Microstructural design by solidification processing
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Microstructural design by solidification processing proceedings of a symposium sponsored by the TMS Synthesis, Control, and Analysis in Materials Processing Committee held during Materials Week "92 in Chicago, Illinois, November 1-5, 1992 by

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Published by Minerals, Metals & Materials Society in Warrendale, Pa .
Written in English

Subjects:

  • Metals -- Rapid solidification processing -- Congresses,
  • Microstructure -- Congresses,
  • Alloys -- Congresses,
  • Solidification -- Congresses

Book details:

Edition Notes

Includes bibliographic references and indexes.

Statementedited by Enrique J. Lavernia and Mehmet N. Gungor.
ContributionsLavernia, Enrique J., Gungor, M. N., TMS Synthesis and Analysis in Materials Processing Committee.
Classifications
LC ClassificationsTS247 .M53 1992
The Physical Object
Paginationviii, 251 p. :
Number of Pages251
ID Numbers
Open LibraryOL1753986M
ISBN 100873391934
LC Control Number92083764
OCLC/WorldCa28905674

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  Purchase Alloy And Microstructural Design - 1st Edition. Print Book & E-Book. ISBN , Book Edition: 1. Microstructural evolution of the Al-Al 3 Ti composite deformed by FSP is investigated. Based on the distribution of the Al 3 Ti platelet particles, shear deformation behavior induced by FSP is discussed. The main results are as follows. (1) The Al 3 Ti particles are fragmented by the shear deformation induced by FSP. At the outside of the DXZ, the fragmented Al 3 Ti particles are aligned and.   The mode of solidification of cast component plays a major role in the microstructural development of the component, which consequently has a great influence on the material properties, the quality of cast component and the optimization of the production process (Kurz and Fisher, , Mohandass et al., ).Author: Samuel A. Awe. In addition, the moving heat source thermally affects prior layers as a function of spatial and temporal processing conditions. The solidification microstructural features depend mainly on the melt pool size and solidification conditions (i.e., thermal gradient (G) and solidification rate (R)).

microstructural morphology for different processing conditions. Furthermore, changes in the primary solidification mode were observed in alloys that lie on the chromium-rich side of. The microstructures that develop during the solidification of stainless steel alloys are related to the solidification conditions and the specific alloy composition. The solidification conditions are determined by the processing method,i.e., casting, welding, or rapid solidification, and by parametric variations within each of these techniques. One variable that has been used to characterize. Abstract. Research conducted over the past three decades has suggested that solidification processing of metals and alloys in a centrifuge can lead to enhanced materials properties. With the potential of such processing demonstrated, there exists a need for quantitative data gathered under controlled solidification conditions. To this end, a centrifuge, dedicated to materials research. Abstract. The Pb wt pct Sn alloys were directionally solidified at µm s −1 through a temperature gradient of ∼ K mm − the aid of a centrifuge, the solidifying dendritic interfaces were subjected to constant gravity levels, opposite to the growth direction, up to times that of Earth’s.

The solidification conditions are determined by the processing method,i.e., casting, welding, or rapid solidification, and by parametric variations within each of these techniques. (). Modelling of microstructure formation in solidification processes. International Materials Reviews: Vol. 34, No. 1, pp.   A thorough investigation of microstructure in solidification-processed Ti–6Al–4V was undertaken to establish the relationships between processing conditions and microstructural characteristics and to develop and/or assess modeling techniques for the prediction of microstructure. Search within book. Front Matter. Pages i-xix. PDF. Magnesium Technology History and Overview. Front Matter. Pages PDF. Magnesium Industry Growth in the Period. Robert E. Brown. Pages