西安交通大学机械工程学院导师教师师资介绍简介-个人简介 - 黄科 - 西安交通大学师资导师

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西安交通大学机械工程学院导师教师师资介绍简介-个人简介 - 黄科

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黄科 - 个人简介 - 黄科黄科

黄科
机械工程学院，教授/博导
西安交通大学“青年拔尖人才”A类

联系方式

办公地址：
机械工程学院先进制造技术研究所
西安交通大学曲江校区西五楼A307
交大创新港巨构二，2-3050
联系方式：

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我的新闻
课题组在Mater Sci Eng A 发表铝合金电弧熔丝增材制造与层间锤击复合工艺论文
2020-10-10

在《Frontiers in Materials》（IF:2.689）上组织先进金属材料专刊
2020-06-14

19级博士生张宏凯关于金属热变形的论文在Mater Des上发表！
2020-06-10

铝合金微观组织及织构调控论文在Mater Charact上发表
2020-06-07

主编英文书籍出版《Recrystallization: Types, Techniques and Applications》
2019-12-19

挪威工程院院士Knut Marthinsen教授来访
2019-11-18

更多新闻>>

个人简介

黄科（1983年出生），2012年博士毕业于法国Mines ParisTech。主要研究兴趣包括金属增材制造(3D打印)，金属材料加工及其数值模拟技术、激光冲击强化等。在金属增材制造、塑性成形及微观组织性能调控领域国际知名SCI期刊Prog Mater Sci (IF:31.5), Acta Mater 等发表论文40余篇(Google Scholar被引超过1500余次)，其中包括ESI高被引论文2篇，主编英文著作一部，撰写英文章节2章。担任SCI期刊Metall Mater Trans A, Sci Rep, Mater Sci Technol的编委，稀有金属、材料工程、航空材料学报、精密成形工程等中文期刊青年编委,Science、Acta Mater等领域顶级期刊审稿人。担任先进材料成形制造国际会议 (Thermec) 学术委员会委员。

工作经历

2017.12 - 至今西安交通大学（XJTU）教授
2014.11 - 2017.11 瑞士洛桑联邦理工大学（EPFL） Scientist
2012.03 - 2014.11 挪威科技大学（NTNU）博士后/研究员

研究领域

1. 金属增材制造（3D打印）

2. 金属结构材料微观组织及性能精确调控

3. 激光冲击强化技术

科研项目
1）军科委基础加强重点项目课题主持 2020.12-2024.12
2）军科委基础加强重点项目子课题主持 2020.12-2024.12
3）北京南方斯奈克马涡轮技术有限公司合作项目主持 2020.05-2023.12
4）西安交通大学“青年拔尖人才计划”A类主持 2017.12-2023.12
5）国家自然科学基金青年项目主持 2019.01-2021.12
6）装备预研重点实验室基金主持 2019.11-2021.11
7）陕西省自然科学基金面上项目主持 2019.01-2020.12
8）校内重大项目培育项目主持 2019.09-2020.12
9）高性能复杂制造国家重点实验室开放课题主持 2019.01-2020.12

招生信息

热忱欢迎对金属增材制造（3D打印）、激光冲击强化、金属材微观组织及性能调控方向感兴趣的考生，邮件、微信联系均可。课题组在创新港拥有从事上述研究方向的所有设备（金属增材制造、金属变形、力学性能测试、微观组织表征、数值模拟等），从研一开始固定在创新港从事科研工作，无需在不同校区间奔波。欢迎交大学生报考优本计划，以及来自全国各地优秀推免生！

