Understanding how components fail / Donald J. Wulpi.
1999
TA460 .W85 1999
Formats
| Format | |
|---|---|
| BibTeX | |
| MARCXML | |
| TextMARC | |
| MARC | |
| DublinCore | |
| EndNote | |
| NLM | |
| RefWorks | |
| RIS |
Linked e-resources
Details
Title
Understanding how components fail / Donald J. Wulpi.
Author
Edition
2nd ed.
ISBN
9781615030712 (electronic bk.)
1615030719 (electronic bk.)
0871706318
9780871706317
1615030719 (electronic bk.)
0871706318
9780871706317
Imprint
Materials Park, OH : ASM International, 1999.
Language
English
Description
1 online resource (x, 293 pages) : illustrations
Call Number
TA460 .W85 1999
System Control No.
(OCoLC)607740860
Summary
Annotation Since metal components have not stopped failing since the first edition (date unspecified), this Fort Wayne, Indiana metallurgical consultant updates his coverage of the principles of failure analysis --which is compared to performing forensic autopsies--and prevention. The 15 chapters address such topics as: the techniques of failure analysis, failures due to distortion and various fracture modes (replete with bandw photos of examples), mechanical properties, and fracture mechanics. Appends information on fracture mechanics concepts, and a glossary of specialized terms from addendum to Young's modules. Annotation copyrighted by Book News, Inc., Portland, OR.
Note
Annotation Since metal components have not stopped failing since the first edition (date unspecified), this Fort Wayne, Indiana metallurgical consultant updates his coverage of the principles of failure analysis --which is compared to performing forensic autopsies--and prevention. The 15 chapters address such topics as: the techniques of failure analysis, failures due to distortion and various fracture modes (replete with bandw photos of examples), mechanical properties, and fracture mechanics. Appends information on fracture mechanics concepts, and a glossary of specialized terms from addendum to Young's modules. Annotation copyrighted by Book News, Inc., Portland, OR.
Bibliography, etc. Note
Includes bibliographical references.
Formatted Contents Note
Techniques of Failure Analysis
Procedure for Failure Analysis
Investigative Techniques
Normal Location of Fracture
Questions to Ask about Fractures
Distortion Failures
Types of Distortion Failure
Temporary Distortion
Permanent Distortion
Basic Single-Load Fracture Modes
Shear Mode
Cleavage Mode
Other Fracture Modes
Factors Affecting the Ductile Brittle Relationship
Stress Systems Related to Single-Load Fracture of Ductile and Brittle Metals
Pure Loading Systems
Tension Loading
Torsional Loading
Compression Loading
Bending Loading
Fatigue
Mechanical Properties
Elastic and Plastic Deformation
Effect of Temperature
Nonlinear Behavior
Bidirectional Stresses
Effect of Stress Concentrations
Stress Versus Strength
Elastic Stress Distributions for Simple Shapes
Residual Stresses
Thermal Residual Stresses
Metallurgical Residual Stresses
Mechanical Residual Stresses
Chemical Effects on Residual Stresses
Helpful Hints
Brittle Fracture
Brittle Fracture of Normally Ductile Steels
Characteristics of Brittle Fracture
Microstructural Aspects of Brittle Fracture
Combined Fracture Modes
Ductile Fracture
Characteristics of Ductile Fracture
Microstructural Aspects of Ductile Fracture
Cautions in Interpretation
Fatigue Fracture
Stages of Fatigue Fracture
Microscopic Characteristics of Fatigue Fracture
Macroscopic Characteristics of Fatigue Fracture
Lack of Deformation
Beachmarks
Ratchet Marks.
Procedure for Failure Analysis
Investigative Techniques
Normal Location of Fracture
Questions to Ask about Fractures
Distortion Failures
Types of Distortion Failure
Temporary Distortion
Permanent Distortion
Basic Single-Load Fracture Modes
Shear Mode
Cleavage Mode
Other Fracture Modes
Factors Affecting the Ductile Brittle Relationship
Stress Systems Related to Single-Load Fracture of Ductile and Brittle Metals
Pure Loading Systems
Tension Loading
Torsional Loading
Compression Loading
Bending Loading
Fatigue
Mechanical Properties
Elastic and Plastic Deformation
Effect of Temperature
Nonlinear Behavior
Bidirectional Stresses
Effect of Stress Concentrations
Stress Versus Strength
Elastic Stress Distributions for Simple Shapes
Residual Stresses
Thermal Residual Stresses
Metallurgical Residual Stresses
Mechanical Residual Stresses
Chemical Effects on Residual Stresses
Helpful Hints
Brittle Fracture
Brittle Fracture of Normally Ductile Steels
Characteristics of Brittle Fracture
Microstructural Aspects of Brittle Fracture
Combined Fracture Modes
Ductile Fracture
Characteristics of Ductile Fracture
Microstructural Aspects of Ductile Fracture
Cautions in Interpretation
Fatigue Fracture
Stages of Fatigue Fracture
Microscopic Characteristics of Fatigue Fracture
Macroscopic Characteristics of Fatigue Fracture
Lack of Deformation
Beachmarks
Ratchet Marks.
Access Note
Restrictions unspecified
Reproduction
Electronic reproduction. [Place of publication not identified] : HathiTrust Digital Library, 2010.
System Details Note
Master and use copy. Digital master created according to Benchmark for Faithful Digital Reproductions of Monographs and Serials, Version 1. Digital Library Federation, December 2002. (http://purl.oclc.org/DLF/benchrepro0212)
Digital File Characteristics
data file
Source of Description
Print version record.
Available in Other Form
Print version: Wulpi, Donald J. Understanding how components fail. 2nd ed. Materials Park, OH : ASM International, 1999
Linked Resources
Record Appears in