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The Mechanisms of Metallurgical Failure
On the Origin of Fracture
Looks at the origin of metal defects, their related mechanisms of failure, and the modification of casting procedures to eliminate these defects, clearly connecting the strength and durability of metals with their fabrication process
John Campbell (Author)
9780128224113, Elsevier Science
Paperback, published 21 May 2020
320 pages, 125 illustrations (25 in full color)
22.9 x 15.1 x 2.1 cm, 0.52 kg
Metallurgy of Fracture: The Mechanics of Metal Failure looks at the origin of metal defects, their related mechanisms of failure, and the modification of casting procedures to eliminate these defects, clearly connecting the strength and durability of metals with their fabrication process. The book starts with a focus on the fracture of liquids, looking at topics such as homogeneous and heterogeneous nucleation, entrainment processes in bifilms and bubbles, furling and unfurling, ingot casting, continuous casting, and more. From there it discusses fracture of liquid and solid state, focusing on topics such as externally and internally initiated tearing. The book then concludes with a section discussing fracture of solid metals covering concepts such as ductility and brittleness, dislocation mechanisms, the relationship between the microstructure and properties of metals, corrosion, hydrogen embrittlement, and more. Improved approaches to fabrication and casting processes that will help eliminate these defects are provided throughout.
1. Theoretical Strength of Liquids 2. Non-Classical Mechanisms of Fracture in Metals 3. Experimental Hydrostatic Tensions in Liquids 4. Entrainment Processes 5. Entrainment Avoidance 6. The Quest for Clean Steels 7. Externally Initiated Tearing 8. Internally Initiated Tearing 9. The Concepts of Ductility and Brittleness 10. Theoretical Strength of the Solid 11. Theoretical Strength Summary 12. Consolidation 13. Microstructure and Properties of Metals
Subject Areas: Materials science [TGM], Mechanical engineering [TGB]
