Structure-Property Relationships in Surface-Modified Ceramics

Structure-Property Relationships in Surface-Modified Ceramics edited by C.J. McHargue, R. Kossowsky, Wolfgang O. Hofer.

The use of ion beams for the modification of the structure and properties of the near-surface region of ceramics began in earnest in the early 19805. Since the mechanical properties of such materials are dominated by surface flaws and the surface stress state, the use of surface modification tech­ n...

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Bibliographic Details
Corporate Author: SpringerLink (Online service)
Other Authors: McHargue, C.J (Editor), Kossowsky, R. (Editor), Hofer, Wolfgang O. (Editor)
Format: eBook
Language:English
Published: Dordrecht : Springer Netherlands : Imprint: Springer, 1989.
Edition:1st ed. 1989.
Series:Nato Science Series E:, Applied Sciences, 170
Springer eBook Collection.
Subjects:
Materials science.
Materials—Surfaces.
Thin films.
Physical chemistry.
Electronic resources (E-books)
Online Access:Click to view e-book
Holy Cross Note:Loaded electronically.
Electronic access restricted to members of the Holy Cross Community.
Table of Contents:
  • I. Introduction and Fundamentals
  • Properties Of Ceramics and their Study by Computer Simulation Methods...
  • Disorder, Randomness, and Amorphous Phases
  • The Displacement Cascade in Solids
  • Ion Energy Dissipation and Sputtering during Bombardment of Multicomponent Materials
  • Mechanisms of Ion Beam Mixing
  • Ion Beam Mixing Of Metals and Ceramics — Material Considerations
  • The Role of Chemical Driving Forces in Bombardment-Induced Compositional change
  • II. Ion-Beam Produced Microstructures
  • Defect Creation In Ion Bombarded Ceramics
  • Ion Beam-induced Crystalline to Amorphous Transformations in Ceramic Materials
  • Ion Beam Mixing At Metal/A1203 Interfaces
  • Ion Beam Mixing of Fe in Si02: Structural and Optical Properties
  • Ion-Beam Alloying and Thermochemistry of Ceramics at High Temperatures
  • Mossbauer Spectroscopy of Iron Implanted In Zirconia
  • Ion Irradiation Studies of Oxide Ceramics
  • Furnace Annealing of Sapphire Surfaces Amorphised by Ion Implantation
  • III. Properties of Ion-Beam Modified Ceramics
  • The Mechanical Properties of Ion Implanted Ceramics
  • Tribological Properties of Ion Beam Modified Ceramics at Elevated Temperatures
  • Thin Film and Near Surface Characterization Using Indentation Systems
  • Tribological Properties of Ceramics Modified by Ion Implantation and by Ion Beam-Assisted Deposition of Organic Material
  • Modified Pull Test for the Testing of Very Adherent Films
  • Ion Irradiation of Polymer-Derived Graphitic Carbons
  • Chemical Properties of Ion Implanted Ceramics
  • Effects of Ion Beam Processing on Optical Properties
  • Characterization of Planar Optical Waveguides in Ion-Implanted Quartz
  • Fabrication of Electrooptical Waveguides by Means of Ion Implantation
  • Ion Implantation of Electro-Optical Ceramics
  • IV. Ion-Beam Assisted Deposition
  • Plasma- and Ion-Beam Assisted Physical Vapor Deposition Processes and Materials
  • Ion Beam Assisted Deposition of Thin Films and Coatings
  • Ion-Beam Induced Diamond-Like Carbon Coatings
  • Ion Beam Analysis and Modification of Thin-Film, High-Temperature Superconductors
  • Simulation of Plasma Induced Material Damage With H-Ion Beams
  • List of Participants (with address)
  • Author Index.

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