Weld Integrity and Performance by ASM International

Weld Integrity and Performance is an intensive handbook on conference proceedings, technical books, and handbooks of ASM International. The information source of the book is adapted articles from various ASM International publications. The article section contains information on the general topic of structural performance and weld integrity. Besides this, the manual comprises information on weld imperfections and cracking; weld solidification and weldability; weld failure analysis and prevention and general engineering properties of weldments.

The book is a stunning guide for students, practitioners, design engineers and manufacturing engineers involved in the development, application and welded structure assessments. It explains the causes of weld cracking, imperfections, inspection and evaluation. Further, it reveals the engineering properties of welds, prevention, and failure analysis.

Weld Integrity and Performance by ASM International

The following is all about the contents of the book.

Table of Contents:

I: Introduction

Chapter 1 – Weld Solidification

Solidification Behavior
Weld Grain Structure
Weld Pool Shape
Solute Segregation
Micro-structure of the Weld and Heat-Affected Zone
Effects of Welding on Microstructure
Welding Flaws

Chapter 2 – Weldability Testing

Tests for Cracking Susceptibility
Self-Restraint Tests
Externally Loaded Tests
Tests for Weld Pool Shape and Penetration
Gleeble Testing

II: Weld Imperfections and Cracking

Chapter 3 – Characterization of Welds

Nondestructive Characterization Techniques
Internal Characterization Requiring Destructive Procedures
Weld Macrostructure
Weld Microstructure
Composition of a Weld
Mechanical Testing
Weld Characterization Examples

Chapter 4 – Weld Discontinuities and Imperfections

Classification of Weld Discontinuities
Metallurgical Discontinuities
Discontinuities Associated with Specialized Welding Processes
Electron-Beam Welding
Plasma Arc Welding
Electroslag Welding
Friction Welding
Resistance Welding
Diffusion Welding
Base Metal Discontinuities
Methods of Testing

Chapter 5 – Cracking Phenomena Associated with Welding

Solidification Cracking (Hot Cracking)
Heat-Affected-Zone Cracks
Hydrogen-Induced Cracking (Cold Cracking)
Lamellar Tearing (Ref 9)

Chapter 6 – Inspection and Evaluation of Weldments

Applications
NDE Methods
Test Procedures
Test-Operator Training
NDE Performance
Evaluation of Test Results
Selection of the NDE Method
NDE Examples
Visual Inspection
Magnetic Particle Inspection
Liquid Penetrant Inspection
Radiographic Inspection
Ultrasonic Inspection
Acoustic Emission Monitoring

III: Weld Failure Analysis and Prevention

Chapter 7 – Fatigue and Fracture Control of Welds

Fracture Control Plans for Welded Steel Structures
Fatigue in Welded Joints
Fracture Control in Welded Structures
Codes and Standards
Fracture Mechanics
Methods for Fatigue Control

Chapter 8 – Factor Influencing Weldment Fatigue

Metallic Fatigue in Weldments
Effects of Weldment Geometry
Variables of Weldment Fatigue

Chapter 9 – Fracture Mechanics and Service-Fitness of Welds

Fracture Mechanics
Toughness Tests for Welds
Failure Assessment Diagrams
Fatigue Design
Environmental Cracking
High-Temperature Creep
Benefits of a Fitness-for-Service Approach

Chapter 10 – Repair Welding

Preliminary Assessment
Welding Process Selection
Base Metal Preparation
Guidelines for Various Base Metals

Chapter 11 – Corrosion of Weldments

Forms of Weld Corrosion
Welding Practice to Minimize Corrosion

Chapter 12 – Failure Analysis of Weldments

Analysis of Procedures
Failure Origins in Arc Welds
Failure Origins in Electroslag Welds
Failure Origins in Electrogas Welds
Failures in Resistance Welds
Failure Origins in Flash Welds
Failure Origins in Upset Butt Welds
Failure Origins in Friction Welds
Failure Origins in Electron Beam Welds
Failure Origins in Laser Beam Welds

IV: Engineering Properties of Welds

Chapter 13 – Properties of Carbon and Low-Alloy Steel Welds

Heat-Affected Zone
Effect of Alloying Elements on the HAZ
Controlling Toughness in the HAZ
Weld Metal
Single-Pass versus Multipass Welding
Effect of Welding Procedures on Weldment Properties
Fatigue Strength of Welded Structures
Fracture Toughness of Welded Structures
Effects of Residual Stresses on the Service Behavior of Welded Structures
Corrosion of Weldments

Chapter 14 – Properties of Stainless-steel Welds

Constitution Diagrams
Martensitic Stainless Steels
Ferritic Stainless Steel Welds
Austenitic Stainless Steels
Duplex Stainless Steels

Chapter 15 – Properties of Aluminum-Alloy Welds

Hot Tears
Weldability
Filler Alloy Selection
Properties
Fatigue Performance of Aluminum Welds

Chapter 16 – Properties of Titanium-Alloy Welds

Alloy Types and Weldability
Weld Solidification
Post-weld Heat Treatment
Titanium Weldment Properties
Welding Process Application

Chapter 17 – Properties of Nickel-Alloy Welds

General Welding Characteristics
Solid-Solution Nickel Alloys
Precipitation-Hardenable Nickel Alloys
Cast Nickel-Base Superalloys
Special Topics

Chapter 18 – Properties of Refractory Metal Welds

Tantalum Alloys
Rhenium Alloys
Molybdenum and Tungsten

Thus, Weld Integrity and Performance is a unique handbook for manufacturing engineers, design engineers, students, and practitioners. They can use it for reference while being on work.