- 1,094 pages
- English
- ePUB (mobile friendly)
- Available on iOS & Android
eBook - ePub
Mathematical Modelling of Weld Phenomena: No. 5
About this book
Contains the papers presented at the fourth International Seminar "Numerical Analysis of Weldability" held in September 1997 at Schloss Seggau near Graz, Austria.
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Yes, you can access Mathematical Modelling of Weld Phenomena: No. 5 by H. Cerjak in PDF and/or ePUB format, as well as other popular books in Technology & Engineering & Chemistry. We have over one million books available in our catalogue for you to explore.
Information
Table of contents
- Cover
- Half Title
- Title Page
- Copyright Page
- Table of Contents
- Introduction
- Mathematical Modelling of Fluid Flow and Heat Transfer in Fusion Welding
- Welding in a Microgravity Environment – Bubble Behaviour
- Measurement and Prediction of GTA Weld Penetration in Gamma Titanium Aluminide
- Computer Modelling of Gas Partition Between the Weld Metal and Its Plasma Environment
- Modelling of Nitrogen Dissolution during the GTA Welding of Iron and Steels
- Modelling the Electromagnetic Force Distribution in a Three Dimensional Gmaw Weld Pool
- A Numerical and Experimental Study of Fluid Flow and Heat Transfer in Stationary GTA Weld Pools
- Modelling of Deep-Penetration Laser Welding-A ‘Synthetic’ Approach
- Modelling the Weld Pool Behaviour in GMA Welding
- Modelling of Solidification and Grain Growth in Steel Welds
- Modelling and Simulation of Microstructural Development During Weld Solidification
- Modelling Solute Redistribution and Microstructural Development in Fusion Welds of Multicomponent Alloys
- Finite Element Method for Hot Cracking Analysis Using Temperature Dependent Interface Element
- Correlation Between the Welding Parameters and the Grain Structure for the Fast Moving High Power Line Heat Source in a Thin Plate
- SOLIDIFICATION PATHS IN SIMPLIFIED ALLOYS REPRESENTATIVE OF Ni RICH WELDS IN RELATION WITH THEIR SENSITIVITY TO HOT CRACKING
- A Coupled Approach for the Prediction of Solidification Cracking
- Recent Approaches in the Design if Flux-Related Arc Welding Consumable
- Matcalc-A Simulation Tool for Multicomponent Thermodynamics, Diffusion and Phase Transformations
- Stress-Driven Diffusion of Impurities Near Crack-Like Singularities and Mechanisms of Dynamic Intergranular Embrittlement
- Numerical Modelling of Microstructure in Heat Affected Zone of Gma Welded HY–100 Steel
- Finite Element Analysis of Heat Affected Zone Behaviour in Pulsed GTA Weldments
- New Trends in Mathematical Modelling of Aluminium Alloys
- Computational Weld Mechanics: Is Real-Time CWM Feasible? Recent Progress in CWM
- Design of Creep-Resistant Steel Welds
- A New Look at Transformation Induced Plasticity (Trip)
- Development of Numerical Techniques for the Design of Aluminium Welded Structures
- Influence of Vanadium on the Creep Rupture Strength Reduction Factor of Boiler Tubes Made of Low-Alloy Creep-Resistant Steels
- Variation of HAZ Tensile Properties of a Fine-Grained Ferritic-Pearlitic Steel
- Residual Stresses in Aluminium-Lithium Welds and Effects on Structural Fabricability and Integrity
- Measurement, Variability and Prediction of Residual Stresses in Weaved Repair Welds
- Numerical Analysis of Residual Stress in Welded Structures Using Inherent Strain
- Numerical and Experimental Analyses of Residual Stresses in Submerged Arc Welding of Mild Steel Plates
- Effect of Low-Temperature Phase Transformations on Residual Stress Distributions in Laser Welded Joints
- Calculation of Residual Stresses in ZrO2/Ni/ZrO2 and ZrO2/Ni/AISI 316 Diffusion Bonds
- Stress Concentration Evaluation of the Lap Welded Joints
- Residual Stresses and Deformation in Dissimilar Girth Welds – Numerical Simulations and Experimental Verifications
- Modelling of Laser Beam Welding with Complex Joint Geometry and Inhomogeneous Material
- The Use of an Integrated Multiple Neural Network Structure for Simultaneous Prediction of Weld Shape, Mechanical Properties, and Distortion in 6063-T6 and 6082-T6 Aluminium Assemblies
- Possibilities of Numerical Simulation for Evaluation and Optimisation of Welded Designs. Principles
- An Analytic-Numerical Estimation of the Thermal Cycle During Welding with various Heat Source Models Application
- Developments in Finite Element Techniques for Facilitating the Simulation of Welding in Industrial Applications
- Implementation of User Material Model under SYSTUS+
- Infra-red Pyrometry-Aided Adaptation in Microstructural Simulation of Stainless Steel Plasma Arc Welding
- Modelling of the PVR-Test to Examine the Origin of Different Hot Cracking Types
- Numerical Simulation of Defect Detectability in Non-Isotropic Welded Joints
- High Temperature Thermal Field During Arc Remelting as an Input for Hot Cracking Characterisation
- Thermo-Elastoviscoplastic Approach of the Thermomechanical Conditions for Hot Cracking
- Consideration of Dynamic Mechanical Boundary Conditions in the Characterisation of a Hot Cracking Test By Means of Numerical Simulation
- Scan Welding: Thermal Modelling for Microstructure Control
- Numerical Simulation of Laser Welding of Dissimilar Metals
- Coupled Thermal-Mechanical Analysis of a Novel Friction Welding Process for Welding of Large Size Components
- Numerical Simulation of Electron Beam Welding of Metals: Sensitivity Study of a Predictive Model
- Diffusion Bonding of Glass to Metal in an Electrostatic Field
- Simulation of the Projection Welding Process Alexei Vichniakov and Horst Herold
- Fem Investigation On Effect Of Initial Gap Upon Nugget Formation And Expulsion In Spot Welding
- Thermal Field Analysis During Resistance Brazing
- Modelling of Hydrogen Diffusion and Cracking in Steel Welds
- Computer Modelling of Hydrogen Induced Cold Cracking Initiation, Using the Microcleavage Conception
- Author Index
- Subject Index