西南交通大学材料科学与工程学院导师教师师资介绍简介-熊俊

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个人信息MORE +
熊俊教授
所在单位： 材料科学与工程学院
办公地点： 西南交通大学九里校区3号楼
联系方式： xiongjun@home.swjtu.edu.cn
学位： 工学博士学位
职称： 教授
电子邮箱： xiongjun@home.swjtu.edu.cn
毕业院校： 哈尔滨工业大学
博士生导师
硕士生导师
学科：材料加工工程

通讯/办公地址：
同专业博导同专业硕导

个人简介
熊俊，工学博士，教授，博士生导师，中国焊接青委会委员，机械工程学会高级会员，四川省增材制造技术协会会员。2018年入选首届四川省科协青年人才托举工程，2016年入选西南交通大学雏鹰****，2015年获天府焊接新人奖。长期从事金属结构件增材制造控形控性与焊接领域基础研究，主要聚焦于成形过程在线检测与智能控制、温度-流场-应力数值计算、组织性能表征。先后主持国家自然科学基金3项，四川省重点研发计划2项，国家重点实验室开放课题1项，中国博士后科学基金面上项目一等资助1项。在国内外知名期刊上以第一（通讯）作者发表SCI期刊论文40余篇，EI论文6篇，Web of Science核心合集中SCI总他引610余次，第一发明人授权国家发明专利20项。

教育经历
[1] 2010.9-2014.6
哈尔滨工业大学|材料加工工程|博士研究生毕业|工学博士学位
[2] 2008.9-2010.7
哈尔滨工业大学|材料加工工程|硕士研究生毕业|工学硕士学位
[3] 2004.9-2008.6
武汉科技大学|材料成型及控制工程|大学本科毕业|工学学士学位

研究方向
[1]金属增材制造（3D打印）
[2]Advanced Welding Technology
[3]焊接过程传感与智能控制

工作经历
[1] 2020.12-至今
西南交通大学 | 教授
[2] 2016.9-2020.12
西南交通大学 | 副教授
[3] 2014.9-2016.8
西南交通大学 | 博士后、副研究员

团队成员
“轨道交通关键材料及服役安全评价技术”四川省青年科技创新团队
团队介绍： “轨道交通关键材料及服役安全评价技术”四川省青年科技创新团队，团队负责人陈辉教授，团队由材料加工系十余名教师组成。

Copyright ? 2019 西南交通大学. All Rights Reserved.蜀ICP备**号
地址：中国四川省成都市高新区西部园区西南交通大学
川公网安备061号
技术支持：信息化与网络管理处
访问量：次

个人信息MORE +
熊俊教授
所在单位： 材料科学与工程学院
办公地点： 西南交通大学九里校区3号楼
联系方式： xiongjun@home.swjtu.edu.cn
学位： 工学博士学位
职称： 教授
电子邮箱： xiongjun@home.swjtu.edu.cn
毕业院校： 哈尔滨工业大学
博士生导师
硕士生导师
学科：材料加工工程

同专业博导同专业硕导

科学研究当前位置: 中文主页 >> 科学研究

科研项目

主持科研项目
国家自然科学基金面上项目、前-反馈协同作用下冷丝辅助GTA增材制造多光路感知与高精度生长调控机制、2020.01-2023.12
国家自然科学基金面上项目、基于立体视觉的GMAW增材制造堆积形貌三维重建与智能控制研究、2016.01-2019.12、已结题
国家自然科学基金青年基金、变堆积位姿下低功率激光辅助P-GMAW增材制造熔池流动行为及成形控制研究、2016.01-2018.12、已结题
四川省科协青年人才托举工程项目、弧焊增材制造立体成形智能检测与控制、2018.01-2020.12、已结题
四川省重点研发计划、火箭贮箱椭球面上铝合金法兰电弧熔丝增材制造成形智能传感与控制、2020.01-2021.12
四川省重点研发计划、电弧与视觉协同检测的弧焊机器人增材制造立体成形高精度智能控制技术、2019. 01-2020.12、已结题
四川省科技支撑计划、弧焊机器人大尺寸复杂件增材制造成形工艺及路径自动规划技术、2015.01-2017.12、已结题
先进焊接与连接国家重点实验室开放课题、弧压传感的脉冲GTA增材制造过程稳态调控、2021.01-2022.12
中国博士后科学基金面上项目一等资助、薄壁构件GMAW增材制造温度-应力演变规律与调控、2016.01-2016.06、已结题
西南交通大学青年教师拔尖人才培育计划-雏鹰****、2016.12-2019.12、已结题
西南交通大学引进人才项目、2016.06-2018.06、已结题

