力学博士后流动站(Mechanics)

时间:2011-06-14浏览:972设置

负责人:徐弘一
书:童崎

话:(021)65647825

 E-Mail: tongqi@fudan.edu.cn


二级学科


1.飞行器设计与工程

研究方向:

(1)飞行器总体设计
 (2)
飞行力学与飞行控制及飞行仿真技术
 (3)
航空武器系统效能分析

(4)导弹空气动力学优化和设计、飞机空气动力学优化和设计

本领域内主要专家:艾剑良、孙刚、马建敏、徐弘一教授等


2.生物医学工程

研究方向:

(1)生物流体对力学环境(压力和流量)改变所产生的适应性生长和重建规律研究。

(2)心脑血管系统中的血液动力学问题研究:复杂管内脉动血流(狭窄管、弯曲管、分叉管、动脉瘤、支架、移植管…),细胞力学,微循环血液动力学及物质传递。临床生物力学:高血压血液动力学,中医脉象分析,心脑血管调节、变异性。血液动力学及其它生理信号非线性动力学(血液动力学、心电、脑电…)

(3)血液动力学参数的分析和监测方法研究。

(4)经络循环动力学:采用血液动力学原理研究心脑循环血液动力学规律,在此基础上开发新一代医疗器械产品。

(5)人体经络的科学基础:应用现代科学技术手段、方法,探索中医基础理论的现代科学机理

本领域内主要专家:丁光宏、姚伟教授等


3.工程力学

研究方向:
 (1)
非线性转子动力学(非线性油膜振荡;干摩擦碰摩;内耗失稳;粘弹性转子)。
 (2)
陀螺系统动力学与陀螺特征值问题。
 (3)
复杂结构动力学数值仿真、动力学参数灵敏度分析、有限元模型修正。
 (4)
-固耦合问题:蒸汽振荡力研究;非线性油膜力模型;充液转子;气动颤振;流固耦合动力稳定性。

(5) 多刚体系统动力学和软件开发
 (6)
多柔性系统动力学和力学建模

(7) 柔性航天器姿态动力学

(8) 振动、噪声理论与控制技术
本领域内主要专家:唐国安、马建敏教授等


4.流体力学

研究方向:

(1)具有自由面或流体交界面的不可压缩流动问题的数值模拟

(2)边界积分方法:不可压缩理想流体问题的边界积分方法(包括考虑自由面边界层粘性的理想流体的边界积分方法);不可压缩粘性小雷诺数流动(Stokes)的边界积分方法。

(3) 不可压缩粘性流体流动问题的等高集函数方法。

(4)数值模拟无粘或粘性流动问题的高精度、高分辨率格式研究。

本领域内主要专家:田振夫、孙刚、徐弘一教授等


5.一般力学与力学基础、固体力学

研究方向:
 (1)
功能与智能材料相变特性及本构关系研究
 (2)
先进材料与器件的多尺度模拟
 (3)
核燃料元件的力学行为研究

(4)海洋石油结构的安全性评估

本领域内主要专家:霍永忠、段梦兰、丁淑蓉教授等


Mechanics


Person in Charge: Prof. Xu Hongyi

Secretary: Tong Qi

Telephone: (86) 21-65647825
 E-mail: tongqi
@fudan.edu.cn


Major Research Projects


1. Aircraft Design and Engineering
 Major Research Projects

 (1) The Total Design for Aircraft
 (2) Flying Mechanics, Flying Control and Flying Simulation

(3) The System Effectiveness Analysis for Aircraft Weapons

(4) Optimal Design of the Air Dynamics Behaviors for Airplanes and Missiles

Experts in this Field: Prof. Ai Jianliang, Prof. Sun Gang, Prof. Ma Jianmin, Prof. Xu Hongyi.


2. Biofluid Mechanics
 Major Research Projects:

(1)Arterial Wall Adaptation Growth and Remodeling in Response to Acute Changes in the Mechanical Environment (Pressure and Flow)

(2) Heart-cerebral Circulation Hemodynamics: Pulsatile Blood Flow through Complex Vessel (Stenosis, Band, Bifurcation, Aneurysm, Stent, Graft), Cell Mechanics, Hemodynamics and Mass Transfer in Microcirculation.

(3) Clinical Biomechanics: Hypertension Hemodynamics, Analysis of Pulse in Traditional Chinese Medicine, Regulation and Variability Heart and Cerebral Circulation, Nonlinear Dynamics of Hemodynamics and Physiological Sign (Hemodynamics, ECG, EGG)

(4) Analysis and Measuring for Hemodynamics Parameters

(5) Research on Blood Flow Dynamics Especially in Cerebrovascular and Cardiovascular Circulation (Based on the new theory the new equipment will be made and applied in clinical.)

(6) The Scientific Research on the Theory of Traditional Chinese Medicine Especially in the Acupuncture, Meridians and Qi-blood Transportation, the Detection of the Mechanism of TCM

Experts in this Field: Prof.Ding Guanghong, Prof. Yao Wei.


3.Engineering Mechanics

Major Research Projects:

  1. Nonlinear Rotor Dynamics: Nonlinear Oil Whip Phenomenon, Impact-dry Friction Problems, Internal Damping, Viscoelastic Rotor

  2. Numerical Simulation of Structural Dynamics, Analysis and Application of Dynamic Parameter Sensitivities, Finite Element Model Updating

(3) Dynamics of Gyroscopic Systems and Gyroscopic Eigenvalue Problems

(4)Fluid-solid Coupled Problems: Modeling of Steam Alford Force, Lubrication Theory, Nonlinear Oil-film Force Modeling, Dynamic Instability of Fluid-solid Coupled Systems

(5)Multi-rigid-body Dynamics and its Software

(6)Multi-flexible-body Dynamics and its Mechanical Modeling

(7)Attitude Dynamics

(8) The Vibration and Sonic Theory and Controlling Technique

Experts in this Field: Prof.Tang Guoan, Prof.Ma Jianmin.


4. Fluid Mechanics

 Major Research Projects:

  1. Numerical Simulation of Impressible Fluid Flow Problems with Free Surfaces or Interfaces;

  2. Boundary Integral Methods: Boundary Integral Methods for Incompressible Idea Fluid Flow (Considering the Viscous Effects of Boundary Layers of Free Surfaces), Boundary Integral Methods for Incompressible Viscous Small Reynolds Number Flow (Stokes Flow)

(3)The Level Set Function Methods for Incompressible Viscous Flow Problems

(4) Investigation of Numerical Schemes with High Accuracies and High Resolutions for Numerical Simulation of Inviscid or Viscous Fluid Flow Problems

Experts in this Field: Prof.Sun Gang, Prof.Tian Zhenfu, Prof. Xu Hongyi.


5.General Mechanics, Basic Mechanics and Solid Mechanics

Major Research Projects:

  1. Phase Transition and Constitutive Equations of Functional and Smart Materials

  2. Multi-scale Modeling of Advanced Materials and Devices

  3. Research on the mechanical behavior of nuclear fuel elements

  4. Adaptive Control of Structural Vibrations

Experts in this Field: Prof. Huo Yongzhong, Prof. Duan Menglan, Prof. Ding Shurong.



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