个人简介
研究方向
承担项目
代表性学术成果
黄照文

黄照文,博士,东莞理工学院副研究员, 2020年博士毕业于南京理工大学,2021-2023年为西安交通大学-东莞理工学院联合培养博士后,随后加入东莞理工学院工作。主要从事多尺度缺陷的形成机制及耦合作用,多性能异构材料的组织调控,以及基于亚稳工程的先进结构功能一体化材料设计研究。主持国家自然科学基金青年项目、博士后面上一等资助等国家和省市级项目4项,在Inter. J. Plast., MSEA, Mater. Charct.等期刊上发表SCI论文20余篇,授权/申请发明专利4件。

1)多尺度缺陷的形成控制机制及耦合交互作用研究;

2)结合剧烈塑性变形和热处理技术的组织调控方法;

3)纳米晶、孪晶、第二相等的界面形成及稳定机理;

4)多性能异构材料的组织调控、变形行为和强韧化;

5)基于亚稳工程的先进结构功能一体化材料设计开发。

[1] 中国博士后科学基金第71批面上资助一等:多主元合金中应力诱导相变的动态异构强化效应(2022M710107),2022.06-2023.09,已结题

[2] 国家自然科学基金-青年项目:多级孪晶结构钛变形机制及其强韧化研究(52101130),2022.01-2024.12,在研

[3] 广东省粤莞区域联合基金-青年项目:工业纯钛中多级孪晶结构制备调控及其强韧化机理研究(2020A1515110952),2020.10-2023.10,已结题

[4] 江苏省研究生科研与实践创新计划项目:纯钛塑性变形行为及其性能研究(No.KYCX18_0415),2018.06-2019.06,已结题

学术论文

[1] Zhaowen Huang, Donghui Wen, Yang Xu, Qiujuan Guo, Zhichuan Chen, Xionghua Jiang, Anding Wang, Yusheng Li, Binwen Zhou, Xiaodong Hou, Biao Wang, Dislocation slips assisted grain rotation and specific texture evolution in a CoCrNi medium entropy alloy, Materials Science and Engineering A 890 (2024) 145897 IF=6.4

[2] Zhaowen Huang, Jiapeng Chen, Yusong Chen, Anding Wang, Biao Wang, A thermodynamic model for predicting the stress–strain relation of stochastic heterogeneous materials with experimental verification, Engineering Fracture Mechanics 295 (2024) 109780 IF=5.4

[3] Zhaowen Huang, Xiangwei Li, Donghui Wen, Qiujuan Guo, Anding Wang, Jiasheng Dong, Fengyu Kong, Xiaodong Hou, Yusheng Li, Biao Wang, Yuntian Zhu. Crack initiation and propagation dominated by strain localization in quasi-single crystal and poly-crystalline of a Ni-based complex concentrated alloy, Materials Characterization 201 (2023) 112973 IF=4.7

[4] Zhaowen Huang, Donghui Wen, Xionghua Jiang, Anding Wang, Yusheng Li, Yang Cao, Xiaodong Hou, Biao Wang, Yuntian Zhu. Additional dislocation slip determined excess yield stress in titanium, Materials Science and Engineering A 861 (2022) 144387 IF=6.4

[5] Zhaowen Huang, Donghui Wen, Xiaodong Hou, Yusheng Li, Biao Wang, Anding Wang. Grain size and temperature mediated twinning ability and strength-ductility correlation in pure titanium, Materials Science and Engineering A 849 (2022) 143461 IF=6.4

[6] Zhaowen Huang, Yusheng Li. Quasi in-situ investigation on the {112 ̅2} twin pair in cryogenic rolled Ti, Materials Characterization 163 (2020) 110237 IF=4.7

[7] Zhaowen Huang, Yusheng Li. Dislocation dissociation induces secondary twinning in titanium, Journal of Materials Science 55 (2020) 11679 IF=4.682

[8] Zhaowen Huang, Shenbao Jin, Hao Zhou, Yusheng Li, Yang Cao, Yuntian Zhu. Evolution of twinning systems and variants during sequential twinning in cryo-rolled titanium, International Journal of Plasticity 112 (2019) 52 IF=9.8

[9] Zhaowen Huang, Pengling Yong, Yusheng Li. Grain size effect on deformation mechanisms and mechanical properties of titanium, Materials Science and Engineering A 773 (2019) 138721 IF=6.4

[10] Zhaowen Huang, Pengling Yong, Ningning Liang, Yusheng Li. Slip, twinning and twin-twin interaction in a gradient structured titanium, Materials Characterization 149 (2019) 52 IF=4.537