研究论文 - 黄科主要论文（Selected Publications）

(一) 金属增材制造
1) N. Kalentics*, K. Huang*, M. Ortega Varela de Seijas, A. Burn, V. Romano, R.E.Logé. Laser shock peening: a promising tool for tailoring metallic microstructures in selective laser melting. J. Mater. Process. Technol 266(2019)612-618
2) K. Huang*, T.X. Chang, Y.D. Jing, X.W. Fang, B.H. Lu. Additive Manufacturing of Magnesium Alloys. In "Additive and Subtractive Manufacturing", J. Paulo Davim (ed), De Gruyter, 2019.(Book Chapter)
3) X.W. Fang, L.J. Zhang, J.N. Yang, H. Bai, L. Zhao, K. Huang*, B.H. Lu*. Effect of characteristic substrate parameters on the deposition geometry of CMT additive manufactured Al-6.3%Cu alloy. Appl Therm Eng 162(2019) 114302
4) X. Fang, G.Chen, J. Yang, Y. Xie, K. Huang*, B.Lu, Wire and arc additive manufacturing of high strength Al-Zn-Mg aluminum alloy. Frontiers in Materials 8(2021) 656429
5)X. Fang, C. Ren, L. Zhang, C. Wang, K. Huang*, B.Lu*,A model of bead size based on the dynamic response of CMT-based wire and arc additive manufacturing process parameters. Rapid Prototyping Journal. 27(2021) 741-753
6) X.W. Fang, H. Li, X.G.Li, K. Huang*, L.J. Zhang*, B.H. Lu. Effect of post heat treatment on the microstructure and mechanical properties of wire-arc additively manufactured A357 alloy components. Mater Lett 269(2020)127674
7)X.W. Fang, L.J. Zhang, G.P. Chen, K. Huang*, F. Xue, L. Wang, J.Y. Zhao, B.H. Lu*. Microstructure evolution of wire-arc additively manufactured 2319 aluminum alloy with interlayer hammering. Mater Sci Eng A 800(2021)140168
8) Z. Chen, P. Wei, S.Z. Zhang, B.H. Lu*, L.J. Zhang*, X.G. Yang, K. Huang, Y. Z.Huang, X.P. Li, Q. L. Zhao. Graphene reinforced nickel-based superalloy composites fabricated by additive manufacturing. Mater Sci Eng A 769(2020)138484
9) X.W. Fang, L.J. Zhang*, H. Li, C. Li, K. Huang, B.H. Lu. Microstructure evolution and mechanical behavior of 2219 aluminum alloys additively fabricated by cold metal transfer process. Materials 11(2018) 812
10) X.W. Fang, L.J. Zhang, G.P. Chen, X.F. Dang, K. Huang, L. Wang, B.H. Lu*. Correlations between microstructure characteristics and mechanicalproperties in 5183 aluminium alloy fabricated by wire-arc additivemanufacturing with different arc modes. Materials 11(2018) 2075
11) A. K. Sahu, S. Bag, Ke Huang. Mitigation of micro-cracks in dissimilar welding of Inconel 718 and austenitic stainless steel. Philo Mag Lett 100(2020)365-374
12) 黄科，方学伟，卢秉恒. 《锻压手册》第四版第一卷锻造，《增材制造》章节，2020年，机械工业出版社。
（二）金属热变形过程中微观组织及性能调控
1) K. Huang*, R.E. Logé. A review of different dynamic recrystallization phenomena in metallic materials. Mater & Design 111 (2016) 548-574 （ESI 高被引文章）
2) K. Huang*, R.E. Logé. Microstructure and flow stress evolution during hot deformation of 304L stainless steel in variable conditions. Mater Sci Eng A 711(2018) 600-610
3) H.K. Zhang, H. Xiao, X.W. Fang, Q. Zhang, R.E. Logé, K. Huang*. A critical assessment of experimental investigation of dynamic recrystallization of metallic materialsMater & Design 193 (2020) 108873
4) K. Huang*. Editor.《Recrystallization: Types, Techniques and Applications》. 2020, Nova Publisher (Book)
5) O. Beltran, K. Huang*, R.E. Logé. A mean field model of dynamic and post-dynamic recrystallization predicting kinetics, grain size and flow stress. Comp. Mater. Sci 102 (2015) 293-303
6) P. Bernard, S. Bag, K.Huang, R.E.Logé*.A two-site mean field model of discontinuous dynamic recrystallization. Mater Sci Eng A 528(2011) 7357-7367
7）K. H. Wang, G. Liu*, W. Tao, J. Zhao, K. Huang. Study on the mixed dynamic recrystallization mechanism during the globularization process of laser -welded TA15 Ti-alloy joint under hot tensile deformation. Mater Charact 126 (2017) 57-63
8）K. Wang, G. Liu*, K. Huang, D.J. Politis, L. Wang. Effect of recrystalllization on hot deformation mechanism of TA15 titanium alloy under uniaxial tension and biaxial gas bulging conditions. Mater Sci Eng A 708(2017)149-158
9) K. Wang, G. Liu*, J. Zhao, K. Huang, L. Wang. Experimental and modelling study of an approach to enhace gas bulging formability of TA15 titanium alloy tube based on dynamic recrystallization. J. Mater. Process. Technol 259(2018)387-396
10）J. Zhao, K. Wang, K. Huang, G. Liu*. Recrystallization behavior during hot tensile deformation of TA15 titanium alloy sheet with substantial prior deformed substructures. Mater Charact 151(2019)429-435
11)M. Cao*, Q. Zhang, K. Huang, X. Wang, B. Chang, L. Cai. Microstructural evolution and deformation behavior of copper alloy during rheoforging process. Journal of Materials Science & Technology 42(2020)17-27
12) H. Li, M. Cao, L.Q. Niu, K. Huang, Q. Zhang*. Establishment of macro-micro constitutive model and deformation mechanism of semi-solid Al6061. J. Alloy. Compd 854 (2020) 157124
13）张宏凯，李岩，肖豪，黄科*，金属热变形微观组织精密控制的研究进展。精密成形工程 12（2020）49-59

