【代表性論文】
[1] A.J.Tang, Z.Q.Liu. Three-dimensional stability lobe and maximum material removal rate in end milling of thin-walled plate. The International Journal of Advanced Manufacturing Technology (in press)
[2] Jihua Wu & Zhanqiang Liu,Modeling of flow stress in orthogonal micro-cutting process based on strain gradient plasticity theory. The International Journal of Advanced Manufacturing Technology (in press)
[3] Shijun Zhang, Zhanqiang Liu,A new approach to cutting temperature prediction considering the diffusion layer in coated tools,International Journal of Machine Tools and Manufacture,2009, Volume 49, Issues 7-8, June 2009, Pages 619-624
[4] Z.T. Tang, Z.Q. Liu, Y.Z. Pan, Y. Wan, X. Ai,The influence of tool flank wear on residual stresses induced by milling aluminum alloy,Journal of Materials Processing Technology, v 209, n 9, p 4502-4508, May 1, 2009.
[5] Kejun Xiang, Zhanqiang Liu and Xing Ai, Case modifying of high-speed cutting database based on CSP and similarity theory,F(xiàn)rontiers of Mechanical Engineering in China Vol. 4, No. 1. (1 March 2009), pp. 83-87.
[6] Shijun Zhang, Zhanqiang Liu,Analytical and numerical solutions of transient heat conduction in monolayer coated tools,Journal of Materials Processing Technology,2009,209(5):2369-2376
[7] Kejun Xiang, Zhanqiang Liu and Xing Ai Intelligent high-speed cutting database system development Frontiers of Mechanical Engineering in China, Volume 3, Number 2 / 2008年6月 p.180-188
[8] Shijun Zhang, Zhanqiang Liu. An analytical model for transient temperature distributions in coated carbide cutting tools. International Communications in Heat and Mass Transfer, 2008,35(10):p 1311-1315.
[9] Suo X.H., Liu Z.Q., Modeling and simulating of single-row facility layout based on manufacturing costs. Applied Mechanics and Materials, 2008, Vol.10-12:51-57.
[10] Zhanqiang, Liu; Peng, Zhang; Peng, Guo; Xing, Ai Surface roughness in high feed turning with wiper insert. Key Engineering Materials, v 375-376, 2008, p 406-410
[11] Suo X.H., Liu Z.Q., Relationships among SFLP, DFLP and robust layout. Applied Mechanics and Materials, 2008, Vol.10-12:235-241.
[12] Tang Aijun, Liu Zhanqiang, Deformations of thin-walled plate due to static end milling force, Journal pf materials Processing Technology, 2008,Volume 206, Issues 1-3, Pages 345-351
[13] Z.T. Tang, Z. Q. Liu and X. Ai,Optimization of Bulkhead Processing Sequence for Monolithic Components by FEM. Advanced Materials Research Vols. 24-25 ,2007,pp. 355-360
[14] Z.Q. Liu,K.J. Xiang and X. Ai Variables Model for Building Case Base and Its application,Transactions of Nanjing University of Aeronautics & Astronautics,2007,24(2):170-174
[15] Y. Wan, Z.Q.Liu, X.Ai. Tool Wear Patterns and Mechanism of Solid Cemented Carbide in High-speed Milling Aluminum Alloy. Transactions of Nanjing University of Aeronautics & Astronautics。2007,24(2):123-128
[16] Z.Q. Liu, K.J. Xiang, X.G. Peng, An intelligent cutting database for die and mold making operations, Materials Science Forum. Vols. 532-533 (2006):105-108.
[17]Z.Q. Liu, J M Wang, Y Wan,Machinability for Turning of 1Cr18Ni9Ti Austenitic Stainless Steel with ceramic tool,Key Engineering Materials. 2006, Vol.315-316:584-587
[18] Y Wan,Z.Q. Liu, X. Ai,Experimental Research on High-speed Machining Pearlitic Gray Cast Iron,Key Engineering Materials. 2006, Vol.315-316:459-463.
[19] K J Xiang, Z.Q. Liu, X. Ai,Development of High-Speed Cutting Database System with Hybrid Intelligent Reasoning,Key Engineering Materials. 2006, Vol.315-316:696-700.
