Journal ArticleDOI
Modeling of laser keyhole welding: Part I. mathematical modeling, numerical methodology, role of recoil pressure, multiple reflections, and free surface evolution
TLDR
In this article, a three-dimensional laser-keyhole welding model is developed, featuring the self-consistent evolution of the liquid/vapor (L/V) interface together with full simulation of fluid flow and heat transfer.Abstract:
A three-dimensional laser-keyhole welding model is developed, featuring the self-consistent evolution of the liquid/vapor (L/V) interface together with full simulation of fluid flow and heat transfer. Important interfacial phenomena, such as free surface evolution, evaporation, kinetic Knudsen layer, homogeneous boiling, and multiple reflections, are considered and applied to the model. The level set approach is adopted to incorporate the L/V interface boundary conditions in the Navier-Stokes equation and energy equation. Both thermocapillary force and recoil pressure, which are the major driving forces for the melt flow, are incorporated in the formulation. For melting and solidification processes at the solid/liquid (S/L) interface, the mixture continuum model has been employed. The article consists of two parts. This article (Part I) presents the model formulation and discusses the effects of evaporation, free surface evolution, and multiple reflections on a steady molten pool to demonstrate the relevance of these interfacial phenomena. The results of the full keyhole simulation and the experimental verification will be provided in the companion article (Part II).read more
Citations
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Journal ArticleDOI
Melt pool temperature and cooling rates in laser powder bed fusion
TL;DR: In this paper, a two-wavelength imaging setup is used to account for changes in emissivity and temperature fields are captured at 100 kHz with a resolution of 20μm during the processing of a simple Ti6Al4V component.
Journal ArticleDOI
Heat transfer and fluid flow during keyhole mode laser welding of tantalum, Ti–6Al–4V, 304L stainless steel and vanadium
TL;DR: In this paper, a keyhole model is developed and tested on tantalum, Ti-6Al-4V, 304L stainless steel and vanadium, and a turbulence model based on Prandtl's mixing length hypothesis is used to estimate the effective viscosity and thermal conductivity in the liquid region.
Journal ArticleDOI
Numerical simulation of heat transfer and fluid flow in coaxial laser cladding process for direct metal deposition
TL;DR: In this paper, a three-dimensional transient model was developed for a coaxial powder injection laser cladding process, where physical phenomena including heat transfer, melting and solidification phase changes, mass addition, and fluid flow in the melt pool were modeled in a self-consistent manner.
Journal ArticleDOI
Melt pool and keyhole behaviour analysis for deep penetration laser welding
TL;DR: In this paper, the scaling law of welding depth with welding speed is in agreement with adapted modelling of this process, however, different effects depending on the weld pool dynamics and plume interaction strongly disturb the keyhole stability and are responsible for the deviation of the penetration curve from the previous modelling that agrees with a 1/Vw scaling law.
Journal ArticleDOI
Implementation of real-time multiple reflection and Fresnel absorption of laser beam in keyhole
Jungho Cho,Suck-Joo Na +1 more
TL;DR: In this article, a computational analysis of laser keyhole welding is achieved, where multiple reflection and Fresnel absorption are implemented simultaneously with the proposed ray tracing technique in a discrete grid cell system during the simulation for every single time step.
References
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Book
Numerical heat transfer and fluid flow
TL;DR: In this article, the authors focus on heat and mass transfer, fluid flow, chemical reaction, and other related processes that occur in engineering equipment, the natural environment, and living organisms.
Journal ArticleDOI
Fronts propagating with curvature-dependent speed: algorithms based on Hamilton-Jacobi formulations
Stanley Osher,James A. Sethian +1 more
TL;DR: The PSC algorithm as mentioned in this paper approximates the Hamilton-Jacobi equations with parabolic right-hand-sides by using techniques from the hyperbolic conservation laws, which can be used also for more general surface motion problems.
Journal ArticleDOI
A level set approach for computing solutions to incompressible two-phase flow
TL;DR: A level set method for capturing the interface between two fluids is combined with a variable density projection method to allow for computation of two-phase flow where the interface can merge/break and the flow can have a high Reynolds number.
A level set approach for computing solutions to incompressible two- phase flow II
TL;DR: In this article, a level set method for capturing the interface between two fluids is combined with a variable density projection method to allow for computation of two-phase flow where the interface can merge/break and the flow can have a high Reynolds number.
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