Autore	Messler Robert W. <1942->
Pubbl/distr/stampa	Amsterdam ; ; Boston, : Butterworth-Heinemann, c2006
Descrizione fisica	1 online resource (427 p.)
Disciplina	621.88
Soggetto topico	Joints (Engineering) Adhesive joints
Soggetto genere / forma	Electronic books.
ISBN	1-280-64267-X 9786610642670 0-08-046141-7
Formato	Materiale a stampa
Livello bibliografico	Monografia
Lingua di pubblicazione	eng
Nota di contenuto	Front cover; Title page; Copyright; Table of contents; Front matter; Preface; 1 Introduction to Integral Mechanical Attachment; 1.1 The Oldest Method of Joining: Using Natural Shapes and Forms; 1.2 The Process Evolves, But Not Much!; 1.3 Integral Attachment: A Form of Mechanical Joining; 1.4 Integral Mechanical Attachment vs. Mechanical Fastening and Fasteners; 1.5 Advantages of Integral Mechanical Attachment; 1.6 Potential Shortcomings of Integral Attachment; 1.7 Summary; References; 2 Classification and Characterization of Integral Mechanical Attachments; 2.1 Why Classify Things at All? 2.2 Integral Attachment's Place Within the Taxonomy of Joining Processes and Methods2.3 A Classification Scheme for Integral Attachments Based on Feature Character or Operation; 2.4 An Alternative Classification Scheme Based on Method of Feature or Joint Creation; 2.6 Forces and Motions for Assembly of Rigid and Elastic Interlocks; 2.7 Plastic Attachment Methods; 2.8 Attachment Methods Versus Materials: Is It That Simple?; 2.9 Summary; References; 3 Rigid Integral Mechanical Attachments or Interlocks; 3.1 How Rigid Interlocks Work; 3.2 Sub-Classification Schemes for Rigid Interlocks 3.3 Completely Rigid Interlocking Joint Elements or Completely Rigid Joints3.4 Integral Rigid Locking Features; 3.5 Integral Rigid Attachment Features; 3.6 Embedded Rigid Fasteners; 3.7 Rigid Couplings and Connectors; 3.8 Rigid Locating Features (or Locators) for Elastic Snap-Fit Assembly; 3.9 Joint and Attachment Feature Permanency; 3.10 Summary; References; 4 Elastic Integral Mechanical Attachments or Interlocks; 4.1 How Elastic Interlocks Work; 4.2 Sub-Classification of Elastic Interlocks; 4.3 Elastic Integral Snap-Fits Used in Assembly of Plastic Parts; 4.4 Design Analysis for Snap-Fits 4.5 Combining Assembly Motions for Snap-Fit Assembly Security4.6 Snap-Fit Feature Enhancements; 4.7 Hook-and-Loop Attachments; 4.8 Other Elastic Attachment Methods; References; 5 Plastic (Formed-In) Integral Mechanical Attachments or Interlocks; 5.1 How Plastic (Formed-In) Interlocks Work; 5.2 Sub-Classification of Plastic (Formed-In) Interlocks; 5.3 Setting and Staking; 5.4 Metal Stitching and Metal Clinching; 5.6 Crimping and Hemming; 5.7 Thermal Staking; 5.9 Summary; References; 6 Integral Mechanical Attachment Classification Revisited 6.1 Comparison of Methods: Relative Advantages and Disadvantages6.2 Classification of Integral Mechanical Attachment Methods; 6.3 Correlations Between Joint Materials and Attachment Methods; 6.4 Summary; 7 Metal Attachment Schemes and Attachments; 7.1 Properties of Metals That Facilitate Integral Mechanical Attachment; 7.2 Sheet-Metal Attachment Schemes and Attachments; 7.3 Casting Attachment Schemes and Attachments; 7.4 Extrusion Attachment Schemes and Attachments; 7.5 Forging Attachment Schemes and Attachments; 7.6 Machined Attachments; 7.7 Summary; References; Bibliography 8 Polymer Attachment Schemes and Attachments
Record Nr.	UNINA-9910457989503321

Autore	Messler Robert W. <1942->
Edizione	[1st ed.]
Pubbl/distr/stampa	New York, : John Wiley, c1999
Descrizione fisica	1 online resource (688 p.)
