教授（正高职）

1.2024.01-2028.12，国家自然科学基金国家重大科研仪器研制项目（12327901，8498.7万元），在研，课题负责人（承担经费金额：420万元）

2.2023.01-2026.12，国家自然科学基金面上项目（12272156，56万），主持

3.2024.11-2027.11，甘肃省委人才工作领导小组省级人才项目，陇原青年英才（15万），在研，主持

4.2019.08-2024.07，兰州大学青年研究员科研启动费（100万），主持

5.2020.01-2022.12，国家自然科学基金青年基金（11902129，25万），主持

6.2020.01-2020.12，中国科协中外优秀青年交流计划（5万），主持

7.2019.06-2020.12，中国博士后科学基金特别资助 （2019T120963，18万），主持

8.2018.04-2019.09，中国博士后科学基面上资助（2018M633604，5万），主持

9.2020.01-2024.12，国家自然科学基金委重点项目（11932008，320万），参与

10.2014.01-2018.12，国家自然科学基金委重大科研仪器研制专项（11327802，850万），参与

1.Peifeng Gao, Yameng Zhang, Xingzhe Wang*, Youhe Zhou. Interface Properties and Failures of REBCO Coated Conductor Tapes: Research Progress and Challenges. Superconductivity, 2023: pp.100068, Nov. 2023. (Cover, Best Paper Award)

2.Yingzheng Pan, Peifeng Gao*. Analysis of mechanical behavior and electromechanical properties of REBCO-coated conductor tapes under combined bending-tension loads using numerical methods. Superconductor Science and Technology, 36(4), pp.045006, Feb. 2023. (ESI Highly Cited, IOP Top Cited Paper Award)

3.Peifeng Gao, Mingzhi Guan, Xingzhe Wang* and Youhe Zhou, Electromagnetic-thermal-structure multi-layer nonlinear elastoplastic modelling study on epoxy impregnated REBCO pancake coils in high-field magnets, Superconductivity 1 pp.100002, Jan. 2022. (Best Paper Award)

4.Peifeng Gao, Jiali Mao, Jiaxiang Chen, Xingzhe Wang*, Youhe Zhou. Electromechanical degradation of REBCO coated conductor tapes under combined tension and torsion loading. International Journal of Mechanical Sciences, 223(1), pp. 107314, Jun. 2022. (Shortlisted of ZwickRoell Science Award)

5.Peifeng Gao, Xingzhe Wang*, Youhe Zhou. Strain dependence of critical current and self-field AC loss in Bi-2223/Ag multi-filamentary HTS tapes: a general predictive model, Superconductor Science and Technology, 32, 3, pp. 034003, Feb. 2019. (MEM Special Issue Invitation)

6.Peifeng Gao, Wan-Kan Chan*, Xingzhe Wang, Youhe Zhou, Justin Schwartz, Three-dimensional Stress, Strain and Electromechanical Analyses of (RE)Ba2Cu3Ox Conductors Using Mixed-dimensional Modeling: Fabrication, Cooling and Tensile Behavior, Superconductor Science and Technology, 33, 4, pp. 044015, Mar. 2020.

7.Peifeng Gao, Wan Kan Chan*, Xingzhe Wang, Justin Schwartz, Mixed-dimensional modeling of delamination in rare earth-barium-copper-oxide coated conductors composed of laminated high-aspect-ratio thin films, Superconductor Science and Technology, 31, 7, pp. 074004, Jun. 2018.

8.Peifeng Gao, Xingzhe Wang*, Analysis of torsional deformation-induced degeneration of critical current of Bi-2223 HTS composite tapes, International Journal of Mechanical Sciences, 141, pp. 401-407, Jun. 2018.

9.Peifeng Gao, Mingzhi Guan*, Canjie Xin. A dynamic strain-based quench-detection method in an LTS sextupole magnet during excitation and quench. Superconductor Science and Technology, 33, 11, pp. 115010, Sep. 2020.

10.Peifeng Gao, Ke Liu, Shaoyu Zheng, Peng Zhang, Xinzhuo Yang, Xingzhe Wang* and Youhe Zhou. Advanced inversion algorithm for current density reconstruction in REBCO tapes using a regularization-enhanced FFT approach. Superconductor Science and Technology, 38(6) pp. 065017, Jun. 2025.

