教师名录 - 廖娟
廖娟
性别:女 出生年月:1984年9月 系别:材料成型及控制工程系 学位:博士 职称:教授
详细资料


联系方式

通讯地址:福建省福州市福州地区大学新区学园路2号邮编: 350116

电子邮箱:jliao@fzu.edu.cn

教育工作经历

2017/07- 至今,福州大学,机械工程及自动化学院,教授

2016/10-2017/06,福州大学,机械工程及自动化学院,旗山学者(海外项目)。

2011/12-2016/08,葡萄牙阿威罗大学,机械工程学院,博士后研究员。

2006/09-2011/09,华南理工大学,机械制造及其自动化专业,博士。

2002/09-2006/07,广东工业大学,材料成型及控制工程专业,本科。

社会兼职

期刊审稿人:

International Journal of Mechanical Sciences;

Materials & Design;

Journal of Alloys and Compounds;

International Journal of Solids and Structures;

Mechanics of Materials;

International Journal of Material Forming;

Journal of Zhejiang University-Science A (Applied   Physics & Engineering)

研究方向

l精密塑性成形技术

l航空/汽车用轻量化材料及其本构建模

l材料力学性能及微观表征

l多尺度有限元模拟

主要科研项目

1、福州大学科研启动基金,高强钛合金板材的热力学行为及多尺度本构建模,2017/02-2020/0125万,主持

2、欧盟发展委员会(ERDF)与葡萄牙科学技术基金委(FCT)联合资助基金项目,PTDC/EMS-TEC/0777/2012,先进高强度钢板复杂产品成形过程中扭转回弹的建模与控制 Modeling and Control of   Twist Springback for Complex Advanced High Strength Steel Products),2013/05-2015/10120万,主持

参与过的部分科研项目

1、欧盟发展委员会(ERDF)与葡萄牙科学技术基金委(FCT)联合资助基金项目,PTDC/EMS-TEC/2404/2012 先进高强度钢板在复杂应变路径下的材料力学性能及其微观机理研究 Mechanical and microstructural behaviour of advanced high   strength steels sheets under monotonic and complex deformation paths, 2013/06-2015/09

2、葡萄牙科学技术基金委(FCT)国家项目,PTDC/EME-PME/116683/2010, 孪生诱导塑性(TWIP)钢的应变速率敏感性控制与成形性能增强机理研究 Enhancing the   Formability of Twinning-Induced Plasticity Steels by Controlling Their Strain   Rate Sensitivity), 2012/01-2013/05

3、葡萄牙科学技术基金委(FCT)国家项目,PTDC/EME-TME/109119/2008,一种基于杯突实验的材料各向异性的预测方法及其在制耳控制上的应用(A novel approach to predict anisotropic material properties   from circular cup drawing and its application to earing control, 2012/01-2013.12

4 葡萄牙阿威罗大学企业合作项目,6xxx系列铝合金多孔热挤压模具设计及工艺优化 Design and optimization for multi porthole hot extrusion of   6xxx aluminium alloys),2013/09-2015/06

5、葡萄牙阿威罗大学企业合作项目,新型雷诺电动轿车铝合金管弯曲成形工艺优化 Optimizing the tube bending process for vehicle frame made   of aluminium alloy),2012/09-2014/06

代表性论著

代表性期刊论文:

1J. Liao, X. Xue*,   M-G Lee, F. Barlat, G. Vincze, A.B. Pereira. Constitutive modeling for path-dependent   behavior and its influence on twist springback. International Journal of   Plasticity, 2017,v93, 64-88.

2X.   Xue, A. B. Pereira, J. Amorim, J. Liao*,   Effects of Pulsed Nd: YAG Laser Welding Parameters on Penetration and   Microstructure Characterization of a DP1000 Steel Butt Joint, Metal, 2017, 7,   292, doi: 10.3390/met7080292.

3、X. Xue,J. Liao*,G. Vincze,A. B. Pereira,   Control strategy of twist springback for aluminium alloy hybrid thin-walled   tube after mandrel-rotary draw bending, International Journal of Material   Forming, 2017, in press, doi: 10.1007/s12289-017-1346-7.

4、J. Liao*, J. A.   Sousa, A. B. Lopes, X. Xue, F. Barlat, A.B. Pereira, Mechanical,   microstructural behaviour and modelling of dual phase steels under complex   deformation paths, International Journal of Plasticity, 2017, v93, 269-290.

5、X. Xue, J. Liao*,   G. Vincze, F. Barlat, Twist springback characteristics of dual-phase steel   sheet after asymmetric deep drawing. International Journal of Material   Forming, 2017, v10(2): p267-278.

6、X. Xue, J. Liao*,   G. Vincze, J. A. Sousa, F. Barlat, J. Gracio. Modelling and sensitivity   analysis of twist springback in deep drawing of dual phase steel. Materials   & Design, 2016, v90, p204-217.

7、X. Xue, J. Liao*,   G. Vincze, A. B. Pereira, F. Barlat, Experimental assessment of nonlinear   elastic behaviour of dual-phase steels and application to springback   prediction. International Journal of Mechanical Sciences. v117, October 2016,   pp1-15.

8、X. Xue, J. Liao*, G. Vincze, J. J. Gracio,   Modelling of mandrel rotary draw bending for accurate twist springback   prediction of an asymmetric thin-walled tube, Journal of Materials Processing   Technology, 2015, v216, 405-417.

