一、师资队伍

王俊升, 教授/博导，2016年国家级青年人才项目获得者

1.教授,    2016.9-今，Dafabet Login，ICME/智能制造

2.合金设计专家, 2014.1-2016.9，美国凯撒铝业公司高级工程研究院，航空航天高强轻质铝合金设计/集成计算材料工程

3. 研究员, 2009.1-2010.3，英国伦敦帝国理工大学材料系，集成计算材料工程/汽车铝合金制造技术

4.博士,  2005.9-2009.1，英国伦敦帝国理工学院，材料系

5.硕士,  2002.9-2005.7，北京科技大学机械学院，热能工程系

6.本科,  1998.9-2002.7，北京科技大学机械学院，热能工程系

研究方向:

1.集成计算材料工程（ICME）

2.新合金（铝合金、镁合金等）设计

3.高活性金属材料增材制造技术

4.高模量铝锂合金结构功能一体化

5.高模量镁锂合金高通量制备技术

6.航空航天金属材料智能制造技术

7.轻质合金制造过程数字孪生模型

8.机器学习用于X射线CT特征分割

9.XCT三维数字重构图像量化分析

10.基于XCT的材料相基因原位观测

二、团队简介

长期从事新合金(铝合金、镁合金等)设计及工艺开发。开发了虚拟铝合金设计(Virtual Aluminum Casting)系统，并成功应用于福特V8发动机设计；设计了集成计算材料工程热处理软件包(ICME-Heat Treat)，用于福特公司全铝车身热处理工艺优化；优化了用于大飞机核心机翼部件的高强铝合金(AA7097) 的成分与制造工艺；首创用于生产大飞机高强铝合金(AA7050)生产的大尺度、低成本铸造工艺；发明了AA7050、AA7099、AA7097、以及铝锂新合金服役过程中腐蚀与疲劳性能检测与预测方法。发表学术期刊论文100余篇，编写美国金属手册3章，受邀参加国际会议以及汽车、航空制造企业邀请讲学数十次。在开发基于成分——工艺——组织——性能相关性的多场耦合、多相、多尺度模拟全流程集成计算材料工程(ICME)工具方面，经验丰富。担任美国金属学会图书(ASM-Technical Book)编委，热处理研究会(ASM-Heat Treat R&D)常委、《Dafabet Login学报（英文版）》编委、《航空制造技术》编委、《材料热处理学报》青年编委、《特种铸造及有色合金》青年编委等国际学术组织。2013年在美国福特汽车公司150周年庆祝活动上以ICME-Heat Treat荣获科技进步奖。

2016年，入选国家级青年人才计划，回国创建了Dafabet Login集成计算材料工程实验室。曾担任军委科技委基础加强项目（国防973项目）首席科学家，国家自然基金重点项目首席，科技部重点研发计划课题负责人，承担国家自然基金面上项目，取得了以下重点突破：高强铝锌、铝硅合金、600MPa级高强铝锂合金、生物相融耐蚀镁合金、400MPa级增材制造铝锂合金、抗高温疲劳镍基合金单晶叶片铸造工艺等方向，并研制新能源汽车覆盖件和结构支撑件铸造变形加工轻量化技术、航空航天轻合金大型薄壁铸件精密成型技术、海洋船舶零部件高品质快速加工技术、小型构件低成本快速成型技术、金属构件微纳缺陷检测与可靠性预测、X射线断层扫描与机器学习结合的材料服役安全健康监测等前沿科学技术领域的基础研究。

三、人才培养

2016年至今，共培养61名学生：15位博士和16位硕士研究生、30位本科毕业设计。大部分已在航空、航天、兵器、芯片等领域承担重要科研任务。承担了《材料加工原理》研究生全英文教学，《铸造工程基础》本科生教学任务。在航空航天铝合金材料成分、工艺、性能设计方面积累了丰富的经验。

2020年毕业2名硕士研究生，均被航天科技集团招聘，一位从事火箭结构设计，一位从事集团建设规划；2021年毕业5位研究生：刘可立博士受聘于航天科工三院，张明山博士获华北理工大学副教授人才引进计划，李鑫硕士受聘于清华紫光芯片制造公司从事“卡脖子”芯片的研制，陈东旭、王郁硕士继续读博；2022年毕业3位研究生：张弛博士获沈阳工业大学人才引进，梁婷婷受聘于中国兵器集团、王兵硕士受聘于中国航天科技；2023年毕业3位研究生：张宇轩受聘于航天一院，刘鑫秀受聘于北京电子控股有限责任公司，王硕受聘于航空制造研究院。

