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Mobile Data Recovery Software Free Download Full Version.Format Recovery Software Free Download to Restore Formatted Files.Submitted to Massachusetts Institute of Technology, Cambridge, MA Country of Publication: United States Language: English Subject: 36 MATERIALS SCIENCE CHROMIUM-NICKEL STEELS MICROSTRUCTURE COOLING AUSTENITE CHEMICAL COMPOSITION DENDRITES DIFFUSION FABRICATION FERRITE FINITE ELEMENT METHOD GRAIN BOUNDARIES MAGNETIZATION NUCLEATION PHASE DIAGRAMS PHASE TRANSFORMATIONS SEGREGATION SOLIDIFICATION TERNARY ALLOY SYSTEMS THERMODYNAMICS WELDING X-RAY DIFFRACTION ALLOY SYSTEMS ALLOYS CARBON ADDITIONS CHROMIUM ALLOYS COHERENT SCATTERING CRYSTAL STRUCTURE CRYSTALS DIAGRAMS DIFFRACTION HIGH ALLOY STEELS IRON ALLOYS IRON BASE ALLOYS JOINING NICKEL ALLOYS NUMERICAL SOLUTION SCATTERING STAINLESS STEELS STEELS 360102* - Metals & Alloys- Structure & Phase Studies 360101 - Metals & Alloys- Preparation & Fabrication 360103 - Metals & Alloys- Mechanical =. Portions of this document are illegible in microfiche products. « lessĪuthors: Elmer, J W Publication Date: Research Org.: Lawrence Livermore National Lab., CA (USA) OSTI Identifier: 5678406 Report Number(s): UCRL-53934 ON: DE89016714 DOE Contract Number: W-7405-ENG-48 Resource Type: Technical Report Resource Relation: Other Information: Thesis (Ph.D.). These results were used to create diagrams to predict the primary mode of solidification, the ferrite content and the complex microstructural more » morphologies which develop as a function of interface velocity and composition. The microstructures that developed from each solidification condition were examined using optical metallography, electron microprobe analysis, scanning electron microscopy and a vibrating sample magnetometer. The resulting cooling rates were estimated from dendrite arm spacing measurements and were confirmed by heat flow modeling to vary from 7 /times/ 10/sup 0/ /degree/C/s to 8 /times/ 10/sup 6/ /degree/C/s. High speed electron beam surface melting was used to resolidify these alloys at scan speeds up to 5 m/s.
This investigation explores the influence of cooling rate on a series of seven ternary alloys which span the line of two-fold saturation in the Fe-Ni-Cr system. The microstructures which develop during these rapid cooling conditions may be significantly different from those which develop during low cooling rate conditions as the result of access to new metastable phases with the additional kinetic limitations that accompany rapid solidification. The emergence of high energy density welding, laser surface modification and rapid solidification as commonly used metallurgical processing techniques has greatly increased the range of cooling rates that can be accessed during the solidification of metals and alloys.