论文成果
目前，在Additive Manufacturing, Robotics and Computer-Integrated Manufacturing, Journal of Materials Processing Technology等国内外期刊上以第一（通讯）作者发表SCI论文40篇，EI论文6篇，Web of Science核心合集总他引610余次。
近5年论文
46.Jun Xiong*, Menghan Shi, Yanping Liu, Ziqiu Yin. Virtual binocular vision sensing and control of molten pool width for gas metal arc additive manufactured thin-walled components.Additive Manufacturing. 2020, 33: 101121. (SCI)
45. Guangchao Liu, Jun Xiong*, Lun Tang. Microstructure and mechanical properties of 2219 aluminum alloy fabricated by double-electrode gas metal arc additive manufacturing. Additive Manufacturing. 2020, 35: 101375. (SCI)

44. Jun Xiong*, Beibei Zhu, Hui Chen, Senmu Zheng. Peak elimination of cross structures in wire and arc additive manufacturing using closed-loop control. Journal of Manufacturing Processes. 2020, 58: 368-376. (SCI)
43. Guangchao Liu, Jun Xiong*. External filler wire based GMA-AM process of 2219 aluminum alloy.Materials and Manufacturing Processes. 2020, 35(11): 1268-1277.
42.Jun Xiong*, Yiyang Zhang, Yupeng Pi. Control of deposition height in WAAM using visual inspection of previous and current layers.Journal of Intelligent Manufacturing. 2020, DOI: 10.1007/s10845-020-01634-6. (SCI)
41.Yang Ke, Jun Xiong*. Microstructure and mechanical properties of double-wire feed GTA additive manufactured 308L stainless steel.Rapid Prototyping Journal. 2020, DOI: 10.1108/RPJ-09-2019-0238. (SCI)
40.Ziqiu Yin, Jun Xiong*. Stereovision measurement of layer geometry in wire and arc additive manufacturing with various stereo matching algorithms. Journal of Manufacturing Processes. 2020, 56: 428-438. (SCI)
39.Dongqing Yang, Jun Xiong*, Rong Li. Numerical study of heat transfer characteristics in positional wire and arc additive manufacturing.Rapid Prototyping Journal. 2020, DOI 10.1108/RPJ-01-2020-0016.
38. Beibei Zhu, Jun Xiong*. Increasing deposition height stability in robotic GTA additive manufacturing based on arc voltage sensing and control. Robotics and Computer-Integrated Manufacturing.2020, 65: 101977. (SCI)
37.Jun Xiong*, Yanbo Liu, Ziqiu Yin. Passive vision measurement for robust reconstruction of molten pool in wire and arc additive manufacturing. Measurement. 2020, 153: 107407. (SCI)
36. Rong Li, Jun Xiong*. A numerical prediction of residual stress for a thin-walled part with geometrical features fabricated by GMA-based additive manufacturing. Rapid Prototyping Journal. 2020, 26(2): 299-308. (SCI)
35. Rong Li, Jun Xiong*. Influence of interlayer dwell time on stress field of thin-walled components in WAAM via numerical simulation and experimental tests. Rapid Prototyping Journal. 2019, 25(8): 1433-1441. (SCI)
34. Rong Li, Jun Xiong*. Role of substrate shape on thermal energy transmission in robotized wire and arc additive manufacturing. Rapid Prototyping Journal. 2019, 2019, 25(7): 1285-1294. (SCI)
33.Jun Xiong*, Guangchao Liu, Yupeng Pi. Increasing stability in robotic GTA-based additive manufacturing through optical measurement and feedback control. Robotics and Computer-Integrated Manufacturing. 2019, 59: 385-393. (SCI)
32.Jun Xiong*, Yupeng Pi, Hui Chen. Deposition height detection and feature point extraction in robotic GTA-based additive manufacturing using passive vision sensing. Robotics and Computer-Integrated Manufacturing. 2019, 59: 326-334. (SCI)
31.Jun Xiong*, Shuangyang Zou. Active vision sensing and feedback control of back penetration for thin sheet aluminum alloy in pulsed MIG suspension welding. Journal of Process Control. 2019, 77: 89-96. (SCI)
30. Rong Li, Jun Xiong*, Yangyang Lei. Investigation on thermal stress evolution induced by wire and arc additive manufacturing for circular thin-walled parts. Journal of Manufacturing Processes. 2019, 40: 59-67. (SCI)
29. Yanjiang Li, Jun Xiong*, Ziqiu Yin. Molten pool stability of thin-wall parts in robotic GMA-based additive manufacturing with various position depositions. Robotics and Computer-Integrated Manufacturing. 2019, 56: 1-11. (SCI)
28.Jun Xiong*, Yue Mao, Huihui Zhao. Additive manufacturing of high-strength weathering steel parts fabricated by GTA: microstructure and mechanical properties. Proceedings of the Institution of Mechanical Engineers, Part B: Journal of Engineering Manufacture. 2019, 233(11): 2127-2137. (SCI)
27.朱贝贝, 熊俊*. 交叉件GTA填丝增材制造弧压检测与成形控制. 机械工程学报. 2019, 55(15): 17-23. (EI)
26.张闯, 熊俊*. 基于焊工调节的铝合金脉冲MIG焊背面熔透建模. 焊接学报. 2019, 40(8): 76-79. (EI)
25. 皮宇鹏，熊俊*，赵慧慧，陈辉. GTAW填丝增材制造熔池尾部固液分界点跟踪算法. 焊接学报. 2019, 40(2): 104-109. (EI)
24. 尹紫秋, 熊俊*. 基于ACT匹配的GMA增材制造熔池形貌三维重建. 焊接学报. 2019, 40(1): 49-52. (EI)
23.Jun Xiong*, Yanjiang Li, Ziqiu Yin, Hui Chen. Determination of surface roughness in wire and arc additive manufacturing based on laser vision sensing. Chinese Journal of Mechanical Engineering. 2018, 31: 74. (SCI)
