基本情况
张磊,副教授,硕士生导师。哈尔滨工业大学材料科学与工程学院、香港大学机械工程学院博士联合培养博士,2024年入职新疆大学材料科学与工程学院。以第一或通讯作者身份在International Journal of Plasticity,Composites Part B Engineering,Advanced Science,Materials Science and Engineering A, Small,Rare Metals等JCR Q1、A类、新锐二区以上期刊发表SCI论文30余篇,主持自治区人才项目、自然科学基金等项目多项。
办公地点:博达校区智能技术研发中心大楼A203
主要研究方向:1.非晶合金及其复合材料的凝固及力学行为;2.高性能高熵合金的制备与原位力学行为;3.分子动力学、第一性原理构建机器学习大模型预测合金材料力学性能。
讲授课程:材料科学基础;材料测试与表征
导师类别:学术/专业型硕导
招生信息:每年招收硕士生3名,已指导毕业学生多名获国家奖学金,均入学985名校继续博士深造,欢迎对科研有热忱的同学们加入!
联系方式:leizhang@xju.edu.cn
教育及工作经历
2024.12 - 至今 新疆大学,高性能金属材料研究所(材料学系), 副教授
2023.11 - 2024.12 新疆大学,高性能金属材料研究所(材料学系),讲师
2022.09- 2023.06 哈尔滨工业大学,材料科学与工程学院,博士在读
2020.09-2022.09 香港大学,机械工程学院,博士在读
2019.09-2020.09 哈尔滨工业大学,材料科学与工程学院,博士在读
2012.06-2019.06 鲁东大学 学士、硕士
科研项目
新疆维吾尔自治区青年基金项目,2025.09-2028.09主持;
新疆维吾尔自治区教育厅青年博士项目,2025.01-2027.12,主持;
新疆维吾尔自治区高校基本业务经费,2026.01-2028.12,主持;
离子辐照铜锆基非晶复合材料的增塑机理(国家自然科学基金), 2019-2023,参与;
大尺寸复杂非晶合金构件反重力铸造装置(国家重大科研仪器研制项目), 2019-2023,参与。
学术成果
代表性学术论文(一作/通讯)
1.L. Zhang*,Z. Feng, Z. Xiong, Z. Zhang, B. Wu, C. Zhao*.Improvement of work-hardening capability and strength of FeNiCoCr-based high-entropy alloys by modulation of stacking fault energy and precipitation phase,International Journal of Plasticity,185 (2025) 104242.(JCR Q1,新锐一区,IF:12.8,Top期刊,ESI高被引)
2.C. Zhao, X. Wang, L. Li, H. Huang, B. Wu,L. Zhang*,X. Huang*.Biomineralization-Inspired Membranization Toward Structural Enhancement of Coacervate Community,AdvancedScience,(2025)2417832.(JCR Q1,新锐一区,IF:14.1,Top期刊)
3.L. Zhang,J. Sun, A. Ngan*, H. Fan, Y. Huang*. Heterogeneity of microstructures in a Cu-Zr based amorphous alloy composite reinforced by crystalline phases.Composites Part B Engineering,262 (2023) 110823.(JCR Q1,新锐一区,IF:14.2,Top期刊)
4.L. Zhang,S. Su, W. Fu, J. Sun, A. Ngan*, Y. Huang*. Strain-induced structural evolution of interphase interfaces in CuZr-based metallic glass composite reinforced by B2 crystalline phase.Composites Part B Engineering,258 (1) (2023) 110698.(JCR Q1,新锐一区,IF:14.2,Top期刊)
5.H Huang,L Zhang*,L Wang*, C Zhao*.Nanoparticle-Based Membranes on Coacervates: From Interfacial Assembly to Biomimetic Applications.Small,(2026) 73133.(JCR Q1,新锐一区,IF:12.1,Top期刊)
6.B.Wu, L.Li, H.Huang, Z.Feng, X.Zhang,L.Zhang*,C.Zhao*.pH-Driven Compartmentalization in Coacervate Protocells Enables Programmable Microreactors,Small,(2025)06177.(JCR Q1,新锐一区,IF:12.1,Top期刊)
7.Y.Huang, L. Li,L. Zhang*,C. Zhao*,Y. Huang.The Structural Origin of the Amorphous-to-Crystalline Transformation in Cu-Zr Based Amorphous Alloy.Rare Metals,(2026) 1225.(JCR Q1,新锐一区,IF:11,Top期刊)
8.H. Huang,L. Zhang*,B. Wu, G. Wu, C. Zhao*.Cu2+-Mediated membrane property modulation and aggregation of membranized coacervates for facilitating diabetic wound healing.Journal of Colloid and Interface Science,706 (2026) 139568.(JCR Q1,新锐一区,IF:9.7,Top期刊)
