教育经历：

2007.09-2013.06，昆明理工大学，材料科学与工程学院，博士

2004.09-2007.04，昆明理工大学，材料科学与工程学院，硕士

2000.09-2004.07，鞍山科技大学，材料与冶金工程学院，学士

工作经历：(1) 2020-11 至 今, 昆明理工大学, 材料科学与工程学院, 副教授

(2) 2013-08至 2020-10, 昆明理工大学, 材料科学与工程学院, 讲师

科研项目：

[1] （主持）云南省工业高新技术专项，截面耐蚀铝镁合金线材关键技术开发项目，2025.09-2028.08,17万。

[2] （主持）云南省重大科技专项，卫星太阳翼基板用大尺寸低密度铝蜂窝芯材制备关键技术研究，2024.1-2026.12，150万。

[3] （主持）云南省兴滇英才支持计划项目 2021.1-2025.12，50万。

[4] （主持）企业横向课题,超高强度钢的成形和疲劳模拟研究,2025/6-2027/5，20.0万。

[5]（主持）国家自然科学基金，稀土元素对TB2钛合金表面固体渗硼及渗硼层性质的影响，2018/1-2021/12，36万。

[6] （参与）基于硼-铝-硼阶梯复合渗的TC4钛合金表面梯度渗层组织调控及性能研究，国家自然科学基金，2023.1-2026.12，33万。

学术成果：【科技奖励、论文与专利】

目前在Journal of Materials Science & Technology、Corrosion Science、JMR&T、MSEA, Rare Metals等期刊上发表SCI收录论文150余篇，SCI论文被引用2500余次，H指数32。申请专利20余项，获授权14项，获云南省科技进步二等奖1项。

【奖励与荣誉】2023，云南省科技进步二等奖

【近期发表的部分论文】

[1]. Shanming Fan , Mingjun Peng *, Jun Li , Qing Yu , Lianjian Wen , Mingnie Li.Study on elastic properties, fracture toughness, electronic properties and thermal conductivity of the M-Mg(ZnAlCu)2 phase in aluminum alloys via first-principles calculations and experiments.Intermetallics, 190 (2026) :109159.

[2].Shanming Fan , Xuelian Sun , Mingjun Peng * , Yonghua Duan , Jun Li *, Shanju Zheng , Mengnie Li *.Fabrication of highly corrosion-resistant Zn-Cu-Ti alloy coatings via anodization and gel-assisted electrophoretic deposition and study of their corrosion properties.Surfaces and Interfaces, 83 (2026): 108544.

[3].Shuaibo Zhang, Shanming Fan, Wenchao Yu*, Jun Li, Mingjun Peng*.Molecular dynamics investigation of twin boundary effects on the local plasticity of FeNiCrCoCu high-entropy alloy during nanoindentation.Physica B,728 (2026):418370.

[4].Shanming Fan, Qing Yu, Mingjun Peng *, Hengyong Bu, Xiaolong Zhou, Jun Li *, Yonghua Duan *, Mengnie Li*.Molecular dynamics simulation study on the influence of graphene monolayers and laminates on the mechanical properties of graphene aluminum based composites.Journal of Materials Research and Technology, 36 (2025): 5018–5030.

[5].Zihao Xing, Hairong Lin, Shanming Fan, Mingjun Peng*, Meng Zhang*, Qin Yu , Lishi Ma, Yonghua Duan, Mengnie Li*.Study on the microstructure evolution and deformation strengthening mechanism of aluminum-magnesium alloys under continuous deformation. Journal of Materials Research and Technology, 35 (2025) :2283–2297.

[6].QingYu, ShanmingFan, MingjunPeng* , XianyinNing*,MengnieLi*.Atomistic insights intohigh‑rate compression mechanics ofAl–graphene composites.JOURNAL OF MATERIALS SCIENCE,4(2025):10853.

[7].Shanming Fan, Liheng Li,Mingjun Peng*,Yonghua Duan, Huarong Qi*,Xiaolong Zhou, Mengnie L*.First-Principles Study of Elastic Anisotropy and Thermal Conductivity of Ca-Doped Zn-Mg Intermediate Phase Mg2Zn11,International Journal of Quantum Chemistry.2025,125:70089.