22. Yangyang Lei, Jun Xiong*, Rong Li. Effect of inter layer idle time on thermal behavior for multi-layer single-pass thin-walled parts in GMAW-based additive manufacturing. International Journal of Advanced Manufacturing Technology. 2018, 96: 1355-1365. (SCI)
21.Jun Xiong*, Yanjiang Li, Rong Li, Ziqiu Yin. Influences of process parameters on surface roughness of multi-layer single-pass thin-walled parts in GMAW-based additive manufacturing. Journal of Materials Processing Technology. 2018, 252: 128-136. (SCI)
20.Jun Xiong*, Rong Li, Yangyang Lei, Hui Chen. Heat propagation of circular thin-walled parts fabricated in additive manufacturing using gas metal arc welding. Journal of Materials Processing Technology. 2018, 251: 12-19. (SCI)
19.Jun Xiong*, Yangyang Lei, Rong Li. Finite element analysis and experimental validation of thermal behavior for thin-walled parts in GMAW-based additive manufacturing with various substrate preheating temperatures. Applied Thermal Engineering. 2017, 126: 43-52. (SCI)
18.Jun Xiong*, Yangyang Lei, Hui Chen, Guangjun Zhang. Fabrication of inclined thin-walled parts in multi-layer single-pass GMAW-based additive manufacturing with flat position deposition. Journal of Materials Processing Technology. 2017, 240: 397-403. (SCI)
17.Jun Xiong, Ziqiu Yin, Weihua Zhang*. Closed-loop control of variable layer width for thin-walled parts in wire and arc additive manufacturing. Journal of Materials Processing Technology. 2016, 233: 100-106. (SCI)
16.Jun Xiong, Ziqiu Yin, Weihua Zhang*. Forming appearance control of arc striking and extinguishing area in multi-layer single-pass GMAW-based additive manufacturing. International Journal of Advanced Manufacturing Technology. 2016, 87(1-4): 579-586. (SCI)
2016年以前发表论文
15.Jun Xiong, Shuyi Liu, Guangjun Zhang*. Thermal cycle and microstructure of backing weld in double-sided TIG arc horizontal welding of high-strength steel thick plate. International Journal of Advanced Manufacturing Technology. 2015, 81, 1939-1947. (SCI)
14.Jun Xiong, Guangjun Zhang*, Weihua Zhang. Forming appearance analysis in multi-layer single-pass GMAW-based additive manufacturing. International Journal of Advanced Manufacturing Technology. 2015, 80: 1767-1776. (SCI)
13. Tao Yang, Jun Xiong*, Hui Chen. Effect of process parameters on tensile strength in plasma-MIG hybrid welding for 2219 aluminum alloy. International Journal of Advanced Manufacturing Technology. 2016, 84: 2413-2421. (SCI)
12. 雷洋洋, 熊俊*, 李蓉, 陈辉. 基板厚度对薄壁件GMAW增材制造温度场的影响. 焊接学报. 2018, 39(5): 73-76. (EI)
11.Jun Xiong, Guangjun Zhang*, Zhilong Qiu, Yongzhe Li. Vision-sensing and bead width control of a single-bead multi-layer part: material and energy savings in GMAW-based rapid manufacturing. Journal of Cleaner Production. 2013, 41, 82-88. (SCI)
10.Jun Xiong, Guangjun Zhang*. Adaptive control of deposited height in GMAW-based layer additive manufacturing. Journal of Materials Processing Technology. 2014, 214, 962-968. (SCI)
9.Jun Xiong, Guangjun Zhang*. Online measurement of bead geometry in GMAW-based additive manufacturing using passive vision. Measurement Science and Technology. 2013, ** (7pp). (SCI)
8.Jun Xiong, Guangjun Zhang*, Hongming Gao, Lin Wu. Modeling of bead section profile and overlapping beads with experimental validation for robotic GMAW-based rapid manufacturing. Robotics and Computer-Integrated Manufacturing. 2013, 29(2), 417-423. (SCI)
7.Jun Xiong, Guangjun Zhang*, Jianwen Hu, Lin Wu. Bead geometry prediction for robotic GMAW-based rapid manufacturing through a neural network and a second-order regression analysis. Journal of Intelligent Manufacturing. 2014, 25(1), 157-163. (SCI)
6.Jun Xiong, Guangjun Zhang*, Jianwen Hu, Yongzhe Li. Forecasting process parameters for GMAW-based rapid manufacturing using closed-loop iteration based on neural network. International Journal of Advanced Manufacturing Technology. 2013, 69(1), 743-751. (SCI)
5.Jun Xiong, Guangjun Zhang, Yutang Hu, and Lin Wu. Reconstruction of Emission Coefficients for a Non-axisymmetric Coupling Arc Based on MALDONADO’s Method. Chinese Journal of Mechanical Engineering. 2012, 25(4): 781-785. (SCI)
4. Guangjun Zhang, Jun Xiong*, Hongming Gao, Lin Wu. Effect of process parameters on temperature distribution in twin-electrode TIG coupling arc. Journal of Quantitative Spectroscopy & Radiative Transfer. 2012, 113(15), 1938-1945. (SCI)
3. Guangjun Zhang, Jun Xiong*, Hongming Gao, Lin Wu. Reconstruction of emission coefficients for a non-axisymmetric coupling arc by algebraic reconstruction technique. Journal of Quantitative Spectroscopy & Radiative Transfer. 2011, 112(1), 92-99. (SCI)
2. Guangjun Zhang, Jun Xiong*, Yutang Hu. Spectroscopic diagnostics of temperatures for a non-axisymmetric coupling arc by monochromatic imaging. Measurement Science & Technology, 2010, 21(10), 1-5. (SCI)
1.熊俊, 张广军*, 胡玉堂. 基于迭代算法的焊接电弧发射系数重建. 焊接学报. 2010, 31(11): 105-108. (EI)