11.Hanxiao Guo, Peifeng Gao*, Sikan Chen, Jiamin Zhu. A concurrent multiscale model of stress-induced delamination behaviours of epoxy-impregnated rare-earth barium copper oxide superconducting pancake winding. Superconductor Science and Technology, 38(1) pp.015007, Jan. 2025.

12.Peifeng Gao, Yameng Zhang et al. Error analysis for determining transverse tensile delamination strength of REBCO coated conductors by anvil test: numerical simulation demonstrations. Superconductor Science and Technology, 37(9): 095003, Agu. 2024.

13.Peifeng Gao*, Yingzheng Pan. Delamination model of an epoxy-impregnated REBCO superconducting pancake winding. Superconductor Science and Technology, 36(6), pp. 065009, May. 2022.

14.Peifeng Gao*, Xin Geng, Guian Man, Xingzhe Wang. Measurement of Shear Delamination Strength of REBCO Coated Conductors. IEEE Transactions on Applied Superconductivity, 32(4), pp. 6600305, Jun. 2022

15.Peifeng Gao, Canjie Xin, Mingzhi Guan, Xingzhe Wang*, Youhe Zhou, Strain Effect on Critical Current Degradation in Bi-Based Superconducting Tapes with Different Deformation Modes, IEEE Transactions on Applied Superconductivity, 26, 4, pp. 8401605, Jun. 2016.

代表性专利与软著

1.高配峰; 王淑丹; 耿鑫; 关明智; 王省哲，一种二代高温超导带材界面断裂韧性测试方法，2021-08-03，ZL 2019 1 0147948.2 （发明专利)

2.高配峰；刘科；王省哲，高温超导带材电流密度反演方法、设备及介质，2023-08-15， ZL 2023 1 0700307.1（发明专利)

3.高配峰; 关明智; 耿鑫; 王省哲; 一种高温超导材料拉伸-弯曲混合加载测试实验装置, 2019-6-28, ZL201821882645.2. （发明专利)

4.高配峰; 满桂安; 一种低温纳米压痕实验装置, 2020-3-23, ZL 202020372787.5. （发明专利)

5.高配峰；满桂安；王省哲，一种基于划痕法的二代高温超导带材界面强度测试方法，2022-09-23，ZL 2022 1 1161508.0（发明专利)

6.高配峰; 耿鑫; 毛佳丽; 一种二代高温超导带材界面强度测试装置, 2021-01-12, ZL 202021485620.6（发明专利)

7.高配峰；刘科；郑少禹；王省哲，高温超导带材缺陷识别方法、装置、设备及存储介质，2024-10-11，ZL 2024 1 1413218.X （发明专利)

8.高配峰；杨欣茁；王省哲，一种基于霍尔传感器的超导带材磁场测量装置和方法，2024-04-12，ZL 2024 1 0442750.8（发明专利)

9.高配峰；郭晗啸，浸渍REBCO超导线圈分层破坏的同层级多尺度方法，2024-08-08， ZL 2024 1 1085635.6（发明专利)

10.潘颖政; 高配峰; 王省哲，一种超导带材低温拉弯组合变形临界电流测试装置，2022-03-29，ZL 2021 2 2958954.1（发明专利)

11.高配峰; 毛佳丽; 耿鑫; 王省哲, 一种超导带材低温下拉扭复合加载装置, 2021-06-15, ZL 202022985878.9（实用新型）

12.王省哲; 高配峰; 关明智; 极低变温环境下超导材料力#热耦合加载系统, 2017-04-26, 中国, ZL201620766584.8（实用新型）

13.高配峰；刘科；王省哲，快速高精度超导薄膜电流密度分布反演系统V1.0，2023-05-08，2023SR1167085（软著）

14.高配峰；刘科；郑少禹；王省哲，快速高精度超导薄膜缺陷识别系统V1.0，2024-12-17，2024SR2107357（软著）

15.高配峰；郑少禹；王省哲，高精度薄板裂纹特征参数反演系统V1.0，2025-02-12，2025SR0245179（软著）