指导了30名本科生开展毕业设计，其中：推荐Doni Obidov、Ade Wahyudistira、赵盛韬等前往美国、加拿大读研，推荐刘凯等前往英国读研，回国后在中国商飞上海飞机设计研究院参与C919大飞机项目，杨文联、后林镇、向新宇、夏江玉、赵一哲等都前往高科技公司就业。

四、科研平台

集成计算工程实验室(ICME)现有硕士和博士研究生20余名，实验室已拥有各类全套材料研究测试设备，包括高性能计算机群工作站、纳米压痕测试仪、真空加压铸造机、电磁熔炼炉、气氛保护热处理炉、原位高温拉伸试验机、差热分析仪、光学显微镜、超声检测仪等设备，形成了一整套从材料制备到性能表征平台，从第一性原理计算软件VASP、分子动力学软件 LAMMPS、CA模型、到力学性能预测的硬件和软件支撑。

五、代表性科研成果

[1] Xinghai Yang, Junsheng Wang *, Shuo Wang, Xingxing Li , Chengpeng Xue, Guangyuan Tian, Yuxuan Zhang, Yubin Ke, Zhenhua Xie,Quantifying the kinetics of δʹ precipitates in a novel Al–Li–Cu–Mg alloy during two-step aging by small-angle neutron scattering, Materials Science & Engineering A, 872 (2023) 144963

[2] Guangyuan Tian, Junsheng Wang*, Chengpeng Xue, Xinghai Yang, Shuo Wang, Hui Su,Ultra-light Mg–Li alloy by design to achieve unprecedented high stiffness using the CALPHAD approach, CALPHAD: Computer Coupling of Phase Diagrams and Thermochemistry, 81 (2023) 102556

[3] Xingxing Li, Xinghai Yang, Chengpeng Xue, Shuo Wang, Yuxuan Zhang, Bing Wang, Junsheng Wang*, Peter D. Lee,Predicting hydrogen microporosity in long solidification range ternary Al-Cu-Li alloys by coupling CALPHAD and cellular automata model, Computational Materials Science ,222 (2023) 112120

[4] Hui Su, Chi Zhang, Zhifei Yan, Ping Gao, Hong Guo, Guanchen Pan, and Junsheng Wang*,Numerical Simulation of Penetration Process of Depleted Uranium Alloy Based on an FEM-SPH Coupling Algorithm, Metals ,2023, 13, 79.https://doi.org/10.3390/met13010079

[5] Guanchen Pan, Hui Su, Xingxing Li, Junsheng Wang*, Coupled FEM-SPH simulation of the protective properties for metal/ceramic composite armor, International Journal of Lightweight Materials and Manufacture vol. 6 (2023) 543e551

[6] Yuxuan Zhang, Chengpeng Xue, Xinghai Yang, Xingxing Li, Shuo Wang, Quan Li, Bing Wang, Chi Zhang, Ruifeng Dou, Junsheng Wang*, Uncovering the effects of local pressure and cooling rates on porosity formation in AA2060 Al-Li alloy, Materials Today Communications, Volume 35,

[7] 2023, 106384, 2352-4928.

[8] Zhihao Yang, Chi Zhang, Shuo Wang, Chengpeng Xue, Guangyuan Tian, Hui Su, Chengming Yan, Zhifei Yan, Xiaoguang Liu and Junsheng Wang*,Towards quantum corrosion chemistry: screening perfect Cr, Ni sites and stoichiometry on top of an Fe(110) surface using DFT, RSC Advances ,2023, 13, 9945–9953 | 9945

[9] Zhengkai Wu, Shengchuan Wu,*, Weijian Qian, Haiou Zhang, Hongbin Zhu, Qingyong Chen, Zhenxian Zhang, Feng Guo, Junsheng Wang, Philip J. Withers,Structural integrity issues of additively manufactured railway components: Progress and challenges, Engineering Failure Analysis ,149 (2023) 107265

[10] Hui Su, Guangyuan Tian, Chi Zhang, Shuo Wang, Chengpeng Xue, Junsheng Wang,* , and Shaokang Guan, Quantitative evaluation of the short-range order strengthening effect on solid solution and GB strength of Mg–Y alloys by ab initio calculations, Journal of Materials Science, https://doi.org/10.1007/s10853-022-07823-3