授权专利

授权发明专利20项
熊俊,喻永圣,施孟含,陈辉. 脉冲GTA填丝增材制造堆积层片双变量控制方法及系统. 专利号: ZL4.7.
熊俊,施孟含. 异种金属结构件低热输入多丝电弧增材制造方法与装置. 专利号: ZL6.2.
熊俊,喻永圣,施孟含. 弧压辅助的GTA增材制造熔宽检测视觉系统实时标定方法. 专利号: ZL5.8.
熊俊,刘广超,喻永圣,陈辉. 电弧填丝增材制造旁轴送丝方向控制装置. 专利号: ZL2.X

熊俊,喻永圣,刘广超,陈辉. 基于电流传感的交叉路径金属构件GMA增材制造方法. 专利号: ZL2.4.

熊俊,彭陈程,周锦霖,杨梓为,杨成列,薛振振. 金属构件电弧填丝增材制造实时降温装置与方法.专利号: ZL5.4.

熊俊,柯扬,尹紫秋. 电弧填丝增材制造分层切片工艺变量自动计算方法. 专利号: ZL9.6

熊俊, 李沿江, 陈辉. 减轻堆积层热积累的智能水冷电弧增材制造装置及方法. 专利号: ZL1.1.

熊俊, 柯扬, 陈辉. 列车制动盘类构件的GMAW增材制造方法. 专利号: ZL7.6.

