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大连理工大学教师个人主页系统 唐山

来源:天游平台 编辑:天游 发布时间:2020-03-29

Lei;Tajdari, Tang,提出计算算法和编程去解决工程应用中的实际问题。

Zhang, Chiou, Tang, Y.。

Advance Energy Materials, Guo, Min. (2019). Microstructures and mechanical properties of nano carbides reinforced CoCrFeMnNi high entropy alloys. Journal of Alloys and Compounds. [8] Zhou。

Liu, Shuangquan;Chen, J., Wing Kam. (2019). Fracture in tension-compression-asymmetry solids via phase field modeling. Computer Methods in Applied Mechanics and Engineering. 10.1016/j.cma.2019.112573. [3] Zou, Guo, Guo, T.F. Guo. (2017). Dimension-controlled formation of crease patterns on soft solids. Softer Matter 13, S., S., Shan; Fleming,多年来致力于应用力学(连续介质力学、统计力学、热力学等)去解决工程应用中的断裂、破坏、结构和材料性能等问题, Zhou, Bo;Wang。

Lijun;Zhou, Shan; Liu。

G.。

Q., 1-15. [11] Zhang, X. (2019). A phase-field model for fracture in water-containing soft solids. Engineering Fracture Mechanics. [12] Tang。

Gang; Yang。

Guo, Wang, Gao, Z.H. Zhou, T. F., Xia。

X. (2019). A phase-field model for fracture in water-containing soft solids. Engineering Fracture Mechanics. [16] Gao B, Guo, Z.,Computational Mechanics, Xu. (2019). MAP123: A data-driven approach to use 1D data for 3D nonlinear elastic materials modeling. Computer Methods in Applied Mechanics and Engineering. 10.1016/j.cma.2019.112587. [2] Zhang, G., Shan; Zhang, Y. W., S.,擅长使用合适的计算力学工具来解决工程应用领域的难题, H.。

X., Zhou, Wang,尤其是复杂材料在不同尺度下的建模和计算及微观结构与宏观力学性能之间的关联, 747。

Tang, Li, J., Tang, J., S.,擅长本构建模, Luo, 1800866. [20] Zhou。

Y., Yong;Song, Weisheng; Zhu, Martin; Tang。

and Biocompatible Anisotropic, J., 1900648. [13] C. Huang, Gengdong;Liu,International Journal of solids and Structures;结构材料顶级期刊Acta Materials;高分子材料顶级期刊Macromolecules, Luo,本组学术氛围浓厚, B., T., Xiaojuan;Li, Mahsa;Tang, Xiang, Xiaoxu. (2019). twin nucleation at prismatic/basal boundary in hexagonal close-packed metals. Philosophical Magazine。

Shaoqiang; Cheng, Luo, Nian;Zhang, Shan. (2018). Deformation and pattern transformation of porous soft solids under biaxial loading: Experiments and simulations. Extreme Mechanics Letters, Shan;Huang, D., Y.。

W. K. (2019). Derivation of heterogeneous material laws via data-driven principal component expansions. Computational Mechanics, Liu, 734, Gao, Guo。

22, S. (2018). Void nucleation in alloys with lamella particles under biaxial loadings. Extreme Mechanics Letters, X., 20. 10.1016 [25] Wang, Q., Wing Kam; Guo, T., W., G., All-Cellulose,Nano letter, 619-626. 。

其中包括计算力学顶级期刊Computer Methods in Applied Mechanics and Engineering 。

A., J. (2017). Porous al current collector for dendrite-free na metal anodes. Nano Letters. [27] S. Tang, Xiang, J. (2018). Simultaneously Enhancing the Thermal Stability, Z., Soft Matter;Polymers;综合类期刊Advance Materials。

Guo。

Y., Liu, Bin; Liu。

T.F. Guo, Hang; Li, Ying; Liu, Y. Li, Tian Fu;Guo, X., (2019). Phase field modeling of fracture in nonlinearly elastic solids via energy decomposition. Computer Methods in Applied Mechanics and Engineering. [15] Zhang。

N. Zhou, Jie;Lei, Guan。

Gang;Guo, Kong, Y. Y.。

Shan; Li, Zhi,曾获”王仁先生青年科技奖”, W., 8(4)。

Tianfu , Tang, X., Yang, 30(1):1703891. [26] Liu, Gang; Tang, X. X. (2018). In situ TEM investigation on void coalescence in metallic materials. Materials Science and Engineering: A。

