马新凯 副教授

硕士生导师

个人信息Personal Information


入职时间:2019-12-09

学历:博士研究生毕业

学位:工学博士学位

办公地点:四川省成都市二环路北一段111号机械馆

在职信息:在岗

毕业院校:西北工业大学

学科:材料加工工程. 材料科学与工程

所在单位:材料科学与工程学院

报考该导师研究生的方式

欢迎你报考马新凯老师的研究生,报考有以下方式:

1、参加西南交通大学暑期夏令营活动,提交导师意向时,选择马新凯老师,你的所有申请信息将发送给马新凯老师,老师看到后将和你取得联系,点击此处参加夏令营活动

2、如果你能获得所在学校的推免生资格,欢迎通过推免方式申请马新凯老师研究生,可以通过系统的推免生预报名系统提交申请,并选择意向导师为马新凯老师,老师看到信息后将和你取得联系,点击此处推免生预报名

3、参加全国硕士研究生统一招生考试报考马新凯老师招收的专业和方向,进入复试后提交导师意向时选择马新凯老师。

4、如果你有兴趣攻读马新凯老师博士研究生,可以通过申请考核或者统一招考等方式报考该导师博士研究生。

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  • 8国家自然科学基金青年项目高应变率下新型异构亚稳β钛合金动态变形行为及力学性能研究,52201142,2023.01-2025.12。

    7西南交通大学大型仪器设备开放测试基金:高性能异构高熵合金的力学行为研究2022SRII-15,2022.06-2023.07。

    6冶金工程与资源综合利用省重点实验室开放基金:低成本高性能纳米异构高熵合金的冷轧制制备强韧化机理研究,SKF22-02,2022.01-2023.12。

    5中央引导地方科技发展资金自由探索项目:高应变率下梯度纳米结构钛合金动态变形及强韧化机理研究,2021Szvup124,2021.07-2023.06。

    4四川省科技厅国际合作项目高强韧梯度相变结构钛合金的制备及变形机理的原位多尺度研究,2021YFH0182,2021.04-2023.03。

    3凝固技术国家重点实验室开放课题:新型梯度相变结构亚稳β钛合金强韧化机理的原位同步辐射研究,SKLSP202115,2021.01-2022.12。

    2中央高校基本科研GF基金项目:基于同步辐射X射线的亚稳βTRIP/TWIP钛合金动态力学行为研究2682021GF026,2021.01-2022.12。

    1中央高校基本科研业务项目:钛合金动态塑性变形机理的原位多尺度研究,2682021CX102,2021.01-2022.12。

     


     


  •       本人以第一作者和通讯作者发表学术论文如下(其他合作文章详见个人Google Scholar or ResearchGate 主页

    Publications at SWJTU(First author & *Corresponding author)

    [26]  Kejie Lu, Zhenrui Lei, Shuai Deng, Jiahao Li, Tengfeng Feng, Zhengyang Luo, and Xinkai Ma*马新凯. Synergistic effects of grain sizes on the corrosion behavior and mechanical properties in a metastable high-entropy alloy. Corrosion Science 225 (2023): 111588.

    [25]  Zhengyang Luo, Jiahao Li, Tengfeng Feng, Kejie Lu, Xinkai Ma*, Optimizing heterostructure parameters for enhanced mechanical performance of Al0.1CoCrFeNi high entropy alloy, Materials Science and Engineering: A885(2023) 145623.

    [24]  Junye Li, Guanghui Wang, Maofei Zhang, Jiahao Li, Xiaotian Fang, Xinkai Ma*, Strengthening mechanisms of a heterostructured pure aluminum with extraordinary mechanical properties, Materials Characterization202 (2023) 113049.

    [23]  Kejie Lu, Jiahao Li, Youfan Wang, Xinkai Ma*, Excellent strength-ductility synergy and corrosion resistance in a metastable high entropy alloy via heterogeneous structure design, Journal of Alloys and Compounds 941 (2023) 168979.

