The Resource Nanoindentation, Anthony C. Fischer-Cripps

Nanoindentation, Anthony C. Fischer-Cripps

Label
Nanoindentation
Title
Nanoindentation
Statement of responsibility
Anthony C. Fischer-Cripps
Creator
Subject
Language
eng
Cataloging source
DLC
Illustrations
illustrations
Index
index present
LC call number
TA410
LC item number
.F57 2011
Literary form
non fiction
Nature of contents
bibliography
Series statement
Mechanical engineering series
Label
Nanoindentation, Anthony C. Fischer-Cripps
Publication
Bibliography note
Includes bibliographical references and index
http://library.link/vocab/branchCode
  • net
Contents
  • Contents note continued: 10.2.ISO 14577 -- 10.2.1.ISO 14577 Part 1: Test Method -- 10.2.2.ISO 14577 Part 2: Verification and Calibration of Machines -- 10.2.3.ISO-14577 Part 3: Calibration of Reference Blocks -- 10.2.4.ISO 14577 Part 4: Test Method for Coatings -- References -- 11.Nanoindentation Instrumentation -- 11.1.Specifications of Nanoindentation Test Instruments -- 11.2.Head Design -- 11.2.1.Actuator -- 11.2.2.Force Measurement -- 11.2.3.Depth Measurement -- 11.3.Frame Construction -- 11.4.Specimen Positioning -- 11.5.Imaging -- 11.6.Scratch Testing -- References -- 12.Applications of Nanoindentation -- 12.1.Introduction -- 12.2.Fused Silica -- 12.3.Titanium Dioxide Thin Film -- 12.4.Superhard Thin Film -- 12.5.Diamond-like Carbon (DLC) Thin Film -- 12.6.Creep in Polymer Film -- 12.7.Fracture and Delamination of a Silicon Oxide Film -- 12.8.High-temperature Testing -- 12.9.Adhesion Measurement -- 12.10.Dynamic Hardness -- 12.11.Repeatability Testing -- 12.12.Bone --
  • Contents note continued: 12.13.AFM Imaging -- 12.14.Conductive Nanoindentation -- 12.15.Thermal Barrier Coating -- 12.16.Hardness of Diamond -- 12.17.Variation in H/Er with Temperature -- 12.18.Impact Indentation of Wear Resistant Coatings -- 12.19.Mechanical Property Mapping -- 12.20.Other Applications -- References -- 13.Appendices 1--7 -- 13.1.Elastic Indentation Stress Fields -- 13.1.1.Contact Pressure Distributions -- 13.1.2.Indentation Stress Fields -- 13.2.Surface Forces, Adhesion and Friction -- 13.2.1.Adhesion Forces in Nanoindentation -- 13.2.2.Forces in Nature -- 13.2.3.Interaction Potentials -- 13.2.4.Van der Waals Forces -- 13.2.5.Surface Interactions -- 13.2.6.Adhesion -- 13.2.7.Friction -- 13.3.Common Indenter Geometries -- 13.3.1.Berkovich Indenter -- 13.3.2.Vickers Indenter -- 13.3.3.Knoop Indenter -- 13.3.4.Sphero-Conical Indenter -- 13.4.Non-linear Least Squares Fitting -- 13.5.Properties of Materials -- 13.6.Frequently Asked Questions --
  • Contents note continued: 13.7.Specifications for a Nanoindenter -- 13.7.1.Instrument Function -- 13.7.2.Basic Specifications and Construction -- 13.7.3.Specimen Positioning -- 13.7.4.Specimen Mounting -- 13.7.5.Optical Microscope and Imaging -- 13.7.6.Software -- 13.7.7.Accessories -- 13.7.8.Instrument Mounting and Isolation -- 13.7.9.Delivery, Calibration and Warranty -- 13.7.10.Instrument/Supplier Checklist -- References