[11] Chengpeng Xue, Yuxuan Zhang, Shuo Wang, Guangyuan Tian, Xinghai Yang, Yubin Ke, Zhenhua Xie, Junsheng Wang*,Achieving highest Young’s modulus in Al-Li by tracing the size and bonding evolution of Li-rich precipitates, Journal of Materials Science & Technology, 145 (2023) 125–135

[12] Hui Su, Guangyuan Tian, Yingju Li, Shuo Wang, Chengpeng Xue, Xiaohui Feng, Junsheng Wang*,Breaking the stiffness limit of Mg alloys by forming hard AlX particles and activating non-basal slip, Journal of Alloys and Compounds, 944 (2023) 169249

[13] Guangyuan Tian, Junsheng Wang,*, Shuo Wang, Chengpeng Xue, Xinghai Yang, Hui Su,An ultra-light Mg-Li alloy with exceptional elastic modulus, high strength, and corrosion-resistance, Materials Today Communications ,35 (2023) 105623

[14] Quan Li, Junsheng Wang*, Xinxiu Liu, Bing Wang, Minimizing detrimental impacts of β-Fe in Al-Mg-Si alloy by combining thermal and compression processes, Materials Characterization, 198 (2023) 112752

[15] Yapeng Tan, Guoqing Zhang, Weihong Lu , Bo Yang, Zhichao Tang, Zhengbing Xu * , Qinjia Zheng, Jianmin Zeng, Hongqun Tang, Junsheng Wang, Aoke Jiang and Lei Xiang,A New Porous Nozzle for Aluminum Melts Purification—Preparation and Mathematical–Physical Model, Metals, 2023, 13, 586. https://doi.org/10.3390/met13030586

[16] Zhang, Mingshan; Wang, Junsheng*; Wang, Bing; Xue, Chengpeng; Liu, Xiaoguang, Quantifying the effects of Sc and Ag on the microstructure and mechanical properties of Al–Cu alloys, Materials Science and Engineering A-Structural Materials Properties Microstructure and Processing, 2022, 831: 0-142355.

[17] Bing Wang, Junsheng Wang*, Xinxiu Liu, Quan Li, Xiaoguang Liu,Uncovering the effects of neutralizing elements (Co, Mn and Cr) on the Fe-rich intermetallic formation in Al–Si–Cu alloys, Materials Science & Engineering A, 58 (2022) 144090

[18] 田光元, 严程铭, 杨智皓, 王俊升*, 耐腐蚀镁锂合金的腐蚀与防护及其性能研究进展, 中国腐蚀与防护学报, 2023

[19] 闫志飞, 田光元, 苏辉, 薛程鹏, 李全, 王硕, 严程铭, 杨智皓, 高平, 王俊升*, 高性能镁合金的研究进展, 铸造技术, Vol.44, No.02, Feb. 2023

[20] 严程铭, 薛程鹏, 田光元, 杨智皓, 刘晓光, 王俊升*, 金属光固化3D 打印研究现状, 工程科学学报, 2022: https://doi.org/10.13374/j.issn2095-9389.2022.10.25.004

[21] Shuo Wang, Chengpeng Xue, Xinghai Yang, Junsheng Wang*, Structural ordering governs stiffness and ductile-to-brittle transition in Al-Li alloys, Journal of Chemical Physics, 2022; https://doi.org/10.1063/5.0139566

[22] Bing Wang, Xinxiu Liu, Junsheng Wang*, Quan Li , Keli Liu, Mingshan Zhang,Uncovering the effects of Ce and superheat temperature on Fe-rich intermetallic and microporosity formation in aluminum alloy, Materials Characterization ,193 (2022) 112226

[23] Su, Hui; Zhang, Chi; Wang, Shuo; Tian, Guangyuan; Xue, Chenpeng; Wang, Junsheng*; Guan, Shaokang, Local atomic ordering strategy for high strength Mg alloy design by first-principle calculations, Journal of Alloys and Compounds, 2022, 907, 164491

[24] Wang, Shuo; Wang, Junsheng*; Zhang, Chi; Xue, Chengpeng, Continuous precipitate modes of the δ′-Al3Li phase in Al-Li alloys, Journal of Alloys and Compounds, 2022, 904(163800)

