Selection Of Engineering Materials And Adhesives

Description:
Insufficient knowledge, time limitations, and budget constraints often result in poor material selection and implementation, which can lead to uncertain performance and premature failure of mechanical and electro-mechanical products. 'Selection of Engineering Materials and Adhesives' is a professional guide to choosing the most appropriate materials and adhesives for product development applications from the onset. This text emphasizes material properties and classifications, fabrication and processing considerations, performance objectives, and selection based on specific application requirements, such as frequency of use (duty cycle) and operating environment. Each chapter focuses on a particular material family, covering ferrous and non-ferrous metals, including steels, cast-iron, aluminum, and titanium, as well as plastics such as PVC, acrylics, and nylons.Unique to this book on material selection, the final chapter discusses critical aspects of adhesives, including cure methods and joint configurations. 'Selection of Engineering Materials and Adhesives' presents materials that are most often used for selection processes and applications in product development. This book is an ideal text for senior level undergraduate or graduate courses in mechanical engineering and materials science as well as recent graduates or managers who are tasked with the daunting job of selecting a material for a new application or justifying a long-used material in a specific application. It embodies the author's own experience and lectures on this subject, taught at UCLA Extension, and provides students as well as practicing engineers the tools to systematically select the most appropriate materials and adhesives for their design work.

Table of Contents:
INTRODUCTION TO MATERIAL SELECTION Design Methodology Selection Methodology Selection of Metals Selection of Plastics Selection of Adhesives Understanding Designs and Their Behavior STRUCTURE OF MATERIALS Atomic Elements and Structures The Atom and Subatomic Particles The Quantum Numbers Atomic Bonding Ionic Bonding Covalent Bonding Metallic Bonding Secondary Bonds Mixed Types Crystal Structure Lattice and Unit Cell Crystal Systems Miller Indices and Crystallographic Planes Main Metallic Crystal Structures Structure of Polymers Polymer Classification and Molecular Structure Glass Transition Temperature Mixed Structures Crystallinity in Polymers Structure and Strength of Materials Single Crystals and Alloys Strengthening Mechanisms in Metallic Alloys Strengthening of Polymers In Summary MATERIAL PROPERTIES AND BEHAVIORS Mechanical Properties Structural Properties Process Properties Life Properties Chemical Corrosion Resistance Microstructure Crystal Structure Molecular Weight Physical Mass Properties Physical Properties Thermal Properties Electrical Properties Magnetic Properties Radiation Properties Optical Properties Form and Finish Properties In Summary Reference FERROUS METALS Classifications Carbon Steels Alloy Steels Stainless Steels Tool Steels Cast Iron Materials Selection Consideration NON-FERROUS METALS Classifications Aluminum Alloys Copper and Copper Alloys Titanium Magnesium Tungsten Selection Considerations Selection Methodologies ENGINEERING PLASTICS Properties Structure Molecular Weight (MW) Linear and Branched Polymers Cross-Linked or Networked Polymers Crystalline Amorphous Transition Temperatures Porosity Thermoplastics Thermosets Classifications Ultra-High Molecular Weight Polyethylene (UHMWPE) Polyvinyl Chloride (PVC) Acrylics Polycarbonates Nylon (Polyamides) Acetal Acrylonitrile Butadiene Styrene Polyimide Commodity Plastics Polyethylene Polypropylene Polystyrene Compounding Alloying and Blending Fillers and Reinforcements Additives Selection Considerations Performance Objectives Selection Methodologies ADHESIVES Introduction Rheology Adhesion Theory Mechanical Interlocking Theory Wettability Theory Weak Boundary Layer Theory Diffusion Theory Electrostatic Theory Covalent Bonding Theory Forms Storage Cure Methods Classifications Reactive Acrylics Anaerobic Cyanoacrylate Epoxy Explosive Bonding Polyimide Polyurethane Pressure-Sensitive Adhesives Silicone Solvent Bonding Hot Melts Solvent-Based Thermoplastics Water-Based Thermoplastics UV-Curable Joint Design Joint Configurations Curing 502 Evaluation Selection Considerations Performance Requirements Adhesive Review Selection Methodologies