Principles of Welding: Processes, Physics, Chemistry, and Metallurgy, Volume 10
An advanced yet accessible treatment of the welding process and its underlying science.
Despite the critically important role welding plays in nearly every type of human endeavor, most books on this process either focus on basic technical issues and leave the science out, or vice versa. In Principles of Welding, industry expert and prolific technical speaker Robert W. Messler, Jr. takes an integrated approach--presenting a comprehensive, self-contained treatment of the welding process along with the underlying physics, chemistry, and metallurgy of weld formation.
Promising to become the standard text and reference in the field, this book provides an unprecedented broad coverage of the underlying physics and the mechanics of solidification--including peritectic and eutectic reactions--and emphasizes material continuity and bonding as a way to create a joint between materials of the same general class. The author supplements the book with hundreds of tables and illustrations, and correlates the science to welding practices in the real world.
Principles of Welding departs from existing books with its clear, unambiguous presentation, which is easily grasped even by undergraduate students, yet given at the advanced level required by experienced engineers.
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CLASSIFYING WELDING PROCESSES
FUSION WELDING PROCESSES
ENERGY FOR WELDING
14 other sections not shown
Advanced Materials alloys American Welding Society arc welding processes atoms austenite base material base metal brazing carbon cause chemical cold welding consumable electrode convection cooling rate corrosion cracking dendritic diffusion welding distortion edited by R. L. effect electrode electron beam equilibrium eutectic ferrite flux force formation friction welding fusion zone gases grain boundaries growth GTAW heat input heat source heat-affected zone hydrogen increases joint laser liquid martensite mechanical Messler metal arc Miami microstructure mode molten metal transfer nonequilibrium nucleation occurs oxide oxygen peritectic permission plasma plastic deformation pressure produce published in 1993 R. L. O'Brien reaction region residual stresses resistance result schematically in Figure Section shielding shielding gas shown in Figure shown schematically slag solid solid-liquid interface solidification solidus solute stainless steels strain structure submerged arc welding supercooling surface tension tensile transformation voltage weld metal weld pool Welding Handbook Welding Journal weldment workpiece
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