  • Contents note continued: 3.2.1.Cylindrical Punch Indenter -- 3.2.2.Conical Indenter---Cylindrical Punch Approximation -- 3.2.3.Spherical Indenter -- 3.2.4.Berkovich Indenter -- 3.2.5.Knoop Indenter -- 3.2.6.Effective Indenter Shape -- 3.2.7.Energy Methods -- 3.2.8.Dynamic Methods -- 3.2.9.Other Methods of Analysis -- References -- 4.Factors Affecting Nanoindentation Test Data -- 4.1.Introduction -- 4.2.Thermal Drift -- 4.3.Initial Penetration Depth -- 4.4.Instrument Compliance -- 4.5.Indenter Geometry -- 4.6.Piling-Up and Sinking-In -- 4.7.Indentation Size Effect -- 4.8.Surface Roughness -- 4.9.Tip Rounding -- 4.10.The Plastic Depth -- 4.11.Residual Stresses -- 4.12.Friction and Adhesion -- 4.13.Specimen Preparation -- References -- 5.Simulation of Nanoindentation Test Data -- 5.1.Introduction -- 5.2.Spherical Indenter -- 5.3.Berkovich Indenter -- 5.4.Conical and Power Law Indenters -- 5.5.Finite Element Analysis -- 5.6.Comparison of Simulated and Experimental Data --
  • Contents note continued: References -- 6.Scaling Relationships in Nanoindentation -- 6.1.Scaling Relationships in Nanoindentation -- References -- 7.Time-dependent Nanoindentation -- 7.1.Introduction -- 7.2.Dynamic Indentation Testing -- 7.2.1.Single Frequency Dynamic Analysis -- 7.2.2.Multiple Frequency Dynamic Analysis -- 7.3.Creep -- References -- 8.Nanoindentation of Thin Films and Small Volumes of Materials -- 8.1.Introduction -- 8.2.Testing of Thin Films -- 8.2.1.Elastic Modulus -- 8.2.2.Hardness -- 8.2.3.Film Adhesion -- 8.3.Scratch Testing -- 8.4.Small Volumes of Materials -- References -- 9.Other Techniques in Nanoindentation -- 9.1.Introduction -- 9.2.Acoustic Emission Testing -- 9.3.Constant Strain Rate Testing -- 9.4.Fracture Toughness -- 9.5.High-Temperature Nanoindentation Testing -- 9.6.Strain-hardening Exponent -- 9.7.Impact -- 9.8.Residual Stress -- 9.9.Surface Forces -- References -- 10.Nanoindentation Test Standards -- 10.1.Nanoindentation Test Standards --
  • Machine generated contents note: 1.Contact Mechanics -- 1.1.Introduction -- 1.2.Elastic Contact -- 1.3.Geometrical Similarity -- 1.4.Elastic-Plastic Contact -- 1.4.1.The Constraint Factor -- 1.4.2.Indentation Response of Materials -- 1.4.3.Elastic-Plastic Stress Distribution -- 1.4.4.Hardness Theories -- 1.5.Indentations at the Nanometre Scale -- References -- 2.Nanoindentation Testing -- 2.1.Nanoindentation Test Data -- 2.2.Indenter Types -- 2.3.Indentation Hardness and Modulus -- 2.3.1.Spherical Indenter -- 2.3.2.Vickers Indenter -- 2.3.3.Berkovich Indenter -- 2.3.4.Cube Corner Indenter -- 2.3.5.Knoop Indenter -- 2.4.Load-Displacement Curves -- 2.5.Experimental Techniques -- 2.5.1.Instrument Construction and Installation -- 2.5.2.Indenters -- 2.5.3.Specimen Mounting -- 2.5.4.Working Distance and Initial Penetration -- 2.5.5.Test Cycles -- References -- 3.Analysis of Nanoindentation Test Data -- 3.1.Analysis of Indentation Test Data -- 3.2.Analysis Methods --
Control code
000048108438
Dimensions
25 cm
Edition
3rd ed
Extent
xxii, 279 p.
Isbn
9781441998712
Lccn
2011933910
Other physical details
ill.
http://library.link/vocab/recordID
.b26197042
System control number
  • (OCoLC)756044013
  • springer1441998713

Library Locations

    • Deakin University Library - Geelong Waurn Ponds CampusBorrow it
      75 Pigdons Road, Waurn Ponds, Victoria, 3216, AU
      -38.195656 144.304955
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