The Mathematics of Thermal Modeling An Introduction to the Theory of Laser Material Processing
Auteur : Dowden John Michael
The use of lasers for various applications in materials processing has grown rapidly in recent years. Lasers are by nature particularly well suited to automation, but to ensure repeatability and reliability, the engineers employing them must not simply rely on numerical analysis software. They must have a firm grasp on the physical principles involved.
Mathematics of Thermal Modelling: An Introduction to the Theory of Laser Material Processing introduces the mathematics needed to formulate and exploit the physical principles important to modelling various aspects of laser material processing. The author shows how to gain insight by constructing and analyzing simple models. He demonstrates how to extract qualitative information from the models, how the underlying principles can be extended to more complex modelling, and how these principles can be applied to processes such as laser welding, surface treatment, drilling, and cutting.
Written at a level accessible to graduate students, this book shows that simple mathematical investigation-- based primarily on analytical methods backed by relatively simple numerical methods--can greatly illuminate the processes being studied. Regardless of the stage of your career development, if you are confronting the modelling of thermal process in this field for the first time, Mathematics of Thermal Modelling will build the foundation you need.
Thermal Modeling. Physical Principles. The Temperature in Blocks and Plates. Time Dependent Solutions in Blocks. Moving Boundary Problems. Simple Models of Laser Keyhole Welding. The Fluid Regions in Keyhole Welding.
Thermo-Elastic Problems.
Date de parution : 09-2019
15.6x23.4 cm
Disponible chez l'éditeur (délai d'approvisionnement : 14 jours).
Prix indicatif 74,82 €
Ajouter au panierDate de parution : 05-2001
Ouvrage de 306 p.
15.6x23.4 cm
Thèmes de The Mathematics of Thermal Modeling :
Mots-clés :
Line Source; Keyhole Wall; Weld Pool; Line Source Solution; Keyhole Welding; Incident Intensity; Point Source Solution; Molten Region; Laser Welding; TTE; Melting Boundary; Welding Speed; Stress Tensor; Point Source; Simple Model; Maximum Tensile Stress; Line Source Model; Stefan Problems; Laser Material Processing; Weld Width; Electron Beam Welding; Line Source Idea; Strain Tensor; Horizontal Length Scale; Stress Strain Relation