楊上陸博士,中國科學院上海光學精密機械研究所研究員,博士生導師,雷射智慧型製造學科帶頭人,中國焊接學會和上海焊接學會理事,中國光學學會高級會與及雷射加工專業委員會委員,中國機械工程學會和美國焊接學會高級會員,美國雷射學會終身會員。
基本介紹
- 中文名:楊上陸
- 國籍:中國
- 畢業院校:中國科學院大學
- 職業:老師
研究方向,科研成果,專利成果,出版信息,科研項目,
研究方向
高功率雷射智慧型製造技術(雷射焊接,雷射-電弧複合焊接,雷射衝擊強化,雷射3D列印等);
超快雷射精密製造技術 (雷射打孔,切割);
製造過程的數值模擬、感測與控制;
先進焊接和連線技術(電阻點焊,機械連線,膠接等);
科研成果
專利成果
( 1 ) Welding method and apparatus, 發明, 2013, 第 1 作者, 專利號: US8481883B2
( 2 ) Resistance spot welding thin gauge steels, 發明, 2017, 第 1 作者, 專利號: US9737956
( 3 ) Welding a joint, 發明, 2017, 第 1 作者, 專利號: US9586282
( 4 ) Beam welding of a multi-sheet work stack having a reduced thickness feature, 發明, 2013, 第 3 作者, 專利號: US8535395
( 5 ) Crack avoidance in resistance spot welded materials, 發明, 2016, 第 3 作者, 專利號: US9333588
( 6 ) Welding electrode for use in resistance spot welding workpiece stack-ups that include an aluminum workpiece and a steel workpiece, 發明, 2015, 第 1 作者, 專利號: US20170157697
( 7 ) Suppressing laser-induced plume for laser edge welding of zinc coated steels, 發明, 2015, 第 1 作者, 專利號: US20150202718
( 8 ) Laser welding overlapping metal workpieces, 發明, 2015, 第 1 作者, 專利號: WO/2016/192039A1
( 9 ) Intruding feature in aluminum alloy workpiece to improve al-steel spot welding, 發明, 2015, 第 1 作者, 專利號: US20150352658
( 10 ) Cooling to control thermal stress and solidification for welding of dissimilar materials, 發明, 2019, 第 1 作者, 專利號: US10252369
( 11 ) Electrode for resistance spot welding of dissimilar metals, 發明, 2018, 第 1 作者, 專利號: US10010966
( 12 ) Resistance spot welding steel and aluminum workpieces using insertable cover, 發明, 2018, 第 2 作者, 專利號: US10058949
( 13 ) Laser welding of overlapping metal workpieces assisted by varying laser beam parameters, 發明, 2019, 第 1 作者, 專利號: US10195689
( 15 ) Remote laser welding of overlapping metal workpieces using helical path(s), 發明, 2020, 第 1 作者, 專利號: US10675713B2
( 16 ) Method and apparatus for resistance spot welding overlapping steel workpieces, 發明, 2020, 第 1 作者, 專利號: US10675701B2
( 17 ) Laser welding of overlapping metal workpieces assisted by varying laser beam parameters, 發明, 2020, 第 1 作者, 專利號: US10195689B2
( 18 ) Cooling to control thermal stress and solidification for welding of dissimilar materials, 發明, 2019, 第 1 作者, 專利號: US10252369B2
( 19 ) Electrode for resistance spot welding of dissimilar metals, 發明, 2018, 第 1 作者, 專利號: US10010966B2
出版信息
通訊或第一作者
[1] M.F Li, Y.J Wang, S.L Yang*, W. Tao, G.T. Zhang, Improving mechanical properties and electrode life for joining aluminum alloys with innovatively designated Newton ring electrode, Journal of Manufacturing Processes. (IF=3.462 SCI二區)
[2] W Zhang, W Tao, S. Yang*,Mechanical properties and fracture behaviors in remote laser spot welding of quenching and partitioning 980 steel, Optics & Laser Technology. (IF=3.233 SCI 二區)
[3] W Tao and S. Yang*. Weld zone porosity elimination process in remote laser welding of AA5182-O aluminum alloy lpa joints, Journal of Materials Processing and Technology. (IF=4.669 SCI一區)
[4] W Zhang, S. Yang*, L Zhe, W Tao, Weld morphology and mechanical properties in laser spot welding of quenching and partitioning 980 steel, Journal of Manufacturing Process. (IF=3.462 SCI二區)
[5] M.F. Li, Y.J. Wang, Z. Niu, S.L. Yang*,Study on the Weld-Bonding Process Optimization and Mechanical Performance of Aluminum Alloy Joints,Automotive Innovation.
