Applications of field-ion microscopy in physical metallurgy and corrosion
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Applications of field-ion microscopy in physical metallurgy and corrosion

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Published by Advanced Research Projects Agency and the Georgia Institute of Technology Foundation in Atlanta, Ga .
Written in English

Subjects:

  • Microscope and microscopy,
  • Metallurgical research

Book details:

Edition Notes

Statementedited by R.F. Hochman ... [et. al.].
ContributionsHochman, R. F.
The Physical Object
Paginationviii, 497 p. :
Number of Pages497
ID Numbers
Open LibraryOL16548319M

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Physical Metallurgy and Advanced Materials: Edition 7 - Ebook written by R. E. Smallman, A.H.W. Ngan. Read this book using Google Play Books app on your PC, android, iOS devices. Download for offline reading, highlight, bookmark or take notes while you read Physical Metallurgy and Advanced Materials: /5(2). Abstract. During the past decade analytical field-ion microscopy comprising field-ion microscopy (FIM) in combination with single-atom mass spectroscopy (atom-probe techniques) has been developed to become a powerful micro analytical tool in physical metallurgy, particularly suited to the detection of ultra-fine defects in metals and alloys, and to the analysis of their by: A high-voltage field ion microscope has been operated at up to 45 kV, giving an increased field of view. (Author) Applications of field-ion microscopy in physical metallurgy and corrosion by Robert F Hochman (Book). Michael Oehring works in the physical metallurgy group at the Institute of Materials Research in Geesthacht. He received his Ph.D. in from the University of Gottingen, Germany, where he remained until , working in the area of field ion microscopy.

applications of electron microscopy in materials and metallurgical engineering a term paper presented in partial fulfilment of the requirements for the postgraduate course mme [electon optics and microscopy] by mark, udochukwu submitted to engr. prof. o. o. onyemaobi [examiner] department of materials and metallurgical engneering. Modern Physical Metallurgy and Materials Engineering: Edition 6 - Ebook written by R. E. Smallman, R J Bishop. Read this book using Google Play Books app on your PC, android, iOS devices. Download for offline reading, highlight, bookmark or take notes while you read Modern Physical Metallurgy and Materials Engineering: Edition /5(2). More than fifty years have passed since Müller et al. invented the atom-probe field ion microscope (APFIM) in (Müller et al., ).The APFIM was originally developed as a tool for surface science; however, from the emerging stage of the technique, physical metallurgists realized that its use could solve many critical problems on the microstructures of metallic materials, in particular Cited by: 2.   Modern Physical Metallurgy, Fourth Edition discusses the fundamentals and applications of physical metallurgy. The book is comprised of 15 chapters that cover the experimental background of a metallurgical phenomenon. and fracture, while the last chapter covers oxidation and Edition: 4.

UG Department: Metallurgical and Materials Engineering Course Code:MTT Course Name: Physical Metallurgy of Field ion microscopy and Electron probe microanalysis. Books: 1. V.T. Cherepin and , Experimental Techniques in Physical Metallurgy, Asia Pub. House. 2. Gareth Thomas, Transmission electron microscopy of metals, John File Size: KB. All chapters have been revised and expanded, either by the fourth edition authors alone or jointly with new co-authors. Chapters have been added on the physical metallurgy of light alloys, the physical metallurgy of titanium alloys, atom probe field ion microscopy, computational metallurgy, and orientational imaging : Elsevier Science. Field Ion Microscopy The fi eld ion microscope (FIM) has atomic resolution and the ability to conduct chemical analysis of individual atoms, resulting in many appli cations [ 17 ].Author: C. Suryanarayana.   Michael Oehring works in the physical metallurgy group at the Institute of Materials Research in Geesthacht. He received his Ph.D. in from the University of Gottingen, Germany, where he remained until , working in the area of field ion : Fritz Appel.