Disciplina	671.5/2 671.52
Soggetto topico	Welding Metal bonding
ISBN	1-281-84309-1 9786611843090 3-527-61748-5 3-527-61749-3
Formato	Materiale a stampa
Livello bibliografico	Monografia
Lingua di pubblicazione	eng
Nota di contenuto	PRINCIPLES OF WELDING Processes, Physics, Chemistry, and Metallurgy; CONTENTS; PREFACE; I THE PROCESS AND PROCESSES OF WELDING; 1 INTRODUCTION TO THE PROCESS OF WELDING; 1.1 What Is Welding?; 1.2 The Evolution of Welding as a Process; 1.3 The Nature of an Ideal Weld: Achieving Continuity; 1.4 Impediments to Making Ideal Welds in the Real World; 1.5 What It Takes to Make a Real Weld; 1.6 Advantages and Disadvantages of Welding; 1.7 Summary; References and Suggested Reading; 2 CLASSIFYING WELDING PROCESSES; 2.1 Why Classify Processes?; 2.2 Mechanisms for Obtaining Material Continuity 2.3 The Roles of Temperature and Pressure2.4 Alternative Bases for Classification; 2.4.1 Fusion Versus Nonfusion; 2.4.2 Pressure Versus Nonpressure; 2.4.3 Energy Sources for Welding; 2.4.4 Interface Relationships and Classification by Energy Transfer Processes; 2.4.5 Other Bases for Classification and Subclassification; 2.5 Allied Processes; 2.6 The AWS Classification Scheme; 2.7 Summary; References and Suggested Readings; 3 FUSION WELDING PROCESSES; 3.1 General Description of Fusion Welding Processes; 3.2 Chemical Fusion Welding Processes; 3.2.1 Oxyfuel Gas Welding 3.2.2 Aluminothermic Welding3.3 Electric Arc Welding Processes; 3.3.1 Nonconsumable Electrode Arc Welding Processes; 3.3.1.1 Gas-Tungsten Arc Welding; 3.3.1.2 Plasma Arc Welding; 3.3.1.3 Magnetically Impelled Arc Butt Welding; 3.3.2 Consumable Electrode Arc Welding Processes; 3.3.2.1 Gas-Metal Arc Welding; 3.3.2.2 Shielded-Metal Arc Welding; 3.3.2.3 Flux-Cored Arc Welding; 3.3.2.4 Submerged Arc Welding; 3.3.2.5 Electrogas Welding; 3.3.2.6 Electroslag Welding; 3.4 Resistance Welding Processes; 3.4.1 Resistance Spot, Resistance Seam, and Projection Welding 3.4.2 Flash, Upset, and Percussion Welding3.5 High-Intensity Radiant Energy or High-Density Beam Welding Processes; 3.5.1 High-Energy-Density (Laser and Electron) Beam Welding Processes; 3.5.2 Focused IR and Imaged Arc Welding; 3.5.3 Microwave Welding; 3.6 Summary; References and Suggested Reading; 4 NONFUSION WELDING PROCESSES; 4.1 General Description of Nonfusion Welding Processes; 4.2 Pressure (Nonfusion) Welding Processes; 4.2.1 Cold Welding Processes; 4.2.2 Hot Pressure Welding; 4.2.2.1 Pressure Gas Welding; 4.2.2.2 Forge Welding; 4.2.3 Roll Welding; 4.2.4 Explosion Welding 4.3 Friction Welding Processes4.3.1 Radial and Orbital Welding; 4.3.2 Direct-Drive Versus Inertia-Drive (Friction) Welding; 4.3.3 Angular and Linear Reciprocating (Friction) Welding; 4.3.4 Ultrasonic (Friction) Welding; 4.3.5 Friction Stir Welding; 4.3.6 Friction Surfacing; 4.4 Diffusion Joining Processes; 4.4.1 Diffusion Welding; 4.4.1.1 Conventional Diffusion Welding; 4.4.1.2 Deformation Diffusion Welding; 4.4.1.3 Resistance Diffusion Welding; 4.4.1.4 Continuous Seam Diffusion Welding; 4.4.2 Diffusion Brazing; 4.4.3 Combined Forming and Diffusion Welding 4.5 Solid-state Deposition Welding Processes
Record Nr.	UNINA-9910144581403321

Autore	Messler Robert W. <1942->
Pubbl/distr/stampa	Burlington, Mass. ; ; Oxford, : Elsevier Butterworth-Heinemann, c2004
Descrizione fisica	1 online resource (815 p.)