[25] Liu, Keli; Wang, Junsheng*; Wang, Bing; Mao, Pengcheng; Yang, Yanhong; Zhou, Yizhou, Quantifying the Influences of Carbides and Porosities on the Fatigue Crack Evolution of a Ni-Based Single-Crystal Superalloy using X-ray Tomography, Acta Metallurgica Sinica (English Letters), (2022) 35:133–145

[26] 王硕, 王俊升*,Al-Li合金中δ′/θ′/δ′复合沉淀相结构演化及稳定性的第一性原理探究, 金属学报, Vol.58 No.10 Oct. 2022 DOI: 10.11900/0412.1961.2021.00087

[27] Jianqiang Wu, Qilin Ruan, Simin Chen, Chuanchao Meng, Zhengbing Xu, Chunhua Wei, Hongqun Tang,* and Junsheng Wang*, Insights into Poisoning Mechanism of Zr by First Principle Calculation on Adhesion Work and Adsorption Energy between TiB2, Al3Ti, and Al3Zr, Metals, 2022, 12, 286. https://doi.org/10.3390/met12020286

[28] Chen Liu, Junsheng Wang*, Yongdong Xu*, Yu Fu, Jungang Han, Zhaoxun Cao, Xiaohu Chen, Shuming Zhao and Xiurong Zhu,In Vitro Corrosion Performance of As-Extruded Mg–Gd–Dy–Zr Alloys for Potential Orthopedic Applications, Metals, 2022, 12, 604. https://doi.org/10.3390/met12040604

[29] Xinxiu Liu, Bing Wang, Quan Li, Junsheng Wang* , Chi Zhang, Chengpeng Xue, Xinghai Yang, Guangyuan Tian, Xiaoguang Liu* and Hongqun Tang,Quantifying the Effects of Grain Refiners Al-Ti-B and La on the Microstructure and Mechanical Properties of W319 Alloy, Metals, 2022, 12, 627. https://doi.org/10.3390/met12040627

[30] Yu-xuan Zhang, Jun-sheng Wang*, Dong-xu Chen, Bing Wang, Chi Zhang, and Zheng-an Wang,Effects of cooling rates on microporosity in DC casting Al-Li alloy, China Foundry, Vol. 19 No. 2 March 2022

[31] Bing Wang, Xinxiu Liu, Junsheng Wang, Quan Li, Keli Liu, Mingshan Zhang, Uncovering the effects of Ce and superheat temperature on Fe-rich intermetallic and microporosity formation in aluminum alloy, Materials Characterization, DOI: https://doi.org/10.1016/j.matchar.2022.112226

[32] Keli Liu, Chi Zhang, Junsheng Wang, Chengpeng Xue, Bing Wang, Mingshan Zhang, Yanhong Yang & Yizhou Zhou, Quantifying the Effects of Carbides and Pores on Fatigue Damages of Ni-Based Single Crystal Superalloys at Elevated Temperature Using X-Ray CT Scans, Journal of Nondestructive Evaluation ,2022, vol. 41, Article number: 47

[33] Chi Zhang, Xin Li, Keli Liu, Guangyuan Tian, Shuo Wang, Junsheng Wang;, In Situ Characterization of Corrosion Processes of As-Extruded Pure Magnesium Using X-Ray Computed Microtomography, CORROSION,1 April 2022; 78 (4): 350–358. doi: https://doi.org/10.5006/3934

[34] Xinxiu Liu, Bing Wang, Quan Li, Junsheng Wang*, Chengpeng Xue, Xinghai Yang, Guangyuan Tian, Xiaoxue Chang, Xiaoguang Liu,Quantifying the effects of grain refiners (AlTiB and Y) on microstructure and properties in W319 alloys, Materials Today Communications, 33 (2022) 104671

[35] 王硕, 张弛, 王俊升*,铝锂合金纳米析出相结构与性能综述, 航空制造技术, 2021, 64(9): 68–76, 92

[36] 王郁, 王俊升*, 薛程鹏, 王硕, 陈东旭, 张弛, 微合金化对铝合金高温析出相影响的研究进展, 航空制造技术, 2021, 64(15): 68–77, 85.

[37] 李志强, 王俊升*, 第二相粒子对铝合金再结晶的影响研究, 航空制造技术, 2021, 64(9): 93–101.

[38] Xue, Chengpeng; Zhang, Yuxuan; Mao, Pengcheng; Liu, Changmeng; Guo, Yueling; Qian, Feng; Zhang, Chi; Liu, Keli; Zhang, Mingshan; Tang, Shuiyuan; Wang, Junsheng*  Improving mechanical properties of wire arc additively manufactured AA2196 Al-Li alloy by controlling solidification defects, Additive Manufacturing, 2021, 43: 0-102019.

