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1 Table of Contents Foreword.... Introduction.... xi xiii Chapter 1. Fundamentals of Heat Transfer Introduction A review of the principal modes of heat transfer Diffusion Convection Radiation Heat transfer modeling Governing equations for the diffusion of heat Specific heat and thermal diffusivity Modeling of thermal convection Phase change The governing equations of heat radiation Radiation parameters Radiation from real bodies Thermal radiation of real bodies The heat equation Initial conditions and boundary conditions Initial conditions Boundary conditions in heat transfer Boundary layer Lumped thermal systems Solving the heat equation with the Laplace transform The Laplace transform Classical transforms Numerical calculation of the inverse Laplace transform... 33
2 vi Heat Transfer in Materials Forming Processes Application to the solution of the heat diffusion equation Heat transfer in a composite material Heat transfer at a solid-solid interface Stationary interfaces Moving interfaces Exercises with solutions Heat transfer in a semi-infinite plane medium Heat transfer in an infinite medium with hollow sphere Heat transfer in an infinite medium with a hollow cylinder Several configurations of heat transfer in a wall Transient heat transfer in a semi-infinite fin Constriction resistance for a semi-infinite medium in r and z Constriction resistance for a semi-infinite medium in z Solution of a multidimensional heat transfer problem Instantaneous point source term Point heat source as a function of time Ring of heat in an infinite medium Linear instantaneous source term in an infinite medium Instantaneous heat source as a cylindrical surface Instantaneous disc heat source Instantaneous surface source term Heat strip Rectangular heat source MATLAB codes for the simulations carried out in this chapter Heat conduction in semi-infinite media Semi-infinite plane medium (imposed temperature) Semi-infinite medium (imposed heat flux) Semi-infinite sphere (imposed temperature) Semi-infinite cylinder (imposed temperature) Heat transfer in a plane wall Heat diffusion in infinite media with heat sources Point heat source Linear heat source Annular heat source Cylindrical heat source Heat source in the shape of a disc Strip heat source Rectangular heat source Mathematical appendices Integral exponential function Error function J n ( x ) Bessel functions Modified I and K Bessel functions...111
3 Table of Contents vii Some useful integrals Numerical integration Newton-Cotes formula Gauss formulae Gauss-Radau formulae Gauss-Lobatto formulae Chapter 2. The Finite Element Method Introduction Application to the parabolic equation Spatial discretization D case D case D case Quadratic and cubic elements Interpolation on the reference elements Weak variational formulation of the parabolic equation Time discretization A simple example Use of interpolating functions on the true element Non-linear equations Algorithms for the solution of large linear systems Gauss-Jordan diagonalization Gauss triangularization LU method The Crout algorithm LU method with partial pivoting for very large sparse matrices Conjugate gradient method Presentation of COMSOL software Chapter 3. Heat Transfer in Casting Processes Introduction Solidification of a pure substance Phase diagram of a pure substance Crystal nucleation process Supercooling Growth of crystal nuclei Solidification of a mixture of pure substances (binary mixture) Phase diagram of a binary mixture Diagram with single solid solution Binary solidification process with single solid solution Why simulate solidification?...163
4 viii Heat Transfer in Materials Forming Processes Shrinkage-type defects Microporosity defects Thermal modeling of solidification with a plane front General mathematical governing equations Insulating mold Conducting mold D solidification Radial solidification Mold-alloy contact Thin shells Conducting alloy Taking account of liquid and solid phases Simulation of solidification with a semi-solid zone Mathematical model Boundary conditions Initial conditions The use of the finite element method solution using COMSOL Exercises with solutions Fusion of aluminum Germination condition Contact temperature in molding Solidification time for a plane geometry Solidification time for a cylindrical geometry Solidification time for a spherical geometry Chvorinov s rule and mold constant D plane solidification with diffusion in the alloy D radial solidification with diffusion in the alloy Thermal contact resistance at the mold-alloy interface MATLAB source codes D solidification, insulating mold D plane solidification, mold at constant temperature Radial solidification, mold cooled by exchanger Thermal contact resistance at the mold-alloy interface Heat exchange between the mold and the ambiant Heat exchange between the mold and the ambient and heat diffusion in the alloy Appendix: thermophysical data for some alloys Chapter 4. Heat Transfer in Machining Processes Introduction Heat conduction with moving heat sources Heat transfer in cutting
5 Table of Contents ix Phenomenological description Production of heat Heat transfer at sliding interfaces Calculation of source terms Heat source term in the primary shear zone Heat source in the secondary shear zone Heat source term in the clearance zone Heat balance by zone Quasi-steady-state, linear and adiabatic assumption Lubrification Chip-workpiece system (primary shear zone) Tool-chip system (secondary shearing zone) Tool-workpiece system (clearance zone) Numerical application Use of experimental measurements Methodology Calculation of total power Heat balance How can we estimate the heat flux in the tool? Application Heat transfer in welding and in laser surface treatment Description of the process Heat transfer modeling Application Calculations with Comsol Heat transfer in grinding Description of the process Thermal modeling at the global scale Energy balance Heat transfer in the workpiece Heat transfer in the grindstone Determination of the heat flux ratios Application Comsol simulation Use of temperature measurements Exercises with solutions Moving point source Moving line source Moving heat strip Rectangular moving heat source Moving disc of heat Heat flux and temperature calculation in the orthogonal cutting process...307
6 x Heat Transfer in Materials Forming Processes Transient temperature on the surface of a grindstone Estimation of variable heat flux during machining Resistance welding Lubrification Estimation of the heat flux in welding MATLAB simulation codes Moving point source Moving line source of heat Moving heat strip Rectangular moving heat source Moving disc of heat Simplified heat transfer model for the orthogonal cutting process Use of experimental measurements in the orthogonal cutting process Laser source moving over a semi-infinite medium Temperature on a grinding wheel in transient regime Determination of distribution coefficients and average interface temperature during grinding Heat flux estimation during grinding using a point measurement of temperature Estimation of heat flux during laser welding Resistance welding Bibliography Index
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