劉繼常

職稱：教授、博士生導師

學位：博士

社會兼職：政協湖南省第十二屆委員會委員

學術兼職：中國增材製造分會、中國增材製造標準委員會、中國特種加工分會委員（理事），長沙市工程機械再製造技術創新戰略聯盟專家委員會主任委員。

學習經歷：

1990年畢業於湖南大學，1996年畢業於華中理工大學（華中科技大學）鑄造專業（碩士），2004年畢業於湖南大學機械製造及其自動化專業（博士）。

工作經歷：

1990-1993年在湖南鍛造廠九車間從事鑄造技術與管理工作，1996-2000年在廣州有色金屬研究院耐磨材料與工程機械研究所（改制為企業）從事鑄造技術研發與生產管理工作，2001-2005年在株洲工學院包印學院從事材料、雷射套用等方面教學與科研工作（兼職），2005年後在湖南大學機械與運載工程學院從事增材製造與再製造、雷射加工、材料等方面教學與科研工作（2006年晉升為教授）。

2008年9月至2009年9月在新加坡國立大學機械工程系作訪問學者，2017年12月-2018年4月在美國南衛理公會大學先進制造中心作高級研究學者。

增材製造（3D列印）與再製造（及其相關的管理信息系統）、雷射加工、生物醫學製造、鑄造等。

取得了多方面的成果，其中金屬增材製造（3D快速成形）被譽為亞洲區的代表之一。擇要列舉如下：

1）研發了全國產化金屬增材製造（3D列印）機；

2）開發了移動式機器人半導體雷射強化與修復機；

3）研製了高鉻鎳耐熱耐磨合金材料及其噴火嘴和篦條；

4）提出了雷射熔覆過程中實時運動調節控制方法；

5）提出了多工藝集成3D列印方法（已申報專利）；

6）獨立或作為第一發明（設計）者申請（獲得）的專利近30項；

7）作為第一作者或通訊作者，或獨立發表論文近40篇（其中已被SCI收錄16篇，EI收錄29篇）：

[1]Binggong Yan, Jichang Liu, Bohang Song, Pengfei Xiao & Li Lu. Li-rich Thin Film Cathode Prepared by Pulsed Laser Deposition. Scientific Reports, 2013-11-26; （國際頂尖期刊《自然(nature)》期刊系列之一）(SCI UT ISI: 000327530200002)
[2]Binggong Yan, Yaqi Zhu, Feng Pan, Jichang Liu, Li Lu. Li1.5Al0.5Ge1.5(PO4)3 Li-ion conductor prepared by melt-quench and low temperature pressing. Solid State Ionics. 278(2015): 65–68 (IF:2.561)

[3]Feng, J.K. Binggong Yan Liu, J.C. Lai, M. O. Li, L. All solid state lithiumion rechargeable batteries using NASICON structure delectrolyte. Materials Technology. 2013, 28(5): 276-279.（IF:1.227）

[4]Binggong Yan, Jichang Liu, Bohang Song, Li Lu. Li-rich Cathode for Thin Film Cathode Prepared by Pulsed Laser Deposition. The 7th International Conference on Materials for Advanced Technologies. 1th-6 Jul. 2012,Singapore. (POSTER)

[5] Jichang Liu, Yaoting Wu and Lei Wang. In-situ measurement based on prior calibration with analogist samples for laser cladding. Proceedings of SPIE - The International Society for Optical Engineering, High-Power Lasers and Applications V, 2012; (SCI UT ISI: 000314338900006/EI Accession number: 20133016522226)

[6] J. C. Liu and L. B. Ni. Prediction of laser clad parameters based on neural network. Materials Technology, 2012, 27(1): 11-14; (SCI UT ISI: 000300854400005/EIAccession number: 20121114844576)

[7] B. G. Yan and J. C. Liu. Calculation of laser transformation hardening with circular beam. Materials Technology, 2012, 27(1): 5-7; (SCI UT ISI: 000300854400003/EIAccession number: 20121114844574)