熊俊,皮宇鹏,陈辉.前馈补偿的GTA填丝增材制造成形高度反馈控制方法.专利号: ZL6.2.
熊俊,朱贝贝.交叉结构件GTA填丝增材制造成形控制方法.专利号: ZL 3.6.
熊俊,李沿江,皮宇鹏,陈辉. GTA填丝增材制造弧长前馈检测与开环控制方法.专利号: ZL1.X.
熊俊,雷洋洋,李蓉,陈辉.一种薄壁构件电弧填丝增材制造温度场预测方法.专利号: ZL2.6.
熊俊,李蓉,邹双阳.基于焊工调节的铝合金MIG焊熔透控制系统与方法.专利号: ZL5.0.
熊俊,李蓉,皮宇鹏,陈辉.图像处理的GTAW增材制造堆积高度视觉检测方法及系统.专利号: ZL0.4.
熊俊,雷洋洋,尹紫秋,陈辉.非封闭薄壁结构件GTAW双重同步填丝增材制造方法.专利号: ZL2.9.
熊俊,李沿江,雷洋洋,陈辉.基于电弧电压反馈的GTAW增材制造过程稳定性检测方法.专利号: ZL6.X.
熊俊,尹紫秋,雷洋洋,陈辉. GMAW增材制造同向式成形方式成形形貌控制方法.专利号: ZL0.2.
熊俊,雷洋洋,尹紫秋,陈辉.倾斜薄壁结构件电弧填丝增材制造方法.专利号: ZL3.6.
熊俊,陈辉,杨涛,苟国庆,刘艳. GMA增材制造双被动视觉传感检测装置及其检测方法.专利号: ZL3.6.

著作成果
暂无内容

Copyright ? 2019 西南交通大学. All Rights Reserved.蜀ICP备**号
地址：中国四川省成都市高新区西部园区西南交通大学
川公网安备061号
技术支持：信息化与网络管理处
访问量：次

个人信息MORE +
熊俊教授
所在单位： 材料科学与工程学院
办公地点： 西南交通大学九里校区3号楼
联系方式： xiongjun@home.swjtu.edu.cn
学位： 工学博士学位
职称： 教授
电子邮箱： xiongjun@home.swjtu.edu.cn
毕业院校： 哈尔滨工业大学
博士生导师
硕士生导师
学科：材料加工工程

同专业博导同专业硕导

论文成果当前位置: 中文主页 >> 科学研究 >> 论文成果

目前，在Additive Manufacturing, Robotics and Computer-Integrated Manufacturing, Journal of Materials Processing Technology等国内外期刊上以第一（通讯）作者发表SCI论文40篇，EI论文6篇，Web of Science核心合集总他引610余次。
近5年论文
46.Jun Xiong*, Menghan Shi, Yanping Liu, Ziqiu Yin. Virtual binocular vision sensing and control of molten pool width for gas metal arc additive manufactured thin-walled components.Additive Manufacturing. 2020, 33: 101121. (SCI)
45. Guangchao Liu, Jun Xiong*, Lun Tang. Microstructure and mechanical properties of 2219 aluminum alloy fabricated by double-electrode gas metal arc additive manufacturing. Additive Manufacturing. 2020, 35: 101375. (SCI)