[39] Zhang, Chi; Liu, Chen; Li,Xin; Liu, Keli; Tian,Guangyuan; Wang, Junsheng*,Quantifying the influence of secondary phases on corrosion in multicomponent Mg alloys using X-ray computed Microtomography, Corrosion Science,2021, 195(110010): 1-14.

[40] Xue, Chengpeng; Wang, Yu; Wang, Junsheng*, Designing elastic modulus of Al3X precipitates in Al alloys by identifying effective atomic bonds and stabilizing coherent structures, Journal of Alloys and Compounds, 2021, 896(162619): 1-11.

[41] Zhang, Mingshan; Liu, Keli; Wang, Bing; Liang, Tingting; Han, Jiaqiang; Wang, Junsheng*, Accelerating pore nucleation and eutectic Si growth kinetics by increasing Cu and Sc for Al-Si-Mg alloys: In-situ observation, Journal of Alloys and Compounds, 2021, 869: 0-159173.

[42] Wang, Bing; Zhang, Mingshan; Wang, Junsheng*, Quantifying the effects of cooling rates and alloying additions on the microporosity formation in Al alloys, Materials Today Communications, 2021, 28: 0-102524.

[43] Li, Xin; Liu, Chen; Wang, Junsheng*; Zhang, Chi, Tailoring the strength and formability of Mg alloys through rare earth element additions (Gd and Dy) and dynamic recrystallizations, Materials Today Communications, 2021, 28: 0-102627.

[44] Zhang, Mingshan; Wang, Junsheng*; Wang, Bing; Xue, Chengpeng; Qian, Feng; Liu, Xiaoguang; Guan, Shaokang, Quantifying the effects of Sn on theta'-Al2Cu precipitation kinetics in Al-Cu alloys, Materials Science and Technology, 2021, 37(11): 979-992.

[45] Wang, Shuo; Zhang, Chi; Li, Xin; Wang, Junsheng*, Heterophase Interface Dominated Deformation and Mechanical Properties in Al-Cu-Li Alloys, Advanced Theory and Simulations, 2021, 4(6): 0-2100059.

[46] Wang, Shuo; Zhang, Chi; Li, Xin; Wang, Junsheng*, Uncovering the influence of Cu on the thickening and strength of the delta '/theta '/delta ' nano-composite precipitate in Al-Cu-Li alloys, Journal of Materials Science, 2021, 56(16): 10092-10107.

[47] Chen, Dongxu; Wang, Junsheng*; Zhang, Chi, Coupling phase-field model and CFD for hot cracking predictions of Al-Li alloys, Computational Materials Science, 2021, 192: 0-110361.

[48] Zhang, Mingshan; Liu, Keli; Han, Jiaqiang; Qian, Feng; Wang, Junsheng*; Guan, Shaokang,Investigating the role of Cu, Zr and V on the evolution of microstructure and properties of Al-Si-Mg cast alloys, Materials Today Communications, 2021, 26: 0-102055.

[49] Wang, Yu; Meng, Ya'nan; Wang, Junsheng*; Zhang, Chi; Huang, Houbing, Mechanical properties of defective L1(2)-Al3X (X = Sc, Lu) phase: A first-principles study, Journal of Rare Earths, 2021, 39(2): 217-224.

[50] Zheng, Y.; Lu, W.; Qian, F.; Jia, N.; Dou, Y.; He, X.; Yang, W.; Wang, J.; Xue, Y.; Jin, K.,Self-ion irradiation response of (CoCrFeNi)(94)Ti2Al4 alloy containing coherent nanoprecipitates, Journal of Nuclear Materials, 2021, 549: 0-152889.