（三）金属热处理过程微观组织及性能调控
1) K. Huang*, K. Marthinsen, Q. Zhao, R.E. Logé. The double-edge effect of second-phase particles on the recrystallization behaviour and associated mechanical properties of metallic materials. Prog. Mater. Sci 92(2018) 284-359 (影响因子：23.7, ESI 高被引论文)
2) K. Huang*, K. Zhang , K. Marthinsen, R.E. Logé. Controlling grain structure and texture in Al-Mn alloy from the competition between precipitation and recrystallization. Acta Mater 141(2017) 360-373 (影响因子：7.3)
3) K. Huang*, R.E. Logé, K. Marthinsen. On the sluggish recrystallization of cold-rolled Al-Mn-Fe-Si alloy. J. Mater. Sci 51 (2016) 1632-1643
4) K. Huang*, O. Engler, Y.J. Li, K. Marthinsen. Evolution in microstructure and properties during non-isothermal of a cold-rolled Al-Mn-Fe-Si alloy with different microchemistries. Mater. Sci. Eng A 628(2015) 216-229
5) K. Huang*, Y.J. Li, K. Marthinsen. Factors affecting the strength of P texture during annealing of cold-rolled Al-Mn-Fe-Si alloy. J. Mater. Sci 50 (2015) 5091-5103
6) K. Huang*, Y.J. Li, K. Marthinsen. Two-stage annealing of a cold rolled Al-Mn-Fe-Si alloy with different microchemistry states. J. Mater. Process. Technol 221 (2015) 87-99
7) K. Huang*, K. Marthinsen. The effect of heating rate on the softening behaviour of a deformed Al-Mn alloy with strong and weak concurrent precipitation. Mater. Charact 110 (2015) 215-221
8) K. Huang*, Y.J. Li, K. Marthinsen. Effect of heterogeneously distributed pre-existing dispersoids on the recrystallization behavior of Al-Mn-Fe-Si alloy. Mater. Charact 102 (2015) 92-97
9) K. Huang*, N. Wang, Y.J. Li, K. Marthinsen. The influence of microchemistry on the softening behavior of two cold-rolled Al-Mn-Fe-Si alloys. Mater. Sci. Eng. A 601 (2014) 86-96
10) X.W. Fang, H. Xiao, K. Marthinsen, A. Belyakov, X.Y. Fang, K. Huang*, Tailoring microstructure and texture of annealed Al-Mn alloy through the variation of homogenization and prior cold deformation strain. Mater Charct 166(2020)110438
11) K. Huang*, Y.J. Li, K. Marthinsen. Isothermal annealing of a cold-rolled Al-Mn-Fe-Si alloy with different microchemistry states.Trans. Nonferous Met. Soc. China 24(2014) 3840-3847
12) Q.L. Zhao*, H.D. Zhang, K.Huang*, K. Marthinsen. Correlating orientated grain number density of recrystallization in particle-containing aluminium alloys. Trans. Nonferrous Met. Soc. China 28(2018)220-225
13) N. Wang, K. Huang, Y.J. Li, K. Marthinsen*. The influence of processing conditions on microchemistry and the softening behavior of cold rolled Al-Mn-Fe-Si alloys Metals 6(2016) 61.
14)Q. L. Zhao*, K. Huang, Y.J. Li, K. Marthinsen. Orientation preference of recrystallization in supersaturated aluminum alloys influenced by concurrent precipitation. Metall. Mater. Trans. A 47A(2016) 1378-1388
15)K. Huang, R.E. Logé. Zener Pinning. In “Reference Module in Materials Science Engineering”, S. Hashmi (ed), Elsevier, 2016. (Book Chapter)