44. Jun Xiong*, Beibei Zhu, Hui Chen, Senmu Zheng. Peak elimination of cross structures in wire and arc additive manufacturing using closed-loop control. Journal of Manufacturing Processes. 2020, 58: 368-376. (SCI)
43. Guangchao Liu, Jun Xiong*. External filler wire based GMA-AM process of 2219 aluminum alloy.Materials and Manufacturing Processes. 2020, 35(11): 1268-1277.
42.Jun Xiong*, Yiyang Zhang, Yupeng Pi. Control of deposition height in WAAM using visual inspection of previous and current layers.Journal of Intelligent Manufacturing. 2020, DOI: 10.1007/s10845-020-01634-6. (SCI)
41.Yang Ke, Jun Xiong*. Microstructure and mechanical properties of double-wire feed GTA additive manufactured 308L stainless steel.Rapid Prototyping Journal. 2020, DOI: 10.1108/RPJ-09-2019-0238. (SCI)
40.Ziqiu Yin, Jun Xiong*. Stereovision measurement of layer geometry in wire and arc additive manufacturing with various stereo matching algorithms. Journal of Manufacturing Processes. 2020, 56: 428-438. (SCI)
39.Dongqing Yang, Jun Xiong*, Rong Li. Numerical study of heat transfer characteristics in positional wire and arc additive manufacturing.Rapid Prototyping Journal. 2020, DOI 10.1108/RPJ-01-2020-0016.
38. Beibei Zhu, Jun Xiong*. Increasing deposition height stability in robotic GTA additive manufacturing based on arc voltage sensing and control. Robotics and Computer-Integrated Manufacturing.2020, 65: 101977. (SCI)
37.Jun Xiong*, Yanbo Liu, Ziqiu Yin. Passive vision measurement for robust reconstruction of molten pool in wire and arc additive manufacturing. Measurement. 2020, 153: 107407. (SCI)
36. Rong Li, Jun Xiong*. A numerical prediction of residual stress for a thin-walled part with geometrical features fabricated by GMA-based additive manufacturing. Rapid Prototyping Journal. 2020, 26(2): 299-308. (SCI)
35. Rong Li, Jun Xiong*. Influence of interlayer dwell time on stress field of thin-walled components in WAAM via numerical simulation and experimental tests. Rapid Prototyping Journal. 2019, 25(8): 1433-1441. (SCI)
34. Rong Li, Jun Xiong*. Role of substrate shape on thermal energy transmission in robotized wire and arc additive manufacturing. Rapid Prototyping Journal. 2019, 2019, 25(7): 1285-1294. (SCI)
33.Jun Xiong*, Guangchao Liu, Yupeng Pi. Increasing stability in robotic GTA-based additive manufacturing through optical measurement and feedback control. Robotics and Computer-Integrated Manufacturing. 2019, 59: 385-393. (SCI)
32.Jun Xiong*, Yupeng Pi, Hui Chen. Deposition height detection and feature point extraction in robotic GTA-based additive manufacturing using passive vision sensing. Robotics and Computer-Integrated Manufacturing. 2019, 59: 326-334. (SCI)
31.Jun Xiong*, Shuangyang Zou. Active vision sensing and feedback control of back penetration for thin sheet aluminum alloy in pulsed MIG suspension welding. Journal of Process Control. 2019, 77: 89-96. (SCI)
30. Rong Li, Jun Xiong*, Yangyang Lei. Investigation on thermal stress evolution induced by wire and arc additive manufacturing for circular thin-walled parts. Journal of Manufacturing Processes. 2019, 40: 59-67. (SCI)
29. Yanjiang Li, Jun Xiong*, Ziqiu Yin. Molten pool stability of thin-wall parts in robotic GMA-based additive manufacturing with various position depositions. Robotics and Computer-Integrated Manufacturing. 2019, 56: 1-11. (SCI)
28.Jun Xiong*, Yue Mao, Huihui Zhao. Additive manufacturing of high-strength weathering steel parts fabricated by GTA: microstructure and mechanical properties. Proceedings of the Institution of Mechanical Engineers, Part B: Journal of Engineering Manufacture. 2019, 233(11): 2127-2137. (SCI)
27.朱贝贝, 熊俊*. 交叉件GTA填丝增材制造弧压检测与成形控制. 机械工程学报. 2019, 55(15): 17-23. (EI)
26.张闯, 熊俊*. 基于焊工调节的铝合金脉冲MIG焊背面熔透建模. 焊接学报. 2019, 40(8): 76-79. (EI)
25. 皮宇鹏，熊俊*，赵慧慧，陈辉. GTAW填丝增材制造熔池尾部固液分界点跟踪算法. 焊接学报. 2019, 40(2): 104-109. (EI)
24. 尹紫秋, 熊俊*. 基于ACT匹配的GMA增材制造熔池形貌三维重建. 焊接学报. 2019, 40(1): 49-52. (EI)
23.Jun Xiong*, Yanjiang Li, Ziqiu Yin, Hui Chen. Determination of surface roughness in wire and arc additive manufacturing based on laser vision sensing. Chinese Journal of Mechanical Engineering. 2018, 31: 74. (SCI)
22. Yangyang Lei, Jun Xiong*, Rong Li. Effect of inter layer idle time on thermal behavior for multi-layer single-pass thin-walled parts in GMAW-based additive manufacturing. International Journal of Advanced Manufacturing Technology. 2018, 96: 1355-1365. (SCI)
