Go to main content

Fracture mechanics of nonhomogeneous materials [electronic resource] / Licheng Guo, Yu Hongjun, Wu Linzhi.

Guo, Licheng, author.; Hongjun, Yu, author.; Linzhi, Wu, author.
2023
TA409
Available Online
Formats
Format
BibTeX
MARCXML
TextMARC
MARC
DublinCore
EndNote
NLM
RefWorks
RIS
Add to Basket
Cite
Citation

Linked e-resources

Linked Resource
Online Access
Concurrent users
Unlimited
Authorized users
Authorized users
Document Delivery Supplied
Can lend chapters, not whole ebooks

Details

Title
Fracture mechanics of nonhomogeneous materials [electronic resource] / Licheng Guo, Yu Hongjun, Wu Linzhi.
Author
Guo, Licheng, author.
ISBN
9789811940637
9811940630
9811940622
9789811940620
DOI
https://doi.org/10.1007/978-981-19-4063-7
Published
Singapore : Springer ; Beijing, China : Science Press, 2023.
Language
English
Description
1 online resource (xi, 274 pages) : illustrations (black and white, and colour).
Item Number
10.1007/978-981-19-4063-7 doi
Call Number
TA409
Dewey Decimal Classification
620.1/126
Summary
This book perfects the theoretical system of fracture mechanics of nonhomogeneous materials through the establishment of the piecewise exponential model and expands the fracture research scope to nonhomogeneous materials containing complex interfaces through proposing the domain-independent interaction integral concept. The piecewise exponential model has overcome the problem of fracture mechanics of nonhomogeneous materials and clarified the doubt of traditional exponential models in recent 30 years. The domain-independent interaction integral method is not affected by material nonhomogeneity and discontinuity, which greatly facilitates its numerical implementation in the investigation of fracture behaviors of nonhomogeneous materials with complex interfaces.
Note
3.4.2 Example 2: Mixed-Mode Crack Problem for Nonhomogeneous Materials with General Elastic Properties and an Arbitrarily Oriented Crack
Bibliography, etc. Note
Includes bibliographical references.
References -- 2 Exponential Models for Crack Problems in Nonhomogeneous Materials -- 2.1 Crack Model for Nonhomogeneous Materials with an Arbitrarily Oriented Crack -- 2.1.1 Basic Equations and Boundary Conditions -- 2.1.2 Full Field Solution for a Crack in the Nonhomogeneous Medium -- 2.1.3 Stress Intensity Factors (SIFs) and Strain Energy Release Rate (SERR) -- 2.2 Crack Problems in Nonhomogeneous Coating-Substrate or Double-Layered Structures -- 2.2.1 Interface Crack in Nonhomogeneous Coating-Substrate Structures -- 2.2.2 Cross -Interface Crack Parallel to the Gradient of Material Properties
Access Note
Access limited to authorized users.
Source of Description
Description based on print version record.
Added Author
Hongjun, Yu, author.
Linzhi, Wu, author.
Available in Other Form
Fracture Mechanics of Nonhomogeneous Materials
Linked Resources
Online Access
Record Appears in
Online Resources > Ebooks
All Resources
Intro
Preface
Contents
1 Fundamental Theory of Fracture Mechanics of Nonhomogeneous Materials
1.1 Internal Crack
1.1.1 Basic Equations for Nonhomogeneous Materials
1.1.2 Crack-Tip Fields for Homogeneous Materials
1.1.3 Crack-Tip Fields for Nonhomogeneous Materials
1.1.4 Crack-Tip Fields for Nonhomogeneous Orthotropic Materials
1.2 Interface Crack
1.2.1 Crack-Tip Fields of an Interface Crack
1.2.2 Crack-Tip Fields of an Interface Crack Between Two Nonhomogeneous Media
1.3 Three-Dimensional Curved Crack
1.3.1 Internal Crack
1.3.2 Interface Crack

2.2.3 Arbitrarily Oriented Crack in a Double-Layered Structure
2.3 Crack Problems in Orthotropic Nonhomogeneous Materials
2.3.1 Basic Equations and Boundary Conditions
2.3.2 Solutions to Stress and Displacement Fields
2.3.3 Crack-Tip SIFs
2.4 Transient Crack Problem of a Coating-Substrate Structure
2.4.1 Basic Equations and Boundary Conditions
2.4.2 Solutions to Stress and Displacement Fields
2.4.3 Crack-Tip SIFs
2.5 Representative Examples
2.5.1 Example 1: Arbitrarily Oriented Crack in an Infinite Nonhomogeneous Medium

2.5.2 Example 2: Interface Crack Between the Coating and the Substrate
2.5.3 Example 3: Cross-Interface Crack Perpendicular to the Interface in a Double-Layered Structure
2.5.4 Example 4: Inclined Crack Crossing the Interface
2.5.5 Example 5: Vertical Crack in a Nonhomogeneous Coating-Substrate Structure Subjected to Impact Loading
Appendix 2A
References
3 General Model for Nonhomogeneous Materials with General Elastic Properties
3.1 Piecewise-Exponential Model for the Mode I Crack Problem
3.1.1 Piecewise-Exponential Model (PE Model)

3.1.2 Solutions to Stress and Displacement Fields
3.1.3 Crack-Tip SIFs
3.2 PE Model for Mixed-Mode Crack Problem
3.2.1 Basic Equations and Boundary Conditions
3.2.2 Solutions to Stress and Displacement Fields
3.2.3 Crack-Tip SIFs
3.3 PE Model for Dynamic Crack Problem
3.3.1 Basic Equations and Boundary Conditions
3.3.2 Solutions to Stress and Displacement Fields
3.3.3 Crack-Tip SIFs
3.4 Representative Examples
3.4.1 Example 1: Mode I Crack Problem for Nonhomogeneous Materials with General Elastic Properties

Browse Subjects

Show more subjects...

Statistics

from
to
Export