Laser Processing: Surface Treatment and Film Deposition by J. MazumderLaser Processing: Surface Treatment and Film Deposition by J. Mazumder

Laser Processing: Surface Treatment and Film Deposition

EditorJ. Mazumder, O. Conde, R. Vilar

Paperback | October 5, 2011

Pricing and Purchase Info


Earn 645 plum® points

Prices and offers may vary in store


In stock online

Ships free on orders over $25

Not available in stores


Synthesis of nonequilibrium metallic phases has been an area of great interest to the materials processing community since early 1960. Inherent rapid cooling rates in laser processing are being used to engineer non-equilibrium microstructures which cannot be rivaled by other processes. This lecture will discuss the phenomena involved and its application in designing materials with tailored properties. What is non-equilibrium Synthesis? This is a synthesis method to produce binary or higher order materials where kinetics of the pro­ cess affects the transport of the constituent elements during phase transformation resulting in a composition or crystallographic configuration which is different from what is observed when the elements arranges themselves with the lowest possible Gibbs Free energy, which is the equilibrium condition. Figure 1 illustrates the phenomena. Phase diagram under equilibrium condition is illustrated by the solid line whereas the no-equilibrium phase diagram is represented by the dotted line. One can observe the shrinkage of the phase field under non-equilibrium condition. Any alloy composition between the solidus lines of the equilibrium and non-equilibrium phase diagram will be a non­ equilibrium alloys with extended solid solution.
Title:Laser Processing: Surface Treatment and Film DepositionFormat:PaperbackPublished:October 5, 2011Publisher:Springer NetherlandsLanguage:English

The following ISBNs are associated with this title:

ISBN - 10:9401065721

ISBN - 13:9789401065726

Look for similar items by category:


Table of Contents

Introduction. Graduate Students' Report. 1: Overview and Fundamentals. 2: Mathematical Modeling. 3: Laser Alloying. 4: Laser Cladding. 5: Surface Treatment. 6: Laser Thin Film Deposition. 7: Laser Ablation. 8: Application to Industry.