[20] 劉戰(zhàn)強、雷源忠,機械與制造科學“十一五”發(fā)展的戰(zhàn)略方向(機械學),數(shù)字制造科學,2005,3(3):1-12
[21] 劉戰(zhàn)強、雷源忠,機械與制造科學“十一五”發(fā)展的戰(zhàn)略方向(制造科學),數(shù)字制造科學,2005,3(3):13-27
[22] Z.Q. Liu, X. Ai,Cutting tool materials for high speed machining,Progress for Natural Science, 2005, Vol.15, No.9, pp.777-783
[23] Z.Q. Liu, X. Ai,A comparison study of surface hardening by grinding versus machining,Key Engineering Materials. 2005, Vol.304-305: 156-160
[24] Y. Wan, Z.Q. Liu, X. Ai, et al. Development of a Cutting Database System with Prediction and Analysis Functions, Materials Science Forum, 2004,Vol.471-472, :32-36
[25] Y. Wan, Z.T. Tang, Z.Q. Liu, et al. The Assessment of Cutting Temperature Measurements in High-Speed Machining, Materials Science Forum,2004, Vol.471-472:162-166
[26] Liu Zhanqiang, Yi Wan, Ai Xing, Recent developments in tool materials for high speed machining, Materials Science Forum, 2004, Vol.471-472:438-442
[27] Liu Zhanqiang, Xiuguang Peng and Jigang Liu, Development of an Intelligent System for Tool Materials Selection in High Speed Machining,Materials Science Forum, 2004, Vol.471-472:82-86
[28] Liu Zhan-Qiang, Junbo Zhang and Zhitao Tang, Intelligent error compensation in CNC machining through synergistic interactions among modeling, sensing and learning,Materials Science Forum, 2004, Vol.471-472:178-182
[29] Zhanqiang Liu, Xing Ai, High-speed milling of cast iron with ceramic and PCBN tool,Key Engineering Materials, 2004:446-450
[30] Liu Zhan-Qiang, Wan Yi, and Liu Jigang, The impact of tool materials and cutting parameters on surface roughness in high-speed face-milling, Key Engineering Materials, 2004:462-465
[31] Z.Q. Liu, Z.H. Wang, Y. Wan, et al.Development of case-based database for high speed machining,Key Engineering Materials, 2004:829-833
[32] Wang Zuntong, Liu Zhanqiang, Ai Xing, Case description and similarity in high-speed machining, International Journal of Machine Tools & Manufacturing. 2003, vol 43/13 pp 1347 - 1353
[33] Liu Zhanqiang, Ai Xing, Comment on: Optimal grey-fuzzy controller design for a constant turning force system, International Journal of Machine Tools & Manufacturing. 2003, vol 43/10 pp 1067 - 1068
[34] Liu Zhanqiang, Ai Xing, Zhang Hui, et al. Wear Patterns and Mechanisms of cutting tools in high speed face milling, Journal of Materials Processing Technology. 129(1-3),2002:222-226
[35] Li, X., Venuvinod, P.K., Djorjevich, A., Liu, Z.Q. Predicting machining errors in turning using hybrid learning, International Journal of Advanced Manufacturing Technology, 2001, 18(12): 863-872
[36] Zhan-Qiang Liu, and Patri K Venuvinod, Towards Autonomous Compilation of Cutting Force Database for CNC Turing: Utilization of On-Machine Measurements of Machine Part Dimensions, Machining Science and Technology, 2001, 5(2):171-193
[37] Liu Zhan-Qiang, Methodology of parametric programming for error compensation on CNC machining centers, International Journal of Advanced Manufacturing Technology, 2001, 17(8):570-574
[38] Liu Zhan-Qiang, Venuvinod, Patri K., How a machine tool can be its own on-line dynamometer, AMSE, Series B Modelling, Measurement and Control, 2001, 70(7):1-22.
[39] Liu Zhan-Qiang, Finite Difference Calculations of the Deformations for Multi-diameter Workpieces during Turning, Journal of Materials Processing Technology, 2000 98(3), pp.310-316.
[40] Z.Q.Liu, and P.K.Venuvinod, Error Compensation in CNC Turning Solely from Dimensional Measurements of Previously Machined Parts, Annals of CIRP, 1999 48(1), pp.429-432.
[41] Liu Zhan-Qiang, and Venuvinod, Patri K., Integrated Inspection and Compensation for a CNC Turning Center, The International Journal for Manufacturing Science & Production, 1999 2(1), pp.37-43.
[42] Liu Zhanqiang, Repetitive Measurement and Compensation to Improve Workpiece Machining Accuracy, International Journal of Advanced Manufacturing Technology, 1999 15(2), pp.85-89.
[43] Liu Zhan-Qiang, Venuvinod, Patri K., and Ostafiev, V.A., On-machine Measurement of Workpiece with Cutting Tool, Integrated Manufacturing Systems, The International of Manufacturing Technology Management, 1998 9(3), pp.168-172.
【專著】
[1] 劉戰(zhàn)強,武文革,萬熠,高速切削數(shù)據(jù)庫與數(shù)控編程技術(shù),北京:國防工業(yè)出版社,2009
[2] 劉戰(zhàn)強,黃傳真,郭培全,先進切削加工技術(shù)及應(yīng)用,北京:機械工業(yè)出版社,2005
[3] 艾興,劉戰(zhàn)強等,高速切削加工技術(shù),北京:國防工業(yè)出版社,2003
【發(fā)明專利與軟件著作權(quán)】
[1] CVD金剛石涂層刀具的微波等離子退涂、重涂方法 ZL 2007 1 0013866.6 授權(quán)公告日:2009年2月18日(第一)
[2] 基于涂熱電效應(yīng)的刀具瞬態(tài)切削溫度測試方法 ZL200610068434.0 授權(quán)公告日:2008年8月13日(第一)
[3] 原位生長碳化鈦晶須增韌氧化鋁基陶瓷刀具材料粉末及其制備工藝 ZL200610043811.5 授權(quán)公告日:2008年9月10日(第四)
[4] 原位生長碳氮化鈦晶須增韌氧化鋁基陶瓷刀具材料粉末及其制備工藝 ZL200610043594.3 授權(quán)公告日:2008年9月10日(第四)
[5] 高速切削數(shù)據(jù)庫系統(tǒng) 登記號:2006SR17863 編號:軟著登字第065529號(第一)
[6] 模糊綜合評價輔助計算系統(tǒng)V1.0 登記號:2007SR06355 編號:軟著登字第072350號(第一)
[7] 制造業(yè)實時協(xié)調(diào)控制與重構(gòu)管理系統(tǒng)V1.0 登記號:2007SR06356 編號:軟著登字第072351號 (第一)