9.J. Zhang, L. Li, C. Zhao*,L. Zhang*.Investigation of grain refinement and precipitation strengthening mechanisms in FeNiCoCrTi high-entropy alloy facilitated by trace yttrium addition.Materials Science and Engineering A,951 (2026) 149585.(JCR Q1,新锐一区,IF:7.0,Top期刊)
10.L. Zhang*,Z Xiong, X Zhang, Z Feng, B Wu, C Zhao*.Enhancing strength in FeNiCoCr-based high-entropy alloys through stacking fault energy reduction and semi-coherent precipitation.Materials Science and Engineering A,943(2025)148838.(JCR Q1,新锐一区,IF:7.0,Top期刊)
11.L. Zhang,J. Sun, H. Fan, Z.Ning, Y. Huang*. Effect of crystalline phase on deformation behaviors of amorphous matrix in metallic glass composite during nanoindentation.Materials Science and Engineering A,872 (8) (2023) 144957.(JCR Q1,新锐一区,IF:6.4,Top期刊)
12.J. Zhang, L. Li, C. Zhao*,L. Zhang*,Y. Huang.Grain boundary engineering-induced grain refinement and texture evolution in FeNiCoCrTi high-entropy alloys,Materials Characterization,233 (2026) 116082.(JCR Q1,新锐一区,IF:5.5)
13.Z.Xiong,L. Zhang*,H.Wang, C. Zhao*. Achieving enhanced strength in Fe1.5Ni1.5CoCr-X0.5 HEAs through solute-mediated dislocation homogenization,Materials Characterization,626(2026)175786.(JCR Q1,新锐一区,IF:5.5)
14.Z Feng, L Li, X Zhang, B Wu, Z Xiong, C Zhao*,LZhang*.Suction casting-cooling gradient mediated grain orientation in Fe2NiCoCr(VN)0.5 high-entropy alloys for strength-plasticity synergy.Materials Characterization,228(2025)115348.(JCR Q1,新锐一区,IF:5.5)
15.L. Zhang*,X. Zhang, Z. Xiong, Z. Feng, C. Zhao*.Al-induced trace B2 phase enhances strength-ductility synergy in Ti2Zr0.75NbVAlx high-entropy alloys through dislocation bundling,Journal of Materials Research and Technology,37 (2025) 1450-1464.(JCR Q1,新锐一区,IF:6.6)
16.B. Wu, H. Huang, Z. Feng, X. Zhang,L. Zhang*, H. Li*, C. Zhao*.Biomimetic Metal Bridging Drives Dynamic Protocell-to-Tissue Transitions,ACS Applied Materials & Interfaces,(2026).(JCR Q1,新锐二区,IF:8.2,Top期刊)
17.Z. Xiong,L. Zhang*,Z Feng, X Zhang, C. Zhao*.Vanadium microalloying to regulate CrV phase interface characteristics and dislocation configuration in FeNiCoCr-based high-entropy alloys,Materials & Design,262 (2026) 115462.(JCR Q1,新锐二区,IF:7.9,Top期刊)
18.L. Zhang*,Y. Huang, C. Zhao*.In situ mechanical characterization of Cu-Zr based metallic glass micropillars under varying strain rates,Materials & Design,257 (2025) 114549.(JCR Q1,新锐二区,IF:7.9,Top期刊)
19.J. Xie, Z. Xiong,L. Zhang*, C. Zhao*.Dislocation engineering via Al3(Sc,Zr)-mediated coarse low-angle grain boundaries for breakthrough strength-ductility balance in Al-Zn-Mg alloys,Materials & Design,260 (2025) 115178.(JCR Q1,新锐二区,IF:7.9,Top期刊)
20.L. Li, J. Zhang, C. Zhao*,L. Zhang*.Ti-modulated (Ni, Ti) phases enhance the strength and ductility of Ni2FeCoCr high-entropy alloys through strain concentration and dislocations,Journal of Alloys and Compounds,1057 (2026) 186869.(JCR Q1,新锐二区,IF:6.3)