    [22]  Jiahao Li, Kejie Lu, Yi Wang, Yuqi Zhang, Xinkai Ma*, Jieming Chen, Yuntian Zhu*朱运田, Exceptional cryogenic strength and sufficient ductility of a nanotwinned high-entropy alloy fabricated by cryogenic multi-directional compression, Journal of Alloys and Compounds 931 (2023) 167533.

    [21]  Jiahao Li, Lei Xiao, Xinkai Ma*, Kejie Lu, Fuguo Li, Jieming Chen, Achieving ultrahigh cryogenic yield strength and sufficient ductility in a medium-entropy alloy via bimodal grain design, Materials Science and Engineering: A 863 (2023) 144491.

    [20]  Jiahao Li, Kejie Lu, Xiaojun Zhao, Xinkai Ma*, Fuguo Li, Hongbo Pan, Jieming Chen, A superior strength-ductility synergy of Al0.1CrFeCoNi high-entropy alloy with fully recrystallized ultrafine grains and annealing twins, Journal of Materials Science & Technology 131 (2022) 185-194.

    [19]  Liang Yang, Haohan Xu, Zhaodong Feng, Jieming Chen, Xinkai Ma*, Xiaojun Zhao, In-situ investigation of the deformation behavior of heterogeneous-cell-structured Ni with a good strength-ductility balance, Materials Science and Engineering: A 841 (2022) 143010.

    [18]  Xinkai Ma*, Jiahao Li, Zhuo Chen, Junye Li, Xiaojun Zhao, Fuguo Li, Abnormal work hardening in a TRIP-assisted metastable β titanium alloy under high strain rate loading, Materials Science and Engineering: A838 (2022) 142813.

    [17]  Zhuo Chen, Liang Yang, Xinkai Ma*, Qi Sun, Fuguo Li, Xiaotian Fang, Tensile Deformation Behavior of a Heterogeneous Structural Dual-Phase Metastable β Titanium Alloy, Metallurgical and Materials Transactions A 53(7) (2022) 2754-2767.

    [16]  Liang Yang, Zhuo Chen, Xinkai Ma*, Dongling Zhong, Xiaojun Zhao, Lei Xiao, Xiaotian Fang, Improvement of strength and ductility in a gradient structured Ni fabricated by severe torsion deformation, Materials Science and Engineering: A 826 (2021) 141980.

    [15]  Zhuo Chen, Donglin Zhong, Qi Sun, Xinkai Ma*, Effect of α phase fraction on the dynamic mechanical behavior of a dual-phase metastable β titanium alloy Ti–10V–2Fe–3Al, Materials Science and Engineering: A 816 (2021) 141322.

    [14]  Xinkai Ma*, Zhuo Chen, Wenjie Lu, Lei Xiao, Continuous multi-cycle nanoindentation behavior of a gradient nanostructured metastable β titanium alloy fabricated by rotationally accelerated shot peening, Materials Science and Engineering: A 799 (2021) 140370.

    [13]  Xinkai Ma*, Zhuo Chen, Dongling Zhong, Shengnian Luo, Lei Xiao, Wenjie Lu, S. Zhang, Effect of rotationally accelerated shot peening on the microstructure and mechanical behavior of a metastable β titanium alloy, Journal of Materials Science & Technology 75 (2021) 27-38.

    [12]  Xinkai Ma*, Zhuo Chen, Lei Xiao, Shifeng Luo, Wenjie Lu, Stress-induced martensitic transformation in a β-solution treated Ti–10V–2Fe–3Al alloy during compressive deformation, Materials Science and Engineering: A 801 (2021) 140404.

    [11]  Xinkai Ma*, Zhuo Chen, Lei Xiao, Wenjie Lu, Shifeng Luo, and Yang Mi. Compressive deformation of a metastable β titanium alloy undergoing a stress-induced martensitic transformation: The role of β grain size. Materials Science and Engineering: A 794 (2020): 139919.

    Publications at NPU (First author)

    [10]  Xinkai Ma, Fuguo Li*, Zhankun Sun, Junhua Hou, Xiaotian Fang, Yuntian Zhu*, and Carl C. Koch. Achieving gradient martensite structure and enhanced mechanical properties in a metastable β titanium alloy. Metallurgical and Materials Transactions A 50(2019): 2126-2138.

