Ziying Liang, Chongyang Fu, Xiaoxia Wang, Yong Li, Xiaojuan Ma，Electronic and mechanical properties of transition metal carbides Fe3M3C (M: Mo, W) under high pressure – First principles calculations，Volume 43, February 2025, 111546

张乐，黄睿鑫，马小娟，圆线圈中感应电动势及其测速应用, 物理通报，2025，525（3）:151-154

XiaoWu , Chong-YangZeng , Xiao-JuanMa andFu-ShengLiu, Measurementf orYieldStrengthofCopperUnder PerturbedShockLoading, NANO:BriefReportsandReviews (2024)2450169

Chongyang Fu, Le Zhang, Weiqi Li，Yongyu Yang，Jinrui Yang，Xijian Qi，Xiaojuan Ma, The mechanical, thermodynamic and electronic characters of TiFe at extreme pressures: first‑principles calculation, Transition Metal Chemistry (2024) 49:495–507

Chongyang Zeng, Xuan Wu, Yuan Feng, Chuangkun Ma, Xiaojuan Ma, Shunt capacitor array shock wave position sensor, Sensors&Actuators: A.Physical, 368(2024)114948

吴潇,张乐,马小娟,等.针对电磁感应测速系统的有限元模拟[J].高压物理学报, 2023(6):92-106.

Zeen Liu,Le Zhang,Chongyang Fu,Chongyang Zeng,Xiao Wu,Weiqi Li,and Xiaojuan Ma, Structural, mechanical, and thermodynamic properties of Ni–Ti intermetallic compounds: First-principle calculation[J].Journal of Applied Physics, 2023, 134(8)

Li W , Liu Z , Zhang L ,et al.The electronic, mechanical and thermodynamic properties of Fe–N binary compounds under 330GPa: First-principle calculations[J]. Solid State Communications,  2023.DOI:10.1016/j.ssc.2023.115252.

Chongyang Fu, Weiqi Li, Chongyang Zeng, Le Zhang, Zeen Liu, Xiao Wu, Xiaojuan Ma，The structural, electronic, and mechanical properties of FeH under extreme pressures: First-principles calculation, Solid State Communications,Volume 368, 1 August 2023, 115180

Weiqi L , Xiaojuan M , Le Z ,et al.The electronic and mechanical properties of Fe16N2 up to 150GPa: First-principles calculation[J].Journal of Applied Physics, 2022, 132(9)

Li W , Ma X , Li J ,et al.The influence of nitrogen proportion on the mechanical property of Fe-Ni alloy at extreme pressure[J].Solid State Communications, 2022:351.

Simulation based study of magnetic velocity induction system by using Analysis System Electromagnetics Suite,Review of Scientific Instruments, 2021.9, 92(9):094708 

Effects of geometric similarity ratio on the disturbance amplitude of shock-wave front in viscosity measurement,Modern Physics Letters B，2021.4, 35(19):2150330

冲击波位置传感器的电路分析,物理实验,2021.9, 41(9):47-51 

Structural stability, elastic and thermodynamic properties of Au–Cu alloys from first-principles calculations，Physica B, 2018.1, 533:58-62

Yield strength measurement of shock-loaded metal by flyer-impact perturbation method，Physica B, 2018.3, 538:167-171

冲击波阵面几何扰动衰减特性及材料强度效应研究，四川师范大学学报（自然科学版）, 2017.1，40(1):90-93  

Theoretics-directed effect of copper or aluminum content on the ductility characteristics of Al-based (Al3Ti, AlTi, AlCu, AlTiCu2) intermetallic compounds，Chinese Physics B, 2016.9, 25(11):113101

First-principles calculations of the structural, elastic and thermodynamic properties of tetragonal copper-titanium intermetallic compounds, Journal of Alloys and Compounds, 2016.6, 687:984-989

冲击波扰动衰减法测量高压下铝的屈服强度，热加工工艺，2016.5，45(10):72-75   

Shear viscosity of aluminum studied by shock compression considering elasto-plastic effects，Chinese Physics B, 2014.7,23(9):096204

Effects of viscosity on shock-induced  damping of an initial sinusoidal disturbance，Sci.  China. Phys. Mech Astron., 2010,  53(5):802-806  （SCI收录）；

冲击压缩下物质黏性系数与冲击波阵面扰动衰减特性研究，物理学报，2010, 59(7):4761-4766  （SCI收录）；

Effective Shear Viscosity of Iron under  Shock-Loading Condition，Chin. Phys. Lett., 2011,  28(4):044704  （SCI收录）；

Viscosity of  aluminum under shock-loading condition，Chin. Phys. B, 2011, 20(6):068301  （SCI收录）；

飞片加载产生正弦冲击波及其波阵面演化模拟，高压物理学报，2011, 25(1):23-28  （EI收录）；

高温高压条件下材料的物性（力、热、光等）、冲击合成、地球内部矿物（铁、硫、二氧化硅、硅酸盐等）的流变性。

研究背景：

1. 众所周知、包括地球在内的天体内部都有层状分布，自然界中发生的一系列现象，如地震、火喷发等，都源于地球内部运动以及其能量释放，所以研究地球等天体内部矿物的物性是认识地球等天体的形成、构成、动力学等的重要前提；

2. 武器在运作时，其介质处于高温高压状态，了解其爆炸点火、爆燃过程中介质的动力学特征离不开材料的物性探索； 

3. 宇宙空间碎片将成为航天器的巨大杀手之一，所以空间防护迫在眉睫。

4. 石墨在高压下将演变成金刚石、橄榄石在高压下会依次相变为瓦兹利石和林伍德石、铁在高压下也有众多结构......

研究方法：

实验方法：利用自制电探针阵列测量扰动冲击波波阵面，多普勒测速探针系统测量冲击波粒子速度，高温计测量光谱辐射情况等；

理论方法：利用Ansys、Matlab、Fortran、mathematics等进行数值分析。