Handbook of Mechanical Alloy DesignCRC Press, 2003 M11 21 - 700 páginas Offering one of the field's most thorough treatments of material design principles, including a concise overview of fastener design, the Handbook of Mechanical Alloy Design provides an extensive overview of the effects of alloy compositional design on expected mechanical properties. This reference highlights the design elements that must be considered in risk-based metallurgical design and covers alloy design for a broad range of materials, including the increasingly important powder metal and metal matrix alloys. It discusses the design issues associated with carbon, alloy, and tool steels, microalloyed steels, and more. The Handbook of Mechanical Alloy Design is a must-have reference. |
Contenido
1 | |
RiskBased Metallurgical Design | 35 |
Designing with Carbon Low and MediumAlloy Steels | 73 |
Designing with Tool Steel | 169 |
Designing with HighStrength LowAlloy Steels | 249 |
Designing with Microalloyed and InterstitialFree Steels | 321 |
Designing with Stainless Steel | 355 |
Cast Iron Design Processes Alloys and Properties | 393 |
Designing with Magnesium Alloys Properties and Casting Processes | 487 |
Designing with Titanium Alloys | 539 |
Designing with NiBase Alloys | 585 |
Designing with Copper Alloys | 619 |
Designing with Powder Metallurgy Alloys | 641 |
Designing with MetalMatrix Composites | 667 |
728 | |
Designing with Aluminum Alloys | 441 |
Otras ediciones - Ver todas
Handbook of Mechanical Alloy Design George E. Totten,Lin Xie,Kiyoshi Funatani Sin vista previa disponible - 2003 |
Términos y frases comunes
abrasive addition alloying elements alloys aluminum alloys annealed applications austenite bainite carbides carbon content cast iron chromium cold components cooling rate copper corrosion resistance cracking creep decreases deformation density developed dislocation effect Elongation embrittlement Engineering fatigue ferrite Figure fracture grades grain boundaries grain refinement graphite hardening hardness heat treatment high-strength higher HSLA Steels increase interface machining magnesium manufacturing martensite material mechanical properties melting metal matrix composites microalloyed microstructure MMCs modulus mold nickel nitrogen oxide parameters particles pearlite phase porosity powder metallurgy precipitation precipitation strengthening pressure die cast quenching recrystallization reduced reinforcement result rolling silicon sintering solid solution solidification solubility stainless steels strain strengthening stress structure superalloys surface Table tempering tensile strength thermal thickness tion titanium tool steels toughness transformation Typical volume fraction Warrendale wear resistance weldability yield strength
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Página 16 - Failure Mode and Effects Analysis Failure mode and effects analysis (FMEA) is the name given to a group of activities
Página 14 - to achieve a specified degree of safety, efficiency, and performance or quality. A code is a set of specifications for the analysis, design, manufacture, and construction of