    [9]  Xinkai Ma, Fuguo Li*, Zhankun Sun, Junhua Hou, Jinghui Li, and Xiaotian Fang. Strain rate dependence of the indentation size effect in Ti–10V–2Fe–3Al alloy. Materials Science and Technology 35, no. 9 (2019): 1107-1113.

    [8]  Xinkai Ma, Fuguo Li*, Xiaotian Fang, Zhongkai Li, Zhankun Sun, Junhua Hou, and Jun Cao. Effect of strain reversal on the stress-induced martensitic transformation and tensile properties of a metastable β titanium alloy. Journal of Alloys and Compounds 784 (2019): 111-116.

    [7]  Xinkai Ma, Fuguo Li*, Jun Cao, Jinghui Li, Zhankun Sun, Guang Zhu, and Shunshun Zhou. Strain rate effects on tensile deformation behaviors of Ti-10V-2Fe-3Al alloy undergoing stress-induced martensitic transformation. Materials Science and Engineering: A 710 (2018): 1-9.

    [6]  Xinkai Ma, Fuguo Li*, Chen Zhao, Guang Zhu, Weina Li, Zhankun Sun, and Zhanwei Yuan. Indenter load effects on creep deformation behavior for Ti-10V-2Fe-3Al alloy at room temperature. Journal of Alloys and Compounds 709 (2017): 322-328.

    [5]  Xinkai Ma, Fuguo Li*, Jun Cao, Zhankun Sun, Qiong Wan, Jinghui Li, and Zhanwei Yuan. Study on the deformation behavior of β phase in Ti–10V–2Fe–3Al alloy by micro-indentation. Journal of Alloys and Compounds 703 (2017): 298-308.

    [4]  Xinkai Ma, Fuguo Li*, Jun Cao, Jinghui Li, Han Chen, and Chen Zhao. Vickers microhardness and microstructure relationship of Ti-6Al-4V alloy under cyclic forward-reverse torsion and monotonic torsion loading. Materials & Design 114 (2017): 271-281.

    [3]  Xinkai Ma, Fuguo Li*, Xiaoyu Mao, Shutong Yuan, and Jingyi Wang. "Effect of strain reversal on microstructure and mechanical properties of Ti-6Al-4V alloy under cyclic torsion deformation." Procedia engineering 207 (2017): 1469-1474. International Conference on the Technology of Plasticity, ICTP 2017, 17-22 September 2017, Cambridge, United Kingdom

    [2]  Xinkai Ma, Fuguo Li*, Jinghui Li, Jun Cao, Pan Li, and Junzhe Dong. Effect of heat treatment on the microstructure and micro-mechanical behavior of quenched Ti-6Al-4V alloy. Journal of Materials Engineering and Performance 24 (2015): 3761-3772.

    [1]  Xinkai Ma, Fuguo Li*, Jinghui Li, Qianru Wang, Zhangwei Yuan, and Yong Fang. Analysis of forming limits based on a new ductile damage criterion in St14 steel sheets. Materials & Design 68 (2015): 134-145.

     

     


     

     

     



  • [7]  一种具有低温高强韧纳米孪晶高熵合金的制备方法:马新凯,李家豪等,2022.06.17, ZL202210693578.4

    [6]  一种高性能超细晶异构亚稳β钛合金制备方法:马新凯,陆科杰等,2023.05,CN202211601065.2。

    [5]  一种高强高塑性异质晶粒结构亚稳态高熵合金的制备方法:马新凯,陆科杰等,2023.04.21,CN202211601024.3。

    [4]  一种调控轧制退火工艺制备高强韧异构镍的方法:马新凯,杨亮等,2022.06.10,ZL202110892878.0。

    [3]  一种高强韧中熵合金的非均匀纳米异构组织:马新凯,陈卓等,2022.04.12, ZL202111070692.3。

    [2]  具有高延伸率的梯度金属材料的制备方法:魏文强,马新凯2021.12.08,ZL202111489895.6。

    [1]  具有宽尺寸渐进演变梯度纳米结构的金属棒材的制备方法:马新凯杨亮等, 2021.08.16,CN202110935701.4。