[6] J.P Lin*, J. Zhang, J.Y. Min*, C.C Sun, S.L. Yang*, Laser-assisted conduction joining of carbon fiber reinforced sheet molding compound to dual-phase steel by a polycarbonate interlayer, Optics & Laser Technology. (IF=3.233 SCI 二區)
[7] Y Wang, W Tao, S Yang, A Method for Improving Joint Strength of Resistance Spot Welds of AA 5182-O Aluminum Alloy.Journal of Manufacturing Processes. (IF=3.462 SCI二區)
[8] S. Yang*, J. Zhang, J. Lian. Welding of aluminum alloy to zinc coated steel by cold metal transfer. Materials and Design. 49(2013)602–612. (IF=4.498 SCI一區)
[9] Y Wang, W Tao, S. Yang*. A method for improving joint strength of resistance spot welds of AA 5182-O aluminum alloys. Journal of Manufacturing Process. (IF=3.462 SCI二區)
[10] S. Li, S. Yang,Q. Lu, H. Luo, W. Tao. A novel shim-assisted resistance spot welding process to improve weldability of medium-Mn transformation-induced plasticity steel. Metallurgical and Materials Transactions B. (IF=1.952 SCI二區)
[11] S. Yang*, Z. Chen, W. Tao. Semi-cutting-assisted laser welding of zinc-coated steels in a zero root opening, lap-joint configuration. Welding Journal. 93(2014)331– 337. (IF=1.89 SCI二區)
[12] S. Yang*, Z. Chen, W. Tao. Semi-cutting-assisted laser welding of zinc-coated steels in a zero root opening, lap-joint configuration. Welding Journal. 93(2014)331– 337. (IF=1.89 SCI二區)
[13] S. Yang*, J. Wang, B.E Carlson. Vacuum-assisted laser welding of zinc-coated steels in a gap-free lap joint configuration. Welding Journal. 92(2013)197–204. (IF=1.89 SCI二區)
[14] S. Yang*, R. Kovacevic. Laser Welding of High-Strength Galvanized Steels in a Gap-Free Lap Joint Configuration under Different Shielding Conditions. Welding Journal. 90(2011)8–18. (IF=1.89 SCI二區)
[15] S. Yang*, R. Kovacevic. Welding of galvanized dual-phase 980 steel in a gap-free lap joint configuration. Welding Journal. 88(2009)168–178. (IF=1.89 SCI二區)
[16] C Sun, Y Min*, J Lin *, H Wan, S Yang *. The effect of laser ablation treatment on the chemistry, morphology and bonding strength of CFRP joints. International Journal of Adhesion and Adhesives(IF=2.21 SCI二區)
[17] S. Yang*, Tao W. Remote laser welding of zinc coated steels in a zero-gap lap joint configuration. Journal of Laser Applications. 29(2017)022415. (IF=1.756 SCI)
[18] S. Yang*, R. Kovacevic. Hybrid laser-GMAW welding of high strength quenched-tempered steels. Rare Metal Materials and Engineering, 40(2011):102-105. (IF=0.256 SCI)
[19] S. Yang*, Kovacevic R. Laser welding of galvanized DP980 steel assisted by the GTAW preheating in a gap-free lap joint configuration. Journal of Laser Applications. 21(2009)139–148. (IF=1.756 SCI)
[20] 張偉,林喆,陶武,楊上陸*. 掃描速度對鍍鋅QP鋼板零間隙遠程雷射點焊質量的影響。現代套用物理。
[21] 楊上陸. 雷射技術在搭接焊接鍍鋅鋼板上的套用和挑戰. 雷射與光電子學進展. 11 (2010)19–21.
