刘兵飞导师简介
一、个人基本信息
姓名:刘兵飞
出生年月:1985 01
籍贯:河北 承德
性别:男
民族:满族
职称:副教授
政治面貌:党员
最高学历:博士
工作单位:中国民航大学航空工程学院
通讯地址:天津市东丽区津北公路2898号
邮政编码:300300
办公电话:02224092477
电子邮箱:bfliu@cauc.edu.cn
二、学习和工作经历
2013/4-今,中国民航大学任教
2011/9 - 2012/9,美国德州农工大学,航天工程,访问学者
2008/9 - 2013/4,北京交通大学,固体力学,博士
2007/9 - 2008/7,北京交通大学,固体力学,硕士
2003/9 - 2007/7,大连民族学院,土木工程,学士
三、主要研究方向
1、航空发动机尾喷管的新材料设计与疲劳损伤行为分析
研究内容:航空发动机尾喷管的新材料设计与力学性能研究、降噪机理、尾喷管的疲劳损伤对发动机性能的影响、疲劳试验、风洞实验等。
2、可变形机翼的设计与研究
研究内容:形状记忆材料(SMA、SMP及其复合材料)本构机理、可变形机翼的设计、制作、仿真和稳定性分析等。
3、飞机壁板和发动机声衬超材料减振降噪机理研究
研究内容:超材料结构设计与减振降噪、飞机壁板减振降噪结构设计、发动机声衬减振降噪结构设计等。
4、纳米尺度下形状记忆合金材料力学性能研究
研究内容:纳米尺度下形状记忆合金材料力学性能研究、镍基高温合金分子动力学模拟等。
近年来主持和参与的项目:
1、主持国家自然科学基金青年项目,航空发动机功能梯度形状记忆合金变形齿的热力耦合行为研究、23.8万元。
2、主持天津市自然科学基金面上项目,航空发动机变形齿的疲劳损伤及寿命预测研究、10万元。
3、主持天津市自然科学基金青年项目,航空发动机VGC装置的新材料设计与力学性能研究、6万元。
4、主持中国民航大学中央高校基本科研业务费重点项目等,可变形机翼的变刚度设计及力学性能研究等、20万元。
5、主持实验室创新基金重点项目等,温度循环疲劳仪研制等、12万元。
6、主持蓝天青年学者培养经费,50万元。
7、主持蓝天青年教学名师培养经费,8万元。
8、主持横向项目,60万元。
8、参与中科院重点部署项目,民航飞机燃油箱惰化富氮膜组件关键技术研究,100万元。
四、学术兼职
1、蓝天青年教学名师
2、蓝天青年学者
3、天津市131第三层次人才
4、中国复合材料学会智能复合材料专业委员会委员
5、中国交通运输协会青年科技工作者工作委员会委员
6、中国力学学会会员
五、著作和论文目录
[1] B.F. Liu, Z.F. Li, C.Z. Du, W.P. Wu. Molecular dynamics simulation of grain size effect on mechanism of twin martensite transformation of nanocrystalline NiTi shape memory alloys[J]. Comput. Mater. Sci., 210:111451, 2022. (SCI Q1)
[2] B.F. Liu, Y.X. Pan. Effect of Pore Shape on Mechanical Properties of Porous Shape Memory Alloy[J]. Micromachines, 2022, 13(4). (SCI Q2)
[3] B.F. Liu,Y.J. Hao. Study on the Mechanical Properties of Ni-Ti-Cu Shape Memory Alloy Considering Different Cu Contents[J].Computer Modeling in Engineering & Sciences. 131(3): 1601-1613, 2022. (SCI Q3)
[4] B.F. Liu, L. Yang, R. Zhou, B. Hong. Effect of process parameters on mechanical properties of additive manufactured SMP structures based on FDM[J]. 64(3): 378-390, 2122. (SCI Q2)
[5] B.F. Liu, K.Y. Chen, R. Zhou. Damage evolution and fatigue life prediction of the shape memory alloy under low cycle fatigue[J]. Mater. Today Commun., 26(2021): 101636, 2021. (SCI Q2)
[6] B.F. Liu, F.F. Zhang, R. Zhou, Y. G. Sun. On behaviors of the shape memory composite containing shape memory polymer matrix and shape memory alloy fibers under uniaxial loading with different temperature conditions[J]. Polym. Compos., 42(8): 3827-3840,2021. (SCI Q2)
[7] B.F. Liu, K. Yin, F.F. Zhang. On the behavior of functionally graded shape memory polymer composites under thermal coupling[J]. J. Mech., 37: 311-317, 2021. (SCI Q2)
[8] B.F. Liu, S.Y. Jin, X.Z. Li. Study on behaviors of shape memory alloy materials under temperature cycling considering the damage[J]. J. Intel. Mat. Syst. Str., 31(7): 990-997, 2020. (SCI Q1)
[9] B.F. Liu, Q.F. Wang, K. Yin, L.W. Wang. An analytical model for crack monitoring of the shape memory alloy intelligent concrete[J]. J. Intel. Mater. Syst. Str., 31(1): 100-116, 2020. (SCI Q1)
[10] B.F. Liu, S.Y. Jin, K.Y. Chen, F.S. Wang, C.Z. Du. Study on cyclic deformation behavior of shape memory alloy materials considering damage and the residual strain[J]. J. Alloy. Compd., 797(15): 1142-1150, 2019. (SCI Q1)
[11] B.F. Liu, Q.F. Wang, S.L. Hu, W. Zhang, C.Z. Du. On thermomechanical behaviors of the functional graded shape memory alloy composite for jet engine chevron[J]. J. Intel. Mater. Syst. Str., 29(14): 2986~3005, 2018. (SCI Q1)
[12] B.F. Liu, S.L. Hu, W. Zhang, R. Zhou, Y.N. Zhang, Y.P. Zhu. A theoretical model for functionally graded shape memory alloy cylinders subjected to internal pressure[J]. J. Mater. Res., 32(7): 1-10, 2017. (SCI Q2)
