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ÓÐÏÞÔªÀíÂÛºÍAnsysÈí¼þÏà½áºÏ£¬Í¼ÎIJ¢Ã¯£¬ÊÇѧϰAnsysÈí¼þ·Ç³£²»´íµÄͼÊ飡ϣÍû´ó¼ÒÏÂÔØ×ÊÔ´µÄͬʱ£¬¸ß̧¹óÊÖ£¬Ð´Éϼ¸¾ä£¬²ÅÓиü¶à£¬¸ü´óµÄ¶¯Á¦·¢¸üºÃµÄ×ÊÔ´£¡ Table of Contents Chapter 1 The Basics of the Finite Element method 1.1 Method of weighted residuals 1.1.1 Sub-domain method (Finite Volume Method) 1.1.2 Galarkin method 1.2 Rayleigh-Ritz method 1.3 Finite element method 1.4 Finite element method in two-dimensional elastostatic problems 1.4.1 Elements of finite element procedures in the analysis of plane elastostatic problems 1.4.2 Fundamental formulae in plane elastostatic problems 1.4.3 Variational formulae in elastostatic problems; the principle of virtual work 1.4.4 Formulation of the fundamental finite element equations in a plane elastostatic problem Chapter 2 Overview of ANSYS structure and visual capabilities 2.1 Starting the programme 2.1.1 Preliminaries 2.1.2 Constituent elements 2.1.3 Saving current database and opening existing 2.1.4 Organisation of files 2.1.5 Exiting the programme 2.2 Preprocessing stage 2.2.1 Types of analysis 2.2.2 Element types 2.2.3 Material properties 2.2.4 Construction of model 2.2.5 Meshing 2.3 Solution stage 2.3.1 Constraints 2.3.2 Loads 2.3.3 Solution 2.4 Postprocessing stage 2.4.1 Types of postprocessors 2.4.2 General postprocessor 2.4.2.1 Read results 2.4.2.2 Plot results 2.5 Visual capabilities 2.5.1 Plot controls 2.5.2 Two and three dimensional primitives 2.5.3 Modelling options Chapter 3 Application of ANSYS to stress analysis 3.1 Cantilever beam 3.2 The principle of St. Venant 3.3 Stress concentration due to elliptic inclusions and holes 3.4 Stress singularity problem 3.5 Two-dimensional contact stress Chapter 4 Application of ANSYS to mode analysis 4.1 Vibration modes of cantilever beam 4.2 Vibration modes of a shaft with concentrated mass 4.3 Vibration modes of a suspension for hard disc drive Chapter 5 Application of ANSYS to fluid flow analysis 5.1 Analysis of a conical diffuser flow 5.2 Analysis of inverse flow in a conical diffuser Chapter 6 Application of ANSYS to thermo mechanics 6.1 General characteristic of thermo mechanics problems 6.2 Examples of using ANSYS in thermo mechanics 6.2.1 Heat convection and temperature gradients in a furnace 6.2.2 Pipe intersection 6.2.3 Heat dissipation from a developed surface Chapter 7 Application of ANSYS to contact between machine elements 7.1 General characteristic of contact problems 7.2 Examples of using ANSYS in analysis of contact problems 7.2.1 Pin-in-hole interface fit 7.2.2 Contact between concave surfaces 7.2.3 Wheel-on-rail contact 7.2.4 O-ring assembly ÏÂÔصØÖ·£º http://www.namipan.com/d/b875846 ... 01203bb7e2d65666201 [search]ansys, ÓÐÏÞÔª[/search] [ Last edited by wenzhenzhong on 2008-12-9 at 11:36 ] |
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