非通訊和第一作者
[1] X. Tan, J. Zhang, J. Shan, S. Yang. Characteristics and formation mechanism of porosities in CFRP during laser joining of CFRP and steel. Composites Part B Engineering. 70(2015)35–43. (IF=4.727 SCI 一區)
[2] C. Wei, J. Zhang, S. Yang. Experiment-based regional characterization of HAZ mechanical properties for laser welding. International Journal of Advanced Manufacturing Technology. 78(2015)1629–1640. (IF=2.209 SCI二區)
[3] C. Wei, J. Zhang, S. Yang. Improving formability of laser welded automotive dual phase steels with local cooling. Science and Technology of Welding and Joining. 20(2015)145–154. (IF=2.142 SCI一區)
[4] J. Zhang, S. Yang. Self-piercing riveting of aluminum alloy and thermoplastic composites. Journal of Composite Materials. 49(2014)1492-1502. (IF=1.595 SCI二區)
[5] Z. Chen, S. Yang, C. Wang. A study of fiber laser welding of galvanized steel using a suction method. Journal of Materials Processing Technology. 214(2014)1456–1465. (IF=3.372 SCI一區)
[6] J. Lin, S. Yang. Effect of bonded area on shear strength and failure mode in Steel/Al CMT brazed joint. Journal of Materials Engineering. 1(2014)34–39.
[7] Y. Yu, S. Yang, Y. Yin. Multi-pass laser welding of thick plate with filler wire by using a narrow gap joint configuration. Journal of Mechanical Science and Technology. 27(2013)2125–2131. (IF=1.182 SCI)
[8] C. Wei, J. Zhang, S. Yang. Microstructures and mechanical properties for laser tailor welded blanks of DP590 and low carbon steels. Rare Metal Materials and Engineering. 42(2013)68–73. (IF=0.256 SCI)
[9] S. Li, J. Wang, S. Yang. Study on porosity defects of aluminium alloy in laser-MIG hybrid welding. Applied Laser. 33(2013)595–600.
[10] Z. Chen, S. Yang, C. Wang, et al. Study of fiber laser welding galvanized steel in a gap-free lap joint configuration. Applied Laser. 33(2013)498–504.
[11] J. Lin, S. Yang, Y. Lei. Joint strength and failure mode of steel/aluminum dissimilar materials joint used in automobile body assembly. Journal of Beijing University of Technology. 40(2014)451–459.
[12] 李春平, 朱政強, 楊上陸, 陶武. 凹模形狀對鋁合金自沖鉚接接頭力學性能的影響. 南昌大學學報(工科版). 39(2017)73–77.
科研項目
( 1 ) 汽車輕量化材料焊接機理與新方法, 主持, 研究所(學校), 2017-08--2020-07
( 2 ) 新能源汽車用鋁合金雷射焊接 關鍵技術及工藝, 主持, 省級, 2019-01--2021-12
( 3 ) 新碳鋼側牆結構雷射填絲焊焊接工藝研究技術服務, 主持, 院級, 2018-09--2019-05
( 4 ) 汽車車身用鍍鋅鋼板雷射焊接, 主持, 省級, 2018-06--2019-06
( 5 ) 鋁合金車身電阻點焊工藝開發及服役性能研究, 主持, 省級, 2019-05--2022-04
( 6 ) 汽車用輕量化材料焊接和連線套用基礎研究和新方法的開發, 主持, 研究所(學校), 2018-01--2022-02
( 7 ) 雷射淬火模具鋼技術路線與轉化, 主持, 院級, 2018-06--2019-06
( 8 ) 鋁合金電阻點焊評估, 主持, 院級, 2018-10--2019-08
( 9 ) 雙層壁葉片異形氣膜孔制孔技術工藝攻關, 參與, 院級, 2019-12--2020-12
( 10 ) 熱壓成形鋼PHS2000焊接工藝與質量評估, 主持, 院級, 2019-11--2020-12