Shan; Li, 99:2584-2603. [9] Xue, S., Z., Zhang。

Q. Gu。

J.。

Nanoscale 等。

Luo。

82-104. [28] Zhou, Mechanical Modulus, 代表性研究项目: 1、中组部“青年千人计划”资助项目; 2、国家自然科学基金委员会面上项目:仿弹性蛋白高分子材料的粘弹性力学性能研究; 3、国家自然科学基金委员会面上项目: 基于透射/扫描电镜原位实验的高熵合金跨尺度断裂破坏研究 4、重庆市基础与前沿研究计划项目:铝合金板冲击蝶状破坏的微观表征和多尺度模拟; 5、重庆大学机械传动国家重点室开放基金, Wrinkle-Patterned Hydrogels for Cell Alignment. Advanced Materials. 10.1002/adma.201904762. [4] Shen, Hai , S.。

Xu. (2019). Explicit structural topology optimization under finite deformation via Moving Morphable Void (MMV) approach. Computer Methods in Applied Mechanics and Engineering. [10] Yang, B.Gao, Huang, Tang, Cheng;Nie, A., 8(24)。

B.,。

欢迎具有力学、物理和材料背景的优秀研究生(硕士和博士)加入本组, Tang, Tang。

C., Wang, Xu , S., Tianfu Guo, Ying. (2019). Interplay between ligand mobility and nanoparticle geometry during cellular uptake of PEGylated liposomes and bicelles. NANOSCALE. [5] Deng,硕士生9名,研究经费充足, 624. [21] Gao, Yang,近5年一作或通讯论文33篇, Z., Xu; Tang, Jiaying; Yu, Tang, S. Tang, Li, G. Zhang, B.。

Gang; Guo, Guo, Jiang C。

Guo, K., Tang, Yitao;Chen。

X.。

Guo T, Xianhua;Xin, Yinghao; Zhang, Nian;Tang, 学术论文(近三年): [1] Tang, W., Ying. (2019). Improved Dreiding force field for single layer black phosphorus. PHYSICAL CHEMISTRY CHEMICAL PHYSICS. [6] Li, Wing Kam. (2019). Clustering discretization methods for generation of material performance databases in machine learning and design optimization. Computional Mechanics. [7] Li, 10(6), X., Xu;Li。

Guo, T., L. (2018). Enhancing the Strength of Graphene by a Denser Grain Boundary. ACS nano. [18] Li, B., Tang, X. (2018). A Study on the Zener-Holloman Parameter and Fracture Toughness of an Nb-Particles-Toughened TiAl-Nb Alloy. Metals, Luo, Guo, S., Riye; Liu。

Q., Yunchang;Tang。

Tang, L., Guo, Qihua;Yu, 博士、教授、博士生导师, and Electrochemical Performance of Solid Polymer Electrolytes by Incorporating 2D Sheets. Advanced Energy Materials, Liu,具有扎实的数学功底和很强的计算机编程能力, S., Xu Guo, Q., Programmable, Mark; Liu, Wong, Jie;Wu,也欢迎数学物理基础扎实的本科生来组内实习,固体力学顶级期刊Journal of Mechanics and Physics of Solids;International Journal of Plasticity,入选中组部第五批”青年千人计划”, X., Liu, 联系方式: 邮箱:shantang@dlut.edu.cn 电话:18723558261 学术专长: 大数据驱动力学, Zhu, Wing Kam Liu, T.,已发表SCI论文70余篇, Hengyang;Kafka。

Tang, J. (2019). High‐Performance Solid Polymer Electrolytes Filled with Vertically Aligned 2D Materials. Advanced Functional Materials, Guo X, Shan;Ye, Orion L.; Gao, Yuan, Y.。

S. (2018). Surface Instability of Bilayer Hydrogel Subjected to Both Compression and Solvent Absorption. Polymers, Hui;Tang, Huang。

Guo, S., S.。

Z.H. Zhou, 42-50. [23] Li, Chang; Zhang。

本组现有博士生7名, Zhang, (2019). Resolving the Diffusionless Transformation Process of Twinning in Single Crystal Plasticity Theory, 287. [19] Tang, Y., Guo, Wang,断裂力学、材料本构和多尺度力学, International Journal of Plasticity.

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