（四）外加能场对金属微观组织演变的影响
1) K. Huang*, C. Cayron, R.E. Logé. The surprising influence of continuous alternating electric current on recrystallization behavior of a cold-rolled AA3xxx alloy. Mater Charact 129(2017) 121-126
The full list is available at：
https://www.researchgate.net/profile/Ke_Huang14

科研团队 - 黄科团队名称
先进制造技术研究所增材制造团队团队负责人：卢秉恒院士
部分团队成员（2019年5月）

研究队伍
博士研究生：

姓名：张宏凯
毕业院校：西安交大
年级：2019春
方向：镍基高温合金热变形
邮箱：
zhk9566@stu.xjtu.edu.cn

姓名：席乃园
毕业院校：西南交大
年级：2019秋
方向：激光冲击强化
邮箱：xiny123@stu.xjtu.edu.cn

硕士研究生：

姓名：肖豪
毕业院校：西安交大
年级：2018秋
方向：铝合金热变形
邮箱：xiaohao**@stu.xjtu.edu.cn

姓名：常天行
毕业院校：西安交大
年级：2019秋推免
方向：镁合金增材制造
邮箱：ctx0512@stu.xjtu.edu.cn

姓名：井龑东
毕业院校：西北工大
年级：2019秋推免
方向：激光冲击强化
邮箱：jingyandong@stu.xjtu.edu.cn

姓名：孙斌
毕业院校：吉林大学
年级：2019秋推免
方向：钛合金增材制造
邮箱：

姓名：张木公
毕业院校：吉林大学
年级：2020秋推免
方向：形状记忆合金增材
邮箱：

姓名：李新志
毕业院校：合肥工大
年级：2020秋推免
方向：镁合金增材
邮箱：

姓名：李岩
毕业院校：重庆大学
年级：2020秋推免
方向：增材制造缺陷调控
邮箱：

姓名：段煜松
毕业院校：西南大学
年级：2020秋
方向：钛合金SLM增材
邮箱：

留学生：

姓名：Mehmood Rashid
毕业院校：Pakistan
年级：2020秋博士
方向：
邮箱：

姓名：Waseem H. Muhammad
毕业院校：Pakistan
年级：2020秋硕士
方向：
邮箱：

教学 - 黄科讲授课程
本科生课程：
增材制造工程应用 / Additive Manufacturing Applications （全英文课程，秋季）
材料成形技术基础 / Fundamentals of Materials Processing Technologies (全英文课程，春季)
材料成形技术基础:http://www.icourse163.org/course/XJTU- (中文，中国大学Mooc）
研究生课程：
金属材料宏微观力学行为（中文，秋季）
先进领域学术英语交流 / Scientific Communication in English (全英文课程，春季)

English - 黄科Prof. Ke Huang

Prof. Ke Huang
Department of Mechanical Engineering
Xi'an Jiaotong University (XJTU)