21.L. Zhang*,J. Xie, Z. Xiong, C. Zhao*.Refinement mechanism of large-size precipitates in as cast Al-Zn-Mg alloy under rolling,Journal of Alloys and Compounds,1021 (2025) 179712.(JCR Q1,新锐二区,IF:6.3)
22.Z. Feng, Z. Xiong, X. Zhang, B. Wu,C. Zhao*,L. Zhang*.VN-induced Fe2NiCoCr(VN)x high-entropy alloys exhibiting superior wear resistance: coexistence of micron and nano-scale precipitated phases,Journal of Alloys and Compounds,(2025) 181156.(JCR Q1,新锐二区,IF:6.3)
23.J. Xie, Z. Xiong,L. Zhang*,C. Zhao*.Multiscale mechanisms of linear-recovery stress collapse: A novel deformation instability beyond the Portevin-Le Chatelier effect,Journal of Alloys and Compounds,1043 (2025) 184256.(JCR Q1,新锐二区,IF:6.3)
24.Z. Feng, L. Li, X. Zhang, Z Xiong, B. Wu,L. Zhang*,H Li*,C. Zhao*.Nano-VN precipitation in suction cast Fe2NiCoCr(VN)0.5 HEAs enhances corrosion and wear resistance,Journal of Alloys and Compounds,1041 (2025) 183930.(JCR Q1,新锐二区,IF:6.3)
25.L. Zhang,H. Li, H. Bai, Z. Ning, J. Sun, Y. Huang*. Rationality of two-phase coexistence with no element segregation in a CuZr-based amorphous alloy composite.Journal of Alloys and Compounds,962 (2023) 171185.(JCR Q1,新锐二区,IF:6.2)
26.Z. Xiong,L. Zhang*,X. Zhang, Z. Feng, C. Zhao*.Regulating friction behavior in high-entropy alloys by tailoring grain orientation and second-phase distribution through Si/V ratio control,Intermetallics,191 (2026) 109214.(JCR Q1,新锐二区,IF:4.8)
27.X. Zhang, Z. Xiong, Z. Feng, B. Wu,C. Zhao*,L. Zhang*.V content modulates plastic deformation in Ti2Zr0.75NbVx medium-entropy alloys via lattice spacing, grain size, and dislocation synergy,Intermetallics,185 (2025) 108867.(JCR Q1,新锐二区,IF:4.8)
28.X. Zhang, Z. Xiong, L. Li, Z. Feng, B. Wu, M. Li*, C. Zhao*,L. Zhang*.Dislocation loops enhance wear resistance in Ti2Zr0.75NbVx lightweight refractory medium-entropy alloys via high thermal conductivity-promoted oxide film formation,International Journal of Refractory Metals and Hard Materials,(2025) 107239.(JCR Q1,新锐二区,IF:4.6)
29.X. Zhang, Z. Xiong, Z. Feng, B. Wu,C. Zhao*,L. Zhang*.Synergistic strengthening through moderate B2 phase and smallest grain size for enhanced wear resistance in Ti2Zr0.75NbVAlx lightweight refractory high-entropy alloys.International Journal of Refractory Metals and Hard Materials,133 (2025) 107414.14.(JCR Q1,新锐二区,IF:4.6)
30.Y. Huang, C. Zhao*,L. Zhang*.Mechanism of tensile-induced coupled FCC/BCC/amorphous multiphase deformation of Cu-Zr based amorphous alloys,Journal of Non-Crystalline Solids,667 (2025) 123731.(JCR Q1,新锐二区,IF:3.5)
发明专利:
1.一种CuZrAl非晶合金纳米压痕测试的分子动力学模拟计算方法,黄永江(导师),张磊,范洪波,宁志良,孙剑飞,专利号:ZL202211170772.0
2.一种模拟高熵合金均匀变形的分子动力学方法,黄永江(导师),张磊,宁志良,范洪波,孙剑飞,专利号:ZL202211166110.6
3.一种基于分子动力学模拟的非晶合金自由能计算方法,黄永江(导师),张磊,宁志良,范洪波,孙剑飞,专利号:ZL202211165640.9
4.一种CuZrAl多晶模型的分子动力学模拟构建方法,黄永江(导师),张磊,范洪波,宁志良,孙剑飞,专利号:ZL202211166123.3
社会兼职
Materials Science and Engineering A,Journal of Alloys and Compounds,Materials Characterization,Journal of Materials Research and Technology等国际期刊审稿人