9、W. Wen, M. Borodachenkova*, F. Barlat, J. Liao, J. Grácio, Modeling of the   mechanical response during reversal shear loading: application to steels.   Steel Research International, 2015, v87(7), p850-858.

10、J. Liao*, X. Xue,   M-G Lee, F. Barlat, J. Gracio, On twist springback prediction of asymmetric   tube in rotary draw bending with different constitutive models, International   Journal of Mechanical Sciences, 2014, v89, 311-322.

11、J. Liao*, X. Xue, C.   Zhou, J. J. Gracio, F. Barlat. A semi-analytic model to predict and   compensate springback in the 3D stretch bending process. Steel Research International,   85(4), 2014, 697-709.

12、J. Liao, X. Xue, C.   Zhou*, J. J. Gracio, F. Barlat. A   springback compensation strategy and applications to bending cases. Steel   Research International, 2013, v84(5): p.463-472.

13、廖娟,周驰,阮锋*,高强度钢板在双向等曲率模中的成形回弹研究,中南大学学报自然科学版, 2011, v6   (42): 1629-1635.

14、J. Liao*, C. Zhou,   F. Ruan. Springback Reduction of a Blade Part Using Measuring Based   Compensation Methodology. Steel Research International, 2010, v81(9):   p749-752.

代表性会议论文及报告

1、J. Liao, X. Xue, G.   Vincze, M-G Lee, F. Barlat, A.B. Pereira, Path dependent modeling for   accurate twist springback in complex channel forming process, International   Symposium of Plasticity and Its Current Applications 2016 (PLASTICITY'16).   2016. Jan.3-9th, Big Irland, Hawaii, US.

2、J. Liao, X. Xue,F. Barlat,M.G. Lee,G. Vincze,A.B. Pereira,Twist springback   analysis in curved channel forming based on a distortional hardening model,International   Conference and Workshop on Mechanical Engineering Research (RTME2016), July 11-13th, 2016, Aveiro, Portugal.

3、J. Liao, X. Xin,   Experimental investigation of deep drawing of C-rail benchmark using various   lubricants., MATEC Web of Conferences, v21, 2015, 04011, The 4th   International Conference on New Forming Technology (ICNFT2015), 2015, Aug.   6-9th. Glasgow, Scotland, UK.

4、J. Liao, X. Xue, J.   A. Sousa, A. B. Lopes, Frederic Barlat, Constitutive description of dual   phase steel under non-proportional loading using distortional hardening   approach. Proceeding of the 8th Forming Technology Forum (FTF2015), p143-147.   June 29-30th, 2015. Zurich, Switzerland.

5、J. Liao, J. Sousa,   X. Xue, A. B. Lopes, F. Barlat and J. J. Gracio, 2015. Hardening behavior and   modeling of dual phase steels under strain path changes. International   Symposium of Plasticity and Its Current Applications 2015 (PLASTICITY' 15).   January 4-9th, 2015 Montego Bay, Jamaica.

6、J. Liao, Modeling   and control of twist springback in metal forming processes. Workshop on   Constitutive Modeling and Material Forming. Centre for Mechanical Technology   and Automation, University of Aveiro, 13th, July, 2015. (主题报告)

7、J. Liao, J. Sousa,   X. Xue, Hardening response of dual-phase steels under non-proportional strain   path, Proceedings of 2015 International Conference on Computing Techniques   and Mechanical Engineering, p49-52. Oct. 1-2, 2015, Phuket, Thailand.

8、J. Liao,X. Xue,F. Barlat,J. Gracio,Modelling and springback analysis for multi-stage   rotary draw bending of thin-walled tube using homogeneous anisotropic   hardening model, Procedia Engineering, v81, 2014, p1228-1233. The 11th   International Conference on Technology of Plasticity (ICTP2014),Nagoya, Japan, 19-24th,   Oct. 2014.

9、J. Liao, Dual phase   steel and its application in automotive industry. Workshop 'Out of the Box   Seminar', organized by SSAB Swedish Steel Ltd. June 13, 2012, Vigo, Spain. (主题报告)

10、J. Liao, C. Zhou,   X. Xue. An approach for springback compensation of double curved part using   optical measurement technology. International Symposium on Plasticity and Its   Current Applications (PLASTICITY' 12) : P55-57, Jan, 3-8th 2012. San Juan,   PR, USA.

11、J. Liao, C. Zhou,   F. Ruan. Springback Reduction of a Blade Part Using Measuring Based   Compensation Methodology. Steel Research International, 2010, 81-9: p749-752.   The 13th International Conference on Metal Forming (Metal Forming 2010)), Toyohashi,   Japan, 19-22th, Sep., 2010.

12、J. Liao, C. Zhou,   F. Ruan. A new springback compensation method for sheet metal bending based   on curvature correction. Advanced Materials Research. 2010, v97-101:   p130-134.

专利

1、实用新型专利,一种冷冲件冲压过程动摩擦系数的测量装置, 2012.02. (授权,第一发明人)

2、发明专利,一种测量冷冲件拉延成形中应变的方法及测量装置,2013.02. (授权,第二发明人)

3、发明专利,一种高强度金属板材剪切力学实验装置及其测试方法,2017.05. (申请,第一发明人)

4、实用新型专利,一种高强度金属板材剪切力学实验装置,2017.05.(申请,第一发明人)


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地址:福建省福州市福州地区大学新区学园路2号 邮编:350116