21.Jun Xiong*, Yanjiang Li, Rong Li, Ziqiu Yin. Influences of process parameters on surface roughness of multi-layer single-pass thin-walled parts in GMAW-based additive manufacturing. Journal of Materials Processing Technology. 2018, 252: 128-136. (SCI)
20.Jun Xiong*, Rong Li, Yangyang Lei, Hui Chen. Heat propagation of circular thin-walled parts fabricated in additive manufacturing using gas metal arc welding. Journal of Materials Processing Technology. 2018, 251: 12-19. (SCI)
19.Jun Xiong*, Yangyang Lei, Rong Li. Finite element analysis and experimental validation of thermal behavior for thin-walled parts in GMAW-based additive manufacturing with various substrate preheating temperatures. Applied Thermal Engineering. 2017, 126: 43-52. (SCI)
18.Jun Xiong*, Yangyang Lei, Hui Chen, Guangjun Zhang. Fabrication of inclined thin-walled parts in multi-layer single-pass GMAW-based additive manufacturing with flat position deposition. Journal of Materials Processing Technology. 2017, 240: 397-403. (SCI)
17.Jun Xiong, Ziqiu Yin, Weihua Zhang*. Closed-loop control of variable layer width for thin-walled parts in wire and arc additive manufacturing. Journal of Materials Processing Technology. 2016, 233: 100-106. (SCI)
16.Jun Xiong, Ziqiu Yin, Weihua Zhang*. Forming appearance control of arc striking and extinguishing area in multi-layer single-pass GMAW-based additive manufacturing. International Journal of Advanced Manufacturing Technology. 2016, 87(1-4): 579-586. (SCI)
2016年以前发表论文
15.Jun Xiong, Shuyi Liu, Guangjun Zhang*. Thermal cycle and microstructure of backing weld in double-sided TIG arc horizontal welding of high-strength steel thick plate. International Journal of Advanced Manufacturing Technology. 2015, 81, 1939-1947. (SCI)
14.Jun Xiong, Guangjun Zhang*, Weihua Zhang. Forming appearance analysis in multi-layer single-pass GMAW-based additive manufacturing. International Journal of Advanced Manufacturing Technology. 2015, 80: 1767-1776. (SCI)
13. Tao Yang, Jun Xiong*, Hui Chen. Effect of process parameters on tensile strength in plasma-MIG hybrid welding for 2219 aluminum alloy. International Journal of Advanced Manufacturing Technology. 2016, 84: 2413-2421. (SCI)
12. 雷洋洋, 熊俊*, 李蓉, 陈辉. 基板厚度对薄壁件GMAW增材制造温度场的影响. 焊接学报. 2018, 39(5): 73-76. (EI)
11.Jun Xiong, Guangjun Zhang*, Zhilong Qiu, Yongzhe Li. Vision-sensing and bead width control of a single-bead multi-layer part: material and energy savings in GMAW-based rapid manufacturing. Journal of Cleaner Production. 2013, 41, 82-88. (SCI)
10.Jun Xiong, Guangjun Zhang*. Adaptive control of deposited height in GMAW-based layer additive manufacturing. Journal of Materials Processing Technology. 2014, 214, 962-968. (SCI)
9.Jun Xiong, Guangjun Zhang*. Online measurement of bead geometry in GMAW-based additive manufacturing using passive vision. Measurement Science and Technology. 2013, ** (7pp). (SCI)
8.Jun Xiong, Guangjun Zhang*, Hongming Gao, Lin Wu. Modeling of bead section profile and overlapping beads with experimental validation for robotic GMAW-based rapid manufacturing. Robotics and Computer-Integrated Manufacturing. 2013, 29(2), 417-423. (SCI)
7.Jun Xiong, Guangjun Zhang*, Jianwen Hu, Lin Wu. Bead geometry prediction for robotic GMAW-based rapid manufacturing through a neural network and a second-order regression analysis. Journal of Intelligent Manufacturing. 2014, 25(1), 157-163. (SCI)
6.Jun Xiong, Guangjun Zhang*, Jianwen Hu, Yongzhe Li. Forecasting process parameters for GMAW-based rapid manufacturing using closed-loop iteration based on neural network. International Journal of Advanced Manufacturing Technology. 2013, 69(1), 743-751. (SCI)
5.Jun Xiong, Guangjun Zhang, Yutang Hu, and Lin Wu. Reconstruction of Emission Coefficients for a Non-axisymmetric Coupling Arc Based on MALDONADO’s Method. Chinese Journal of Mechanical Engineering. 2012, 25(4): 781-785. (SCI)
4. Guangjun Zhang, Jun Xiong*, Hongming Gao, Lin Wu. Effect of process parameters on temperature distribution in twin-electrode TIG coupling arc. Journal of Quantitative Spectroscopy & Radiative Transfer. 2012, 113(15), 1938-1945. (SCI)
3. Guangjun Zhang, Jun Xiong*, Hongming Gao, Lin Wu. Reconstruction of emission coefficients for a non-axisymmetric coupling arc by algebraic reconstruction technique. Journal of Quantitative Spectroscopy & Radiative Transfer. 2011, 112(1), 92-99. (SCI)
2. Guangjun Zhang, Jun Xiong*, Yutang Hu. Spectroscopic diagnostics of temperatures for a non-axisymmetric coupling arc by monochromatic imaging. Measurement Science & Technology, 2010, 21(10), 1-5. (SCI)
1.熊俊, 张广军*, 胡玉堂. 基于迭代算法的焊接电弧发射系数重建. 焊接学报. 2010, 31(11): 105-108. (EI)