[8]Yanghui Xu and Jichang Liu. Laser surface hardening of ductile cast iron for vehicle die. Proceedings of SPIE - The International Society for Optical Engineering, High-Power Lasers and Applications V, 2010, v7843; (SCI UT ISI: 000287765300045/EIAccession number: 20110113550889)

[9] Jichang Liu, J. Y. H. Fuh and L. Lü. The state-of-the-art laser bio-cladding technology. Proceedings of SPIE - The International Society for Optical Engineering, High-Power Lasers and Applications V, 2010, v7843; (SCI UT ISI: 000287765300025/EIAccession number: 20110113550869)

[10] Yuanyuan Li and Jichang Liu. Effects of the gas flow and the defocusing distance from laser beam focus on powder-feed laser cladding. Proceedings of SPIE - The International Society for Optical Engineering, High-Power Lasers and Applications V, 2010, v7843; (SCI UT ISI: 000287765300047/EIAccession number: 20110113550891)

[11]Qindong Li and Jichang Liu. Effect of process variables on the crack in laser cladded Ni-alloy on ductile cast iron. Proceedings of SPIE - The International Society for Optical Engineering, High-Power Lasers and Applications V, 2010, v7843; (SCI UT ISI: 000287765300026/EIAccession number: 20110113550870)

[12] Shunxi Hu and Jichang Liu. Simulation and measurement of temperature field of nodular cast iron in laser transformation hardening. Proceedings of SPIE - The International Society for Optical Engineering, High-Power Lasers and Applications V, 2010, v7843; (SCI UT ISI: 000287765300055/EIAccession number: 20110113550899)

[13]Jichang Liu, Lijun Li. In-time Motion Adjustment In Laser Cladding Manufacturing Process For Improving Dimensional Accuracy and Surface Finish of The Formed Part. Optics & Laser Technology, 2004, 36(6): 477-483; (SCI UT ISI: 000222550300008/EIAccession number: 2004258217850)

[14]Jichang Liu, Lijun Li. Effects of Powder Concentration Distribution on Fabrication of Thin-Wall Parts in Coaxial Laser Cladding. Optics & Laser Technology, 2005, 37(4): 287-292; (SCI UT ISI: 000227517900005/EIAccession number: 2005038795089)

[15]Jichang Liu, Lijun Li. Study on Cross-Section Clad Profile in Coaxial Single-Pass Cladding with a Low-Power Laser. Optics & Laser Technology, 2005, 37(6): 478-482; (SCI UT ISI: 000229390600011/EIAccession number: 2005189079535)

[16]Liu Jichang, Li Lijun. Experimental Study on Macro and Micro-Structure of Metallic Parts Built by Low-power Laser Cladding. Chinese Journal of Mechanical Engineering，2005, 18(2): 263-266；(EIAccession number: 2005299225339)

[17]Jichang Liu, Lijun Li, Xiaozhu Xie, et al. Study on attenuation of laser power by powder flow in coaxial laser cladding. Proceedings of SPIE - The International Society for Optical Engineering, High-Power Lasers and Applications V, 2004, v5629: 475-482; (SCI UT ISI: 000227494300064/EIAccession number: 2005229133627/ISTP)

[18]Jichang Liu, Lijun Li, Yuanzhong Zhang, et al. Attenuation of laser power of focused Gaussian beam during interaction between laser and powder in coaxial laser cladding. Journal of Physics D: Applied Physics, 2005, 38(10): 1546-1550; (SCI UT ISI: 000230243300009/EIAccession number: 2005219117982)

[19]Jichang Liu, Lijun Li. Effects of process variables on laser direct formation of thin wall. Optics & Laser Technology, 2007, 39(2): 231-236; (SCI UT ISI: 000241308200002/EIAccession number: 20063710106991)

[20]Jichang Liu, Lijun Li. Direct Fabrication of Thin-Wall Parts by Laser Cladding. Journal of Manufacturing Processes, 2006, 8(1): 1-7; (EIAccession number: 20071610559219)