Professional Experiences

1) Editorial Member:
Metallurgical and Materials Transactions A,
Scientific Reports
Materials Science Technology
2) Scientific Committee member:
Thermec (International Conference on Processing & Manufacturing of Advanced Materials)
3) Reviewer of ~40 Sci journals (Including Science, Acta Mater etc)

Contact

Department of Mechanical Engineering
Xi'an Jiaotong University
No. 28 Xianning West Road
710049 Xi'an P.R. China

Bio
Prof. Huang (born 1983) received his doctorate degree in Material Science and Engineering in 2012 from CEMEF,Mines ParisTech, France. He joined the department of Material Science and Engineering, NTNU in March 2012 as a postdoctoral fellow. He was scientist at école polytechnique fédérale de Lausanne (EPFL), Switzerland from November 2014 to November 2017. Prof. Huang's main scientific interests include microstructural evolution during thermo-mechanical processing of metallic materials and its numerical modeling, as well as additive manufacturing. He became a professor at the department of mechanical engineering at XJTU since December 2017.

Opening Positions
1) Ph.D/Master positions for foreign students:
Microstructure and mechanical properties control of metallic materials (Al alloys, Mg alloys, Nikel-based superalloys, Ti alloys)
Additive manufacturing of metallic materials (WAAM, SLM, EBM etc)
In-situ monitoring of additive manufacturing process

News
课题组在Mater Sci Eng A 发表铝合金电弧熔丝增材制造与层间锤击复合工艺论文
2020-10-10

在《Frontiers in Materials》（IF:2.689）上组织先进金属材料专刊
2020-06-14

19级博士生张宏凯关于金属热变形的论文在Mater Des上发表！
2020-06-10

铝合金微观组织及织构调控论文在Mater Charact上发表
2020-06-07

主编英文书籍出版《Recrystallization: Types, Techniques and Applications》
2019-12-19

挪威工程院院士Knut Marthinsen教授来访
2019-11-18

悉尼大学安详海老师应邀来访交流
2019-08-13

Thermec 2021 欢迎参会！
2019-02-18

中国有色金属学会2018青年科技论坛
2018-08-25

Thermec 2018 Internatioanl Conference
2018-07-15

Visiting of Prof. Mingxin Huang from Hongkong University
2018-06-08

First ESI highly cited paper
2018-05-19

更多新闻>>

Selected pulications
(1) Additive Manufacturing of metallic materials

1) N. Kalentics*, K. Huang*, M. Ortega Varela de Seijas, A. Burn, V. Romano, R.E.Logé. Laser shock peening: a promising tool for tailoring metallic microstructures in selective laser melting. J. Mater. Process. Technol 266(2019)612-618

2) K. Huang*, T.X. Chang, Y.D. Jing, X.W. Fang, B.H. Lu. Additive Manufacturing of Magnesium Alloys. In "Additive and Subtractive Manufacturing", J. Paulo Davim (ed), De Gruyter, 2019.(Book Chapter)

3) X.W. Fang, L.J. Zhang, J.N. Yang, H. Bai, L. Zhao, K. Huang*, B.H. Lu*. Effect of characteristic substrate parameters on the deposition geometry of CMT additive manufactured Al-6.3%Cu alloy. Appl Therm Eng 162(2019) 114302

4) X. Fang, G.Chen, J. Yang, Y. Xie, K. Huang*, B.Lu, Wire and arc additive manufacturing of high strength Al-Zn-Mg aluminum alloy. Frontiers in Materials 8(2021) 656429

5)X. Fang, C. Ren, L. Zhang, C. Wang, K. Huang*, B.Lu*,A model of bead size based on the dynamic response of CMT-based wire and arc additive manufacturing process parameters. Rapid Prototyping Journal. 27(2021) 741-753

6) X.W. Fang, H. Li, X.G.Li, K. Huang*, L.J. Zhang*, B.H. Lu. Effect of post heat treatment on the microstructure and mechanical properties of wire-arc additively manufactured A357 alloy components. Mater Lett 269(2020)127674

7)X.W. Fang, L.J. Zhang, G.P. Chen, K. Huang*, F. Xue, L. Wang, J.Y. Zhao, B.H. Lu*. Microstructure evolution of wire-arc additively manufactured 2319 aluminum alloy with interlayer hammering. Mater Sci Eng A 800(2021)140168