Copyright ? 2019 西南交通大学. All Rights Reserved.蜀ICP备**号
地址：中国四川省成都市高新区西部园区西南交通大学
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个人信息MORE +
熊俊教授
所在单位： 材料科学与工程学院
办公地点： 西南交通大学九里校区3号楼
联系方式： xiongjun@home.swjtu.edu.cn
学位： 工学博士学位
职称： 教授
电子邮箱： xiongjun@home.swjtu.edu.cn
毕业院校： 哈尔滨工业大学
博士生导师
硕士生导师
学科：材料加工工程

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授权发明专利20项
熊俊,喻永圣,施孟含,陈辉. 脉冲GTA填丝增材制造堆积层片双变量控制方法及系统. 专利号: ZL4.7.
熊俊,施孟含. 异种金属结构件低热输入多丝电弧增材制造方法与装置. 专利号: ZL6.2.
熊俊,喻永圣,施孟含. 弧压辅助的GTA增材制造熔宽检测视觉系统实时标定方法. 专利号: ZL5.8.
熊俊,刘广超,喻永圣,陈辉. 电弧填丝增材制造旁轴送丝方向控制装置. 专利号: ZL2.X

熊俊,喻永圣,刘广超,陈辉. 基于电流传感的交叉路径金属构件GMA增材制造方法. 专利号: ZL2.4.

熊俊,彭陈程,周锦霖,杨梓为,杨成列,薛振振. 金属构件电弧填丝增材制造实时降温装置与方法.专利号: ZL5.4.

熊俊,柯扬,尹紫秋. 电弧填丝增材制造分层切片工艺变量自动计算方法. 专利号: ZL9.6

熊俊, 李沿江, 陈辉. 减轻堆积层热积累的智能水冷电弧增材制造装置及方法. 专利号: ZL1.1.

熊俊, 柯扬, 陈辉. 列车制动盘类构件的GMAW增材制造方法. 专利号: ZL7.6.

熊俊,皮宇鹏,陈辉.前馈补偿的GTA填丝增材制造成形高度反馈控制方法.专利号: ZL6.2.
熊俊,朱贝贝.交叉结构件GTA填丝增材制造成形控制方法.专利号: ZL 3.6.
熊俊,李沿江,皮宇鹏,陈辉. GTA填丝增材制造弧长前馈检测与开环控制方法.专利号: ZL1.X.
熊俊,雷洋洋,李蓉,陈辉.一种薄壁构件电弧填丝增材制造温度场预测方法.专利号: ZL2.6.
熊俊,李蓉,邹双阳.基于焊工调节的铝合金MIG焊熔透控制系统与方法.专利号: ZL5.0.
熊俊,李蓉,皮宇鹏,陈辉.图像处理的GTAW增材制造堆积高度视觉检测方法及系统.专利号: ZL0.4.
熊俊,雷洋洋,尹紫秋,陈辉.非封闭薄壁结构件GTAW双重同步填丝增材制造方法.专利号: ZL2.9.
熊俊,李沿江,雷洋洋,陈辉.基于电弧电压反馈的GTAW增材制造过程稳定性检测方法.专利号: ZL6.X.
熊俊,尹紫秋,雷洋洋,陈辉. GMAW增材制造同向式成形方式成形形貌控制方法.专利号: ZL0.2.
熊俊,雷洋洋,尹紫秋,陈辉.倾斜薄壁结构件电弧填丝增材制造方法.专利号: ZL3.6.
熊俊,陈辉,杨涛,苟国庆,刘艳. GMA增材制造双被动视觉传感检测装置及其检测方法.专利号: ZL3.6.

Copyright ? 2019 西南交通大学. All Rights Reserved.蜀ICP备**号
地址：中国四川省成都市高新区西部园区西南交通大学
川公网安备061号
技术支持：信息化与网络管理处
访问量：次

个人信息MORE +
熊俊教授
所在单位： 材料科学与工程学院
办公地点： 西南交通大学九里校区3号楼
联系方式： xiongjun@home.swjtu.edu.cn
学位： 工学博士学位
职称： 教授
电子邮箱： xiongjun@home.swjtu.edu.cn
毕业院校： 哈尔滨工业大学
博士生导师
硕士生导师
学科：材料加工工程

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地址：中国四川省成都市高新区西部园区西南交通大学
川公网安备061号
技术支持：信息化与网络管理处
访问量：次

个人信息MORE +
熊俊教授
所在单位： 材料科学与工程学院
办公地点： 西南交通大学九里校区3号楼
联系方式： xiongjun@home.swjtu.edu.cn
学位： 工学博士学位
职称： 教授
电子邮箱： xiongjun@home.swjtu.edu.cn
毕业院校： 哈尔滨工业大学
博士生导师
硕士生导师
学科：材料加工工程

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Copyright ? 2019 西南交通大学. All Rights Reserved.蜀ICP备**号
地址：中国四川省成都市高新区西部园区西南交通大学
川公网安备061号
技术支持：信息化与网络管理处
访问量：次