[11] Zhaowen Huang, Yang Cao, Jinfeng Nie, Hao Zhou, Yusheng Li. Microstructures and mechanical properties of commercially pure Ti processed by rotationally accelerated shot peening, Materials 11 (2018) 366 IF=3.4

[12] Shuaizhuo Wang, Zhaohua Hu, Zhaowen Huang, Bo Gao, Xuefei Chen, Jiajun Hu, Yuntian Zhu, Yusheng Li, Hao Zhou, New deformation mechanism and strength-ductility synergy in pure titanium with high density twin, International Journal of Plasticity 174 (2024) 103908 IF=9.8

[13] Yongtai Li, Donghui Wen, Zhaowen Huang, Fengyu Kong, Mingcan Li, Chengliang Zhao, Zhenduo Wu, Anding Wang, Glass-to-glass transition enables superhigh thermal stability and glass formability for thermoplastic shaping of FeBNbYCr alloys, Journal of Non-Crystalline Solids 611 (2023) 122332 IF=3.5

[14] Donghui Wen, Beibei Jiang, Zhaowen Huang, Fengyu Kong, Xionghua Jiang, Anding Wang, Gang Liu, Biao Wang, Supersaturation and dissolvable α-Cr phase enable superior oxidation resistance in FeCrNi medium-entropy alloys, Journal of Alloys and Compounds 954 (2023) 170216 IF=6.2

[15] Donghui Wen, Beibei Jiang, Zhaowen Huang, Fengyu Kong, Xionghua Jiang, Anding Wang, Xiaodong Hou, Junhua Luan, Qing Wang, Gang Liu, Biao Wang, Rational design and multi-stage formation mechanisms of FeCrNiAl medium-entropy alloy strengthened by multi-scaled dual phases, Materials Characterization 194 (2022) 112430 IF=4.7

[16] Jinfeng Nie, Fenghua Lu, Zhaowen Huang, Xia Ma, Hao Zhou, Cai Chen, Xiang Chen, Huabing Yang, Yang Cao, Xiangfa Liu, Yonghao Zhao, Yuntian Zhu. Improving the high-temperature ductility of Al composites by tailoring the nanoparticle network. Materialia 9 (2020) 100523 IF=3.4

[17] Jiansheng Li, Shuaizhuo Wang, Qingzhong Mao, Zhaowen Huang, Yusheng Li, Soft/hard copper/bronze laminates with superior mechanical properties, Materials Science and Engineering: A 756 (2019) 213 IF=6.4

[18] Jiansheng Li, Chao Fang, Yanfang Liu, Zhaowen Huang, Shuaizhuo Wang, Qingzhong Mao, Yusheng Li. Deformation mechanisms of 304L stainless steel with heterogeneous lamella structure, Materials Science and Engineering: A 742 (2019) 409 IF=6.4

[19] Jiansheng Li, Bo Gao, Zhaowen Huang, Hao Zhou, Qingzhong Mao, Yusheng Li. Design for strength-ductility synergy of 316L stainless steel with heterogeneous lamella structure through medium cold rolling and annealing, Vacuum 157 (2018) 128 IF=4.0

[20] Jiansheng Li, Weidong Gao, Yang Cao, Zhaowen Huang, Bo Gao, Qingzhong Mao, Yusheng Li, Microstructures and mechanical properties of a gradient nanostructured 316L stainless steel processed by rotationally accelerated shot peening, Advanced Engineering Materials 20 (2018) IF=4.122

[21] Shijuan Dai, Yuntian Zhu, Zhaowen Huang, Microstructure and tensile behaviour of pure titanium produced after high-energy shot peening, Materials Science and Technology Doi: 10.1080/02670836.2015.1121598 IF=2.060

[22] Shijuan Dai, Yuntian Zhu, Zhaowen Huang, Microstructure and tensile behaviour of pure titanium produced after high-energy shot peening, Materials Science and Technology Doi: 10.1080/02670836.2015.1121598 IF=2.060

[23] 侯晓东,叶晋,黄照文,Paddea Sanjooram,张鹏,张书彦. 轮廓法测量残余应力研究进展,专题综述. 焊接 doi: 10.12073/j.hj.20220202003

[24] 侯晓东,黄照文,高建波,吴桂毅,张瑞尧,张书彦. 残余应力检测技术及其应用,机械工程学报,返修


发明专利

[1] 一种便携式仪器化冲击压入仪,专利号:202110076931.X

[2] 一种用于提高盲孔法测量残余应力精度的方法,专利号:202011400194.6

[3] 超高密度孪晶钛及其制备方法,专利号:201811187137.7

[4] 一种非均质层状结构工业纯钛的制备方法,专利号:201711182464.9


关闭

  • Research Institute of Interdisciplinary Science (RISE)
  • Copyright 东莞理工学院交叉科学研究中心

微信公众号