & Design, 2015, 88:720-736. 

[25] Zhang L J, Ning J*, et al. Single pass hybrid laser–MIG welding of 4-mm thick copper without preheating [J]. Materials & Design, 2015, 74: 1-18.

[24] Wu Bo, Zhang Lin-Jie*, Zhang Jian-Xun, et al. An investigation of ultrasonic nanocrystal surface modification machining process by numerical simulation [J]. Advances in Engineering Software, 83:59-69, 2015.

[23] Liu J, Gao X L, Zhang L J*, et al. Effects of the Heterogeneity in the Electron Beam Welded Joint on Mechanical Properties of Ti6Al4V Alloy [J]. Journal of Materials Engineering and Performance, 2015, 24(1):319-328.

[22] Zhang GF*, Liao XJ, Chen B, Zhang L J, et al. Approach to In-Situ Producing Reinforcing Phase Within an Active-Transient Liquid Phase Bond Seam for Aluminum Matrix Composite[J]. Metallurgical and Materials Transactions A, 2015, 46(6):2568-2578.

[21]Powell, J., Ilar, T., Frostevarg, J., Torkamany, M. J., Na, S J, & Petring, D., L J Zhang, et al. Powell J, Ilar T, Frostevarg J, et al. Weld root instabilities in fiber laser welding[J]. Journal of Laser Applications, 2015, 27: S29008.

[20]Zhang L J, Zhang X J, Ning J*, et al. Modulated fiber laser welding of high reflective AZ31[J]. The International Journal of Advanced Manufacturing Technology, 2015, 76(1):721-733.

2014

[19] Zhang L J*, Zhang, J. X., Gumenyuk, A., Rethmeier, M., Na, S. J*. Numerical simulation of full penetration laser welding of thick steel plate with high power high brightness laser [J]. Journal of Materials Processing Technology, 2014, 214(8): 1710-1720.

[18] Zhang L J*, Pei Q, Zhang J X, et al. Study on the microstructure and mechanical properties of explosive welded 2205/X65 bimetallic sheet[J]. Materials & Design, 2014, 64: 462-476.

[17] Zhang L J, Gao X L*, Sun M J, et al. Weld outline comparison between various pulsed Nd: YAG laser welding and pulsed Nd: YAG laser–TIG arc welding [J]. The International Journal of Advanced Manufacturing Technology, 2014, 75(1-4): 153-160.

[16] Liu J, Gao X L, Zhang L J*. On the Use of Infrared Thermography for Analysis of Fatigue Damage in Ti6Al4V-Welded Joints [J]. Journal of Materials Engineering and Performance, 2014, 23(8):2965-2972.

[15] Gao X L, Zhang L J*, Liu J, et al. Porosity and microstructure in pulsed Nd: YAG laser welded Ti6Al4V sheet [J]. Journal of Materials Processing Technology, 2014, 214(7): 1316-1325.

[14] Gao X L, Zhang L J*, Liu J, et al. Effects of weld cross-section profiles and microstructure on properties of pulsed Nd: YAG laser welding of Ti6Al4V sheet [J]. The International Journal of Advanced Manufacturing Technology, 2014, 72(5-8): 895-903.

[13] Tan L, Zhang L J*, Zhang J X, et al. Effect of geometric construction on residual stress distribution in designing a nuclear rotor joined by multipass narrow gap welding[J]. Fusion Engineering and Design, 2014, 89(4): 456-465.

[12] Liu J, Gao X L, Zhang L J*, et al. A study of fatigue damage evolution on pulsed Nd: YAG Ti6Al4V laser welded joints [J]. Engineering Fracture Mechanics, 2014, 117: 84-93.

[11] Gao X L, Liu J, Zhang L J*, et al. Effect of the overlapping factor on the microstructure and mechanical properties of pulsed Nd: YAG laser welded Ti6Al4V sheets [J]. Materials Characterization, 2014, 93: 136-149.

[10] Bo Wu, Jianxun Zhang*, Linjie Zhang, et al. Effect of ultrasonic nanocrystal surface modification on surface and fatigue properties of quenching and tempering S45C steel [J]. Applied Surface Science, 2014, 321: 318-330.

2013

[9] Gao X L, Zhang L J*, Liu J, et al. A comparative study of pulsed Nd: YAG laser welding and TIG welding of thin Ti6Al4V titanium alloy plate [J]. Materials Science and Engineering: A, 2013, 559: 14-21.

2011

[8] Zhang L J*, Zhang J X, Zhang G F, et al. An investigation on the effects of side assisting gas flow and metallic vapour jet on the stability of keyhole and molten pool during laser full-penetration welding [J]. Journal of Physics D: Applied Physics, 2011, 44(13): 135201.

[7] Zhang L J, Zhang J X, Wu B, et al. Simulation on the Melt Flow in Laser Full Penetration Welding with a Model Including a Non-Rotational Symmetry Keyhole Based on Energy Balance[J]. RARE METAL MATERIALS AND ENGINEERING, 2011, 40: 120-124.

2010

[6] L J ZhangJ X ZhangH SerizawaH Murakawa*. Efficiency comparison between iterative substructure method and commercial software [J]. Transactions of JWRI, 2010, 39(2): 187-189.

2009

[5] Zhang L J*, Zhang J X, Gong S L. Mechanism study on the effects of side assisting gas velocity during CO2 laser welding process [J]. Journal of Applied Physics, 2009, 106(2): 024912.

2007

[4] L J ZhangJ X ZhangH Kalaoui*, et al. A comparative study of the effects of weld geometry on the residual deformation of automotive gear-case assembly due to high-energy welding [J]. Journal of Materials Processing Technology, 2007, 190(1-3):109-116.

[3] Linjie Zhang, Jianxun Zhang, et al. Parametric studies of welding distortion in a fillet welded structure based on FEA using Iterative Sub-structure Method [J]. Science and Technology of Welding and Joining, 2007, 12(8):703-707.

2006

[2] Zhang LJ, Zhang JX, Murakawa H*. An Analysis of the Role of Side Assisting Gas during CO2 Laser Welding [J]. Transactions of JWRI, 2006, 35:89-94.

[1] Linjie Zhang*, Jianxun Zhang, et al. Numerical and experimental study of the effects of side assisting gas during laser welding [J]. Modelling and Simulation in Materials Science and Engineering, 2006, 14(5): 875-890.

 

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