Summary and Info
Component casting has many design advantages, especially when complex geometries are required. There are many options and challenges in producing efficient casting designs, and this publication acquaints readers with fundamental information about how casting design influences casting solidification and how casting solidification influences casting properties. Mechanical property data, especially for dynamic properties, are also described in details for cast iron, steel, and aluminum.Chapter numberChapter TitlePart I: Casting Design Principles and PracticeChapter 1: Casting Design Issues and PracticesChapter 2: Casting Design PrinciplesChapter 3: Modeling of casting and solidification processingPart II: Process DesignChapter 4: Riser DesignChapter 5: Gating DesignChapter 6: Design for Economical moldingChapter 7: Design for Economical CoringPart III: Design and GeometryChapter 8: Casting Design and GeometryChapter 9: Design Problems Involving Thin SectionsChapter 10: Design Problems Involving Uniform SectionsChapter 11: Design Problems Involving Unequal SectionsChapter 12: Design Problems Involving JunctionsChapter 13: Design Problems Involving DistortionPart III: Casting PerformanceChapter 14: Corrosion of Cast IronsChapter 15: Corrosion of Cast Carbon and Low-Alloy SteelsChapter 16: Corrosion of Cast Stainless SteelsChapter 17: Fatigue and Fracture Properties of Cast IronsChapter 18: Fatigue and Fracture Properties of Cast SteelsChapter 19: Fatigue and Fracture Properties of Aluminum Alloy CastingsChapter 20: Friction and Wear of Cast IronsChapter 21: Friction and Wear of Aluminum-Silicon Alloys Chapter 22: Failures Related to CastingChapter 23: Nondestructive Inspection of Castings
More About the Author
ASM (Advanced Semiconductor Materials) International is a Dutch company active in the semiconductor industry.
Review and Comments
Rate the Book
Casting Design and Performance 0 out of 5 stars based on 0 ratings.