Disciplina	621.88
Soggetto topico	Sealing (Technology) Joints (Engineering) Surfaces (Technology)
ISBN	1-4175-4436-8 1-281-00978-4 9786611009786 0-08-047884-0
Formato	Materiale a stampa
Livello bibliografico	Monografia
Lingua di pubblicazione	eng
Nota di contenuto	Cover; Contents; Preface; I. Joining Processes & Technologies; 1. Introduction to Joining: A Process and a Technology; 1.1 JOINING DEFINED; 1.2 REASONS FOR JOINING MATERIALS AND STRUCTURES; 1.3 CHALLENGES FOR JOINING MATERIALS; 1.4 CHALLENGES FOR JOINING STRUCTURES; 1.5 HOW JOINING IS CHANGING OR MUST CHANGE; 1.6 JOINING OPTIONS; 1.7 SOME KEY CONCEPTS RELATING TO JOINTS; 2. Mechanical Joining; 2.1 INTRODUCTION; 2.2 MECHANICAL JOINING AS AN ASSEMBLY PROCESS; 2.3 SOURCES AND TYPES OF JOINT LOADING; 2.4 SHEAR-LOADED FASTENED JOINTS; 2.5 TENSION-LOADED FASTENED JOINTS 2.6 FATIGUE LOADING OF FASTENED JOINTS2.7 OTHER FACTORS AFFECTING FASTENERS AND FASTENED JOINTS; 2.8 INTEGRALLY ATTACHED JOINTS; 3. Mechanical Fasteners, Integral Attachments, and Other Mechanical Joining Methods; 3.1 INTRODUCTION; 3.2 FASTENERS VERSUS INTEGRAL ATTACHMENTS OR INTERLOCKS; 3.3 THREADED FASTENERS; 3.4 UNTHREADED FASTENERS; 3.5 INTEGRAL MECHANICAL ATTACHMENTS; 3.6 OTHER MECHANICAL JOINING METHODS; 4. Adhesive Bonding and Cementing; 4.1 INTRODUCTION; 4.2 ADHESIVE BONDING AS A JOINING PROCESS; 4.3 MECHANISMS OF ADHESION; 4.4 FAILURE IN ADHESIVE-BONDED JOINTS 4.5 KEY REQUIREMENTS FOR QUALITY ADHESIVE BONDING4.6 ADHESIVE JOINT DESIGNS, DESIGN CRITERIA, AND ANALYSIS; 4.7 CEMENT AND MORTAR JOINING AND JOINTS; 5. Adhesives, Cements, Mortars, and the Bonding Process; 5.1 INTRODUCTION TO ADHESIVES, CEMENTS, MORTARS, AND THE BONDING PROCESS; 5.2 THE CONSTITUENTS OF ADHESIVES; 5.3 CLASSIFICATION SCHEMES FOR ADHESIVES; 5.4 IMPORTANT ORGANIC STRUCTURAL ADHESIVES; 5.5 IMPORTANT INORGANIC ADHESIVES, CEMENTS, AND MORTARS; 5.6 THE ADHESIVE BONDING PROCESS: STEPS AND EQUIPMENT; 5.7 ADHESIVE-BONDED JOINT PERFORMANCE 5.8 APPLICATIONS OF ADHESIVES, CEMENTS, AND MORTARS6. Welding as a Joining Process; 6.1 INTRODUCTION TO THE PROCESS OF WELDING; 6.2 JOINING MATERIALS BY NATURAL PHYSICAL FORCES: WELDING; 6.3 CLASSIFICATION SCHEMES FOR WELDING PROCESSES; 6.4 FUSION WELDING PROCESSES; 6.5 NON-FUSION WELDING PROCESSES; 6.6 WELD JOINT DESIGN; 7. Brazing: A Subclassification of Welding; 7.1 INTRODUCTION TO THE PROCESS OF BRAZING; 7.2 BRAZING AS A SUBCLASSIFICATION OF WELDING; 7.3 PRINCIPLES OF BRAZE PROCESS OPERATION; 7.4 BRAZING PROCESSES; 7.5 BRAZING FILLER MATERIALS; 7.6 BRAZING FLUXES AND ATMOSPHERES 7.7 BRAZE JOINT DESIGN8. Soldering: A Subset of Brazing; 8.1 INTRODUCTION TO THE PROCESS OF SOLDERING; 8.2 SOLDERING AS A JOINING PROCESS AND SUBSET OF BRAZING; 8.3 SOLDERING PROCESS CONSIDERATIONS; 8.4 SOLDERING PROCESSES; 8.5 SOLDERS AND BASIC SOLDER ALLOY METALLURGY; 8.6 FLUXES AND ATMOSPHERES FOR SOLDERING; 8.7 JOINT DESIGNS AND JOINT PROPERTIES FOR SOLDERING; 8.8 SOLDERABILITY TESTING; 9. The Basic Metallurgy of Welding, Brazing, and Soldering; 9.1 IMPORTANCE OF METALLURGY TO WELDING, BRAZING, AND SOLDERING; 9.2 WELDING THERMAL CYCLES AND HEAT FLOW AROUND WELDS 9.3 CONSIDERATIONS IN THE FUSION ZONE
Record Nr.	UNINA-9911006522403321