[8].Hairong Lin , Liheng Li , Shanming Fan , Mingjun Peng * , Huarong Qi *, Yonghua Duan , Mengnie Li *.Materials Today Communications, 47 (2025) :113034.

[9].Meng Huang , Shanming Fan , Mingjun Peng* , Jun Li , Hengyong Bu , Mengnie Li.Molecular dynamics study of the effect of temperature and strain rate on the mechanical properties of graphene/copper matrix composites.Materials Today Communications,43 (2025): 111716.

[10].Zihao Xing, Renfu Wang, Huarong Qi, Mingjun Peng*, Yonghua Duan*, Mengnie Li*.Effect of annealing on the microstructure and mechanical properties of Al/Zn composite plates.Materials Science & Engineering A 901 (2024) 146533.

[11].Xuelian Sun, Shanming Fan, Mingjun Peng*, Lishi Ma , Li Shen , Huarong Qi,Yanbo Zhao*, Mengnie Li.Classical molecular dynamics simulation of atomic structure transitions in FeSiCuMgAl high-entropy alloys under biaxial stretching.Materials Today Communications.2024,40:109716.

[12].Mingjun Peng, Renfu Wang, Longke Bao*, Yonghua Duan*.First-principles calculations on the adhesion strength, fracture mechanism, interfacial bonding of the semi-coherent Al(111)/Al3BC(0001) interfaces.Applied Surface Science. 2021,569,150996.

[13].Jinpeng Zhang,Longke Bao,Yonghua Duan,Huarong Qi,Mingjun Peng*.Structural, Electronic, Mechanical, and Thermodynamic Properties of Ultra-High-Temperature Ceramics α- and β-YAlB4: A First-Principles Study. CERAMICS INTERNATIONAL, 2020,12(47),10079-10088.

[14].Mingjun Peng,Renfu Wang,Yuejun Wu*,Ancang Yang,Yonghua Duan*.Elastic anisotropies,thermal conductivities and tensile properties of MAX phases Zr2AlC and Zr2AlN A first-principlescalculation, Vacuum, 2022, 196(2): 110715.

[15].Shanming Fan, Mingjun Peng*, Ancang Yang, Yonghua Duan,Huarong Qi,Xiaoqi Wang,Ji Yao*,Mengnie Li,Shanju zheng. Elastic anisotropy, thermal conductivity and tensile properties of MAXphase V2GaC, Nb2GaC and Ta2GaC First-principles calculations, Vacuum, 2023, 209: 111800 .

[16].Renfu Wang,Ancang Yang,Longke Bao,Mingjun Peng*,Yonghua Duan*.Elastic anisotropies electronic structures and tensile properties of anti-perovskite M3AlC (M=Ti, Co, Fe, Mn) phases:A first-principles calculation, Vacuum, 2022, 202: 111146 .

[11].Bo Li, Longke Bao, Ancang Yang, Yonghua Duan, Mingjun Peng *, Xiaoqi Wang*,Yong Cao, Mengnie Li. First-principles prediction of thermodynamic properties and mechanical properties of Ti2AX (A=Al, Ga; X=C, N) M2AX phase at different pressures and temperatures.Vacuum, 2022, 204:111380.

【近期授权的部分专利】：

1、一种可降解锌合金材料的制备方法，发明专利，授予时间: 2025.11.18

2、用于锌铜钛合金阳极氧化膜表面的超疏水性SiO2水凝胶的制备方法及用途，发明专利，授予时间: 2025.4.13、

3、一种锌铜钛合金板材的黑色阳极氧化膜制备方法，发明专利，授予时间: 2024.3.26

4、一种高导铝基合金及其制备方法，发明专利，授予时间: 2023.5.16。

5、一种高银含量铜基合金及其制备方法,发明专利，授予时间: 2023.3.31。

6、一种铅铝硼复合核屏蔽材料及其制备方法，发明专利，授予时间: 2017.03.1。

7、一种蜂窝芯制备方法，发明专利，授予时间: 2017.02.15。

8、具有射线及中子综合屏蔽效果的镁基材料，发明专利，授予时间: 2016.11.30。

9、具有射线及中子综合屏蔽效果的铝基材料，发明专利，授予时间: 2016.11.23。

10、一种蜂窝板疲劳测试装置，发明专利，授予时间: 2016.02.10。