[13] B.F. Liu, Q.F. Wang, R. Zhou, C.Z. Du, Y.N. Zhang, P. Zhang. Study on behaviors of functionally graded shape memory alloy cylinder[J]. Acta Mech. Solida Sin., 30: 608-617, 2017. (SCI Q2)
[14] B.F. Liu, P.C. Ni, W. Zhang. On behaviors of functionally graded SMAs under thermo-mechanical coupling[J]. Acta Mech. Solida Sin., 29(1): 1-13, 2016. (SCI Q2)
[15] L.J. Xue, G.S. Dui, B.F. Liu, J.M. Zhang. Theoretical analysis of a functionally graded shape memory alloy plate under graded temperature loading[J]. Mech. Adv. Mat. Struct., 23(10): 1181-1187, 2016. (SCI Q1)
[16] B.F. Liu, G.S. Dui, B.M. Xie, L.J. Xue. A constitutive model of porous SMAs considering tensile–compressive asymmetry behaviors[J]. J. Mech. Behav. Biomed., 32: 185-191, 2014. (SCI Q1)
[17] B.F. Liu, C.Z. Du. Effects of external pressure on phase transformation of shape memory alloy cylinder[J]. Int. J. Mech. Sci., 88: 8-16, 2014. (SCI Q1)
[18] L.J. Xue, G.S. Dui, B.F. Liu, L.B. Xin. A phenomenological constitutive model for functionally graded porous shape memory alloy[J]. Int. J. Eng. Sci., 78: 103-113, 2014. (SCI Q1)
[19] B.F. Liu, G.S. Dui, S.Y. Yang. On the transformation behavior of functionally graded SMA composites subjected to thermal loading[J]. Eur. J. Mech. A-Solid., 40: 39-147, 2013. (SCI Q1)
[20] B.F. Liu, G.S. Dui, B.M. Xie, L.B. Xin, L.J. Xue. A theoretical analysis on elastoplastic stress solutions for functionally graded materials using averaging technique of composites[J]. CMC-Comput. Mater. Con., 34: 83-94, 2013. (SCI Q1)
[21] B.F. Liu, G.S. Dui, L.J. Xue, B.M. Xie. On macroscopic behaviors of shape memory alloy thick-walled cylinder under combined internal pressure and radial temperature gradient[J]. CMES-Comp. Model. Eng., 94(3): 239-260, 2013. (SCI Q3)
[22] B.F. Liu, G.S. Dui, Y.P. Zhu. On phase transformation behavior of porous shape memory alloy[J]. J. Mech. Behav. Biomed., 5: 9-15, 2012. (SCI Q1)
[23] B.F. Liu, G.S. Dui, Y.P. Zhu. A constitutive model for porous shape memory alloys considering the effect of hydrostatic stress[J]. CMES-Comp. Model. Eng., 78: 247-275, 2011. (SCI Q4)
[24] C.Z. Du, Z.F. Li, B.F. Liu*. Effect of Nanopores on Mechanical Properties of the Shape Memory Alloy[J]. Micromachines, 529: 1-10, 2021. (SCI Q2)
[25] Y.N. Zhang, B.F. Liu*, C.Z. Du, R. Zhou. On the behaviors of porous shape memory alloy beam with gradient porosity under pure bending[J]. J. Mater. Res., 34(02): 1-8, 2018. (SCI Q2)
[26] Y.P. Zhu, T. Chen, Y. Teng, B.F. Liu, L.J. Xue. Experimental study of directionally solidified ferromagnetic shape memory alloy under multi-field coupling[J]. J. Magn. Magn. Mater., 417: 249-257, 2016. (SCI Q2)
[27] W. Zhang, P.C. Ni, B.F. Liu*. Thermo-elastic Stresses in a Functional Graded Material under Thermal Loading, Pure Bending and Thermo-mechanical Coupling[J]. CMC-Comp. Mater. Con., 44(2): 105-122, 2014. (SCI Q1)
[28] M. Tabesh, B.F. Liu, J. Boyd, D.C. Lagoudas. Analytical Solution for pseudo elastic response of a shape memory thick-walled cylinder under internal pressure[J]. Smart Mater. Struct., 22: 094007, 2013. (SCI Q1)
[29] S.Y. Yang, G.S. Dui, B.F. Liu. Modeling of Rate-dependent Damping Capacity of One-dimensional Super elastic Shape Memory Alloys[J]. J. Intel. Mater. Syst. Str., 24(4): 431-440, 2013. (SCI Q1)
[30] L.J. Xue, G.S. Dui, B.F. Liu. Theoretical analysis of a functionally graded shape memory alloy beam under pure bending[J]. CMES-Comp. Model. Eng., 93(1): 1-16, 2013. (SCI Q4)