[51] Guo, Yueling; Han, Qifei; Hu, Jinlong; Yang, Xinghai; Mao, Pengcheng; Wang, Junsheng; Sun, Shaobo; He, Zhi; Lu, Jiping; Liu, Changmeng,Comparative Study on Wire-Arc Additive Manufacturing and Conventional Casting of Al-Si Alloys: Porosity, Microstructure and Mechanical Property, Acta Metallurgica Sinica (English Letters), (2021)184

[52] Zhang, Chi, Li, Xin, Wang, Shuo, Wang, Junsheng*, Zhu, Shijie, Guan, Shaokang, Does Expanding or Contracting MgO Lattice Really Help with Corrosion Resistance of Mg Surface: Insights from Molecular Dynamics Simulations, ACS OMEGA, 2021,vol.6, 2, 1099-1107

[53] Yang, Chao, Huang, Houbing, Liu, Wenbo, Wang, Junsheng, Wang, Jing, Jafri, Hasnain Mehdi, Liu, Yu, Han, Guomin, Song, Haifeng, Chen, Long-Qing, Explicit Dynamics of Diffuse Interface in Phase-Field Model, ADVANCED THEORY AND SIMULATIONS, 2021,vol.4,1

[54] Yang, Chao, Wang, Jing, Wang, Junsheng, Liu, Yu, Han, Guomin, Song, Haifeng, Huang, Houbing, Multi-phase-field simulation of austenite peritectic solidification based on a ferrite grain, CHINESE PHYSICS B, 2021,vol.30,1

[55] Yang, Xinghai, Wang, Junsheng, Zhang, Mingshan, Zhang, Chi, Xue, Chengpeng, Guo, Yueling, Liu, Xiaoguang, Achieving high strength and ductility of Al-Cu-Li alloy via creep aging treatment with different pre-strain levels, MATERIALS TODAY COMMUNICATIONS, 2021, vol.29

[56] Zhang, Chi, Wang, Junsheng, Li, Xin, Wang, Shuo, Zhu, Shijie, Guan, Shaokang, Rapid screening alloying elements for improved corrosion resistance on the Mg(0001) surface using first principles calculations, PHYSICAL CHEMISTRY CHEMICAL PHYSICS, 2021, vol.23, 47, 26887-26901

[57] Keli Liu, Junsheng Wang*, Yanhong Yang, Yizhou Zhou, Yuansheng Yang, Chunjie Cao,An integrated microporosity model of 3D X-ray micro-tomography and directional solidification simulations for Ni-based single crystal superalloys, Computational Materials Science, 188 (2021) 110172

[58] Keli Liu, Junsheng Wang⁎, Yanhong Yang, Yizhou Zhou,Effect of cooling rate on carbides in directionally solidified nickel-based single crystal superalloy: X-ray tomography and U-net CNN quantification, Journal of Alloys and Compounds, 883 (2021) 160723

[59] Liu, Keli; Wang, Junsheng*; Wang, Bing; Mao, Pengcheng; Yang, Yanhong; Zhou, Yizhou,In-situ X-ray tomography investigation of pore damage effects during a tensile test of a Ni-based single crystal superalloy, Materials Characterization, 2021, 177: 0-111180.

[60] 刘可立; 王俊升*; 郭跃岭; 杨彦红; 周亦胄; 杨院生, ,镍基单晶高温合金孔洞缺陷数值模拟与控制方法研究进展, 航空制造技术, 2020, (16): 75-85.

[61] 陈东旭, 王俊升*, 王郁, 张明山, 王兵, 张弛, 王硕, 韩加强, 铝合金半连续铸造过程中热裂模型综述, 航空制造技术, 2020, (22): 24-39.

[62] Li, Xin; Zhang, Chi; Wang, Junsheng*; Huang, Houbing; Wang, Shuo, Atomic-level insights into nano-salt droplets wetting on the MgO surface using molecular dynamics simulations, Corrosion Science, 2020, 167: 0-108549.

[63] Wang, Shuo; Zhang, Chi; Li, Xin; Huang, Houbing; Wang, Junsheng*, First-principle investigation on the interfacial structure evolution of the delta '/theta '/delta ' composite precipitates in Al-Cu-Li alloys, Journal of Materials Science & Technology, 2020, 58: 205-214.

[64] Qian, Feng; Zhao, Dongdong; Mortsell, Eva A.; Jin, Shenbao; Wang, Junsheng; Marioara, Calin D.; Andersen, Sigmund J.; Sha, Gang; Li, Yanjun, Enhanced nucleation and precipitation hardening in Al-Mg-Si(-Cu) alloys with minor Cd additions, Materials Science and Engineering A-Structural Materials Properties Microstructure and Processing, 2020, 792: 0-139698.

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六、成果转化与社会服务

支撑了Dafabet Login-广西壮族自治区战略合作，探索了航空航天铝锂合金产业化的新模式；支撑了Dafabet Login鲁南研究院与地方政府的合作，建立了产业化中试生产基地。

（数据截止到2023年6月）