[21]Liu Jichang. Formation of cross-sectional profile of a clad bead in coaxial laser cladding. Optics & Laser Technology, 2007,39(8):1532-1536; (SCI UT ISI: 000248010500009/EIAccession number: 20071510548668)

[22]顏丙功, 伍耀庭, 劉繼常, 郭怡暉. 基於蟻群算法的雷射表面淬火工藝參數神經網路最佳化系統. 材料熱處理學報, 2014, S1；（EI）

[23]劉繼常, 羅旦, 許陽輝. 球墨鑄鐵雷射相變硬化深度與寬度的數值計算. 材料熱處理學報, 2013, 34(12): 195-199;（EI Accession number: 20141017430300）

[24]董敢, 劉繼常, 李媛媛. 雷射熔覆中同軸送粉氣體一粉末流數值模擬. 強雷射與粒子束, 2013, 25(8): 1951-1955; (EI Accession number: 20133416646625)

[25]孫道金, 劉繼常, 李欽棟. 雷射熔覆純鎳熔池底部組織生長的相場法模擬. 中國雷射, 2013, 40(4): 0403005-1-6; (EI Accession number: 20132216376009)

[26]倪立斌, 劉繼常, 伍耀庭等. 基於神經網路和粒子群算法的雷射熔覆工藝最佳化. 中國雷射, 2011, 38(2): 0203003-1-6; (EIAccession number: 20111413898607)

[27]郭怡暉，劉金水，劉繼常等. 球墨鑄鐵QT600－3雷射相變硬化試驗研究. 材料熱處理學報, 2010, 31(5): 118-122; (EIAccession number: 20102513020832)

[28]張靜，劉繼常，張福全等. 球墨鑄鐵表面雷射熔覆Fe-Cr-Si-B塗層的試驗研究. 材料熱處理學報, 2010, 31(5): 133-137; (EIAccession number: 20102513020835)

[29]郭怡暉，劉繼常，劉金水等. 球墨鑄鐵QT600－3雷射相變硬化數值模擬研究. 強雷射與粒子束, 2010, 22(8): 1755-1760; (EIAccession number: 20103413174835)

[30]劉繼常. 雷射單道熔覆成形的金屬零件壁厚模型的研究. 材料科學與工藝, 2005, 13(1): 99-102; (EIAccession number: 2005179069983)

[31]劉繼常, 李力鈞, 謝小柱等. .雷射熔覆的金屬帶橫截面輪廓的形成過程分析. 材料科學與工藝, 2008, 16(3): 297-300; (EIAccession number: 20083211444628)

[32]劉繼常,李力鈞. 雷射熔覆成形金屬薄壁結構的試驗研究. 機械工程學報, 2004, 40(10): 185-188; (EIAccession number: 2004538760215)

[33]劉繼常, 李力鈞, 鄢銼. 雷射熔覆成形砂型鑄造金屬模具探討.湖南大學學報, 2003, 30(6): 51-55. (EIAccession number: 2004068009653)

[34]伍耀庭, 劉繼常, 劉石柏, 黃曉東. 半導體雷射在再製造產業中的套用. 套用雷射, 2013, 33(3): 333-339;

[35]秦麗蓬, 劉繼常. 面向雷射強化工藝的衝壓模具表面應力的計算方法. 套用雷射, 2013, 33(2): 196-203;

[36]劉紹忠, 劉繼常. 鑄態球墨鑄鐵QT600—3柱塞泵耐磨件的生產. 鑄造, 2013, 62(2): 164-166;

[37]顏丙功, 劉繼常, 郭怡暉. 球墨鑄鐵雷射表面淬火硬化深度的解析計算. 雷射技術, 2011, 35(2): 206-209;

[38]楊柳杉，劉金水，劉繼常，伍耀庭，王迎麗. 基於CCD的雷射熔覆熔池寬度的線上檢測研究. 雷射技術, 2011, 35(3): 315-318;

[39]楊彩霞, 周臘吾, 劉繼常, 伍耀庭. 雷射淬火過程實時檢測系統的設計. 雷射技術, 2011, 35(3): 334-337.