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intermetallic phases
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Series: ASM Technical Books
Publisher: ASM International
Published: 01 December 2016
DOI: 10.31399/asm.tb.ascaam.t59190035
EISBN: 978-1-62708-296-9
... Abstract Structurally differentiated intermetallic phases are important constituents in the microstructure of aluminum alloys, with the potential to influence properties, behaviors, and processing characteristics. These phases can form in aluminum-silicon alloys with transition metals (Fe, Mn...
Abstract
Structurally differentiated intermetallic phases are important constituents in the microstructure of aluminum alloys, with the potential to influence properties, behaviors, and processing characteristics. These phases can form in aluminum-silicon alloys with transition metals (Fe, Mn, Ni, Cr, V, Ti) and with metals such as Mg and Cu. This chapter is a compilation of phase diagrams, microstructure images, and tables, providing information on more than 30 binary, ternary, and quaternary alloy systems associated with intermetallic phases in aluminum-silicon castings. Each section includes tabular information and data on the intermetallic phases in the aluminum corner of the equilibrium phase diagram, the characteristics of the crystal lattice of intermetallic phases, the chemical composition of the alloy intermetallic phases, and equilibrium reactions in the alloy system.
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Published: 01 April 2004
Fig. 2.37 Continued growth of gold-indium intermetallic phases at the interface between a gold metallization and indium-lead solder at elevated temperature but below the solidus temperature. Adapted from Frear, Jones, and Kinsman [1990 ]
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Published: 01 April 2004
Fig. 2.49 Growth of tin-base intermetallic phases by solid-state diffusion at 170 °C (340 °F) on various substrate materials. Adapted from Kay and Mackay [1976 ]
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Series: ASM Technical Books
Publisher: ASM International
Published: 01 December 2016
DOI: 10.31399/asm.tb.ascaam.t59190173
EISBN: 978-1-62708-296-9
... Abstract This appendix lists the intermetallic phase designations of aluminum-silicon casting alloys and defines symbols and abbreviations associated with the variables, processes, and tools used in microstructural examination. cast aluminum-silicon alloys intermetallic phases...
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in Intermetallic Phases in Aluminum-Silicon Technical Cast Alloys
> Aluminum-Silicon Casting Alloys: Atlas of Microstructures
Published: 01 December 2016
Fig. 2.21 Intermetallic phase Al 4 Sr in the microstructure of the aluminum alloys. (a) Alloy AlSr3. (b) Alloy AlSr6. (c) Technical alloy AlSi11. LM, etch. 1HF(1). Source: Ref 12
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in Intermetallic Phases in Aluminum-Silicon Technical Cast Alloys
> Aluminum-Silicon Casting Alloys: Atlas of Microstructures
Published: 01 December 2016
Fig. 2.25 Microstructure of the AlV alloy, precipitates of the intermetallic phase V 4 . (a) Dendrites of the V 4 phase. (b) Equiaxial particles of the V 4 phase. LM, etch. 1HF(1). Source: Ref 12
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in Microstructure of Aluminum-Silicon Technical Casting Alloys
> Aluminum-Silicon Casting Alloys: Atlas of Microstructures
Published: 01 December 2016
Fig. 3.60 Influence of the solidification rate on the intermetallic phase morphology in the interdendritic eutectic microstructure, spheroidization of θ Cu and Q particles, refinement of β mFe needles. (a) Alloy AlSi5Cu1. (b) Alloy AlSi5Cu3Mg. LM, etch. 10 NaOH(2). Source: Ref 3
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in Microstructure of Aluminum-Silicon Technical Casting Alloys
> Aluminum-Silicon Casting Alloys: Atlas of Microstructures
Published: 01 December 2016
Fig. 3.62 Influence of the solidification rate on the intermetallic phase morphology in the interdendritic eutectic microstructure, refinement and spheroidization of the eutectic intermetallics in a shape of the Chinese script. (a) Alloy AlSi10Mg, α cFeMn and β MgSi phases. (b) Alloy AlSi11
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in Microstructure of Aluminum-Silicon Technical Casting Alloys
> Aluminum-Silicon Casting Alloys: Atlas of Microstructures
Published: 01 December 2016
Fig. 3.63 Influence of the solidification rate on the intermetallic phase morphology in the interdendritic eutectic microstructure; refinement of plates of ε Ni and τ FeNi1 phases, refinement of Chinese script of δ CuNi and Π phases. (a–c) Alloy AlSi21CuNi. (d) Alloy AlSi12MCuNiMg. LM etch
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in Microstructure of Aluminum-Silicon Technical Casting Alloys
> Aluminum-Silicon Casting Alloys: Atlas of Microstructures
Published: 01 December 2016
Fig. 3.64 Influence of heat treatment T6 on the intermetallic phase morphology. (a) Alloy AlSi7Mg, T6, dissolution and coagulation of α cFeMn Chinese script. (b) Alloy 6066, as-cast, fast cooling, coagulation of α cFeMn Chinese script. (c) Alloy 6066, annealing 565 °C/10 h, dissolution
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Series: ASM Technical Books
Publisher: ASM International
Published: 01 December 2016
DOI: 10.31399/asm.tb.ascaam.t59190147
EISBN: 978-1-62708-296-9
... Abstract Intermetallic phase precipitates in aluminum alloys can often be identified without resorting to chemical analysis. Very often the determination can be made based on the shape, color, and refractive properties of the particular phase. This chapter explains how these visual attributes...