8) Z. Chen, P. Wei, S.Z. Zhang, B.H. Lu*, L.J. Zhang*, X.G. Yang, K. Huang, Y. Z.Huang, X.P. Li, Q. L. Zhao. Graphene reinforced nickel-based superalloy composites fabricated by additive manufacturing. Mater Sci Eng A 769(2020)138484

9) X.W. Fang, L.J. Zhang*, H. Li, C. Li, K. Huang, B.H. Lu. Microstructure evolution and mechanical behavior of 2219 aluminum alloys additively fabricated by cold metal transfer process. Materials 11(2018) 812

10) X.W. Fang, L.J. Zhang, G.P. Chen, X.F. Dang, K. Huang, L. Wang, B.H. Lu*. Correlations between microstructure characteristics and mechanicalproperties in 5183 aluminium alloy fabricated by wire-arc additivemanufacturing with different arc modes. Materials 11(2018) 2075

11) A. K. Sahu, S. Bag, Ke Huang. Mitigation of micro-cracks in dissimilar welding of Inconel 718 and austenitic stainless steel. Philo Mag Lett 100(2020)365-374

12) 黄科，方学伟，卢秉恒. 《锻压手册》第四版第一卷锻造，《增材制造》章节，2020年，机械工业出版社。

(2) Hot deformation of metallic materials

1) K. Huang*, R.E. Logé. A review of different dynamic recrystallization phenomena in metallic materials. Mater & Design 111 (2016) 548-574 （ESI 高被引文章）

2) K. Huang*, R.E. Logé. Microstructure and flow stress evolution during hot deformation of 304L stainless steel in variable conditions. Mater Sci Eng A 711(2018) 600-610

3) H.K. Zhang, H. Xiao, X.W. Fang, Q. Zhang, R.E. Logé, K. Huang*. A critical assessment of experimental investigation of dynamic recrystallization of metallic materialsMater & Design 193 (2020) 108873

4) K. Huang*. Editor.《Recrystallization: Types, Techniques and Applications》. 2020, Nova Publisher (Book)

5) O. Beltran, K. Huang*, R.E. Logé. A mean field model of dynamic and post-dynamic recrystallization predicting kinetics, grain size and flow stress. Comp. Mater. Sci 102 (2015) 293-303

6) P. Bernard, S. Bag, K.Huang, R.E.Logé*.A two-site mean field model of discontinuous dynamic recrystallization. Mater Sci Eng A 528(2011) 7357-7367

7）K. H. Wang, G. Liu*, W. Tao, J. Zhao, K. Huang. Study on the mixed dynamic recrystallization mechanism during the globularization process of laser -welded TA15 Ti-alloy joint under hot tensile deformation. Mater Charact 126 (2017) 57-63

8）K. Wang, G. Liu*, K. Huang, D.J. Politis, L. Wang. Effect of recrystalllization on hot deformation mechanism of TA15 titanium alloy under uniaxial tension and biaxial gas bulging conditions. Mater Sci Eng A 708(2017)149-158

9) K. Wang, G. Liu*, J. Zhao, K. Huang, L. Wang. Experimental and modelling study of an approach to enhace gas bulging formability of TA15 titanium alloy tube based on dynamic recrystallization. J. Mater. Process. Technol 259(2018)387-396

10）J. Zhao, K. Wang, K. Huang, G. Liu*. Recrystallization behavior during hot tensile deformation of TA15 titanium alloy sheet with substantial prior deformed substructures. Mater Charact 151(2019)429-435

11)M. Cao*, Q. Zhang, K. Huang, X. Wang, B. Chang, L. Cai. Microstructural evolution and deformation behavior of copper alloy during rheoforging process. Journal of Materials Science & Technology 42(2020)17-27

12) H. Li, M. Cao, L.Q. Niu, K. Huang, Q. Zhang*. Establishment of macro-micro constitutive model and deformation mechanism of semi-solid Al6061. J. Alloy. Compd 854 (2020) 157124

13）张宏凯，李岩，肖豪，黄科*，金属热变形微观组织精密控制的研究进展。精密成形工程 12（2020）49-59

(3) Annealing of metallic materials

1) K. Huang*, K. Marthinsen, Q. Zhao, R.E. Logé. The double-edge effect of second-phase particles on the recrystallization behaviour and associated mechanical properties of metallic materials. Prog. Mater. Sci 92(2018) 284-359 (影响因子：23.7, ESI 高被引论文)
2) K. Huang*, K. Zhang , K. Marthinsen, R.E. Logé. Controlling grain structure and texture in Al-Mn alloy from the competition between precipitation and recrystallization. Acta Mater 141(2017) 360-373 (影响因子：7.3)
3) K. Huang*, R.E. Logé, K. Marthinsen. On the sluggish recrystallization of cold-rolled Al-Mn-Fe-Si alloy. J. Mater. Sci 51 (2016) 1632-1643
4) K. Huang*, O. Engler, Y.J. Li, K. Marthinsen. Evolution in microstructure and properties during non-isothermal of a cold-rolled Al-Mn-Fe-Si alloy with different microchemistries. Mater. Sci. Eng A 628(2015) 216-229
5) K. Huang*, Y.J. Li, K. Marthinsen. Factors affecting the strength of P texture during annealing of cold-rolled Al-Mn-Fe-Si alloy. J. Mater. Sci 50 (2015) 5091-5103
6) K. Huang*, Y.J. Li, K. Marthinsen. Two-stage annealing of a cold rolled Al-Mn-Fe-Si alloy with different microchemistry states. J. Mater. Process. Technol 221 (2015) 87-99
7) K. Huang*, K. Marthinsen. The effect of heating rate on the softening behaviour of a deformed Al-Mn alloy with strong and weak concurrent precipitation. Mater. Charact 110 (2015) 215-221
8) K. Huang*, Y.J. Li, K. Marthinsen. Effect of heterogeneously distributed pre-existing dispersoids on the recrystallization behavior of Al-Mn-Fe-Si alloy. Mater. Charact 102 (2015) 92-97
9) K. Huang*, N. Wang, Y.J. Li, K. Marthinsen. The influence of microchemistry on the softening behavior of two cold-rolled Al-Mn-Fe-Si alloys. Mater. Sci. Eng. A 601 (2014) 86-96
10) X.W. Fang, H. Xiao, K. Marthinsen, A. Belyakov, X.Y. Fang, K. Huang*, Tailoring microstructure and texture of annealed Al-Mn alloy through the variation of homogenization and prior cold deformation strain. Mater Charct 166(2020)110438
11) K. Huang*, Y.J. Li, K. Marthinsen. Isothermal annealing of a cold-rolled Al-Mn-Fe-Si alloy with different microchemistry states.Trans. Nonferous Met. Soc. China 24(2014) 3840-3847
12) Q.L. Zhao*, H.D. Zhang, K.Huang*, K. Marthinsen. Correlating orientated grain number density of recrystallization in particle-containing aluminium alloys. Trans. Nonferrous Met. Soc. China 28(2018)220-225
13) N. Wang, K. Huang, Y.J. Li, K. Marthinsen*. The influence of processing conditions on microchemistry and the softening behavior of cold rolled Al-Mn-Fe-Si alloys Metals 6(2016) 61.
14)Q. L. Zhao*, K. Huang, Y.J. Li, K. Marthinsen. Orientation preference of recrystallization in supersaturated aluminum alloys influenced by concurrent precipitation. Metall. Mater. Trans. A 47A(2016) 1378-1388
15)K. Huang, R.E. Logé. Zener Pinning. In “Reference Module in Materials Science Engineering”, S. Hashmi (ed), Elsevier, 2016. (Book Chapter)

(4) Microstructure control by external field

1) K. Huang*, C. Cayron, R.E. Logé. The surprising influence of continuous alternating electric current on recrystallization behavior of a cold-rolled AA3xxx alloy. Mater Charact 129(2017) 121-126
The full list is available at：
https://www.researchgate.net/profile/Ke_Huang14