Abstract
Intermetallic phase precipitates in aluminum alloys can often be identified without resorting to chemical analysis. Very often the determination can be made based on the shape, color, and refractive properties of the particular phase. This chapter explains how these visual attributes can be observed using metallographic techniques. It describes, and in many cases illustrates, the characteristic shapes, colors, and optical properties associated with aluminum alloy intermetallic phases and how they can be enhanced through selective etching. It provides an atlas of microstructures comparing the effects of selective etching procedures on various phase constituents in cast aluminum-silicon alloys. The compilation of images demonstrates the use of two types of reagents: those that reveal discontinuities in crystal orientation and grain boundaries, and those that reveal differences in chemical composition.
Series: ASM Technical Books
Publisher: ASM International
Published: 01 December 2016
DOI: 10.31399/asm.tb.ascaam.t59190vii
EISBN: 978-1-62708-296-9
... Abstract This chapter provides an overview of the microstructure-property relationships associated with aluminum-silicon alloys. It includes information on commercial designations and grades, phase compositions, solidification paths, alloying elements, and intermetallic phases. It also provides...
Abstract
This chapter provides an overview of the microstructure-property relationships associated with aluminum-silicon alloys. It includes information on commercial designations and grades, phase compositions, solidification paths, alloying elements, and intermetallic phases. It also provides solubility data and maps out the topics covered in subsequent chapters in the book.
Book Chapter
Series: ASM Technical Books
Publisher: ASM International
Published: 01 December 2008
DOI: 10.31399/asm.tb.ssde.t52310001
EISBN: 978-1-62708-286-0
... intermetallic phases is also covered. In addition, the chapter provides information on carbides, nitrides, precipitation hardening, and inclusions. stainless steel thermodynamics ferrite austenite martensite intermetallic phase carbides nitrides precipitation hardening inclusions Summary...
Abstract
Metallurgy, as discussed in this chapter, focuses on phases normally encountered in stainless steels and their characteristics. This chapter describes the thermodynamics and the three basic phases of stainless steels: ferrite, austenite, and martensite. Formation of the principal intermetallic phases is also covered. In addition, the chapter provides information on carbides, nitrides, precipitation hardening, and inclusions.
Book Chapter
Series: ASM Technical Books
Publisher: ASM International
Published: 01 December 2004
DOI: 10.31399/asm.tb.aacppa.t51140039
EISBN: 978-1-62708-335-5
... Abstract In castings, microstructural features are products of metal chemistry and solidification conditions. The microstructural features, excluding defects, that most strongly affect the mechanical properties or aluminum castings are size, form, and distribution of intermetallic phases...
Abstract
In castings, microstructural features are products of metal chemistry and solidification conditions. The microstructural features, excluding defects, that most strongly affect the mechanical properties or aluminum castings are size, form, and distribution of intermetallic phases; dendrite arm spacing; grain size and shape; and eutectic modification and primary phase refinement. This chapter discusses the effects of these microstructural features on properties and methods for controlling them. The chapter concludes with a detailed examination of the refinement of hypereutectic aluminum-silicon alloys.
Book Chapter
Series: ASM Technical Books
Publisher: ASM International
Published: 01 January 2015
DOI: 10.31399/asm.tb.tpmpa.t54480031
EISBN: 978-1-62708-318-8
... morphology. It then discusses the concept of solid solutions, the difference between substitutional and interstitial solid solubility, the effect of alloying elements, and the development of intermetallic phases. The chapter also covers the construction and use of binary and ternary phase diagrams...
Abstract
This chapter describes the structures, phases, and phase transformations observed in metals and alloys as they solidify and cool to lower temperatures. It begins with a review of the solidification process, covering nucleation, grain growth, and the factors that influence grain morphology. It then discusses the concept of solid solutions, the difference between substitutional and interstitial solid solubility, the effect of alloying elements, and the development of intermetallic phases. The chapter also covers the construction and use of binary and ternary phase diagrams and describes the helpful information they contain.
Book Chapter
Series: ASM Technical Books
Publisher: ASM International
Published: 01 December 2001
DOI: 10.31399/asm.tb.aub.t61170495
EISBN: 978-1-62708-297-6
... alloying elements and how they influence strength, ductility, hardness, and corrosion resistance. It also addresses processing issues, explaining how alloying and intermetallic phases affect forming, welding, and machining operations. alloying elements corrosion resistance forming intermetallic...
Abstract
This article examines the role of alloying in the production and use of nickel and its alloys. It explains how nickel-base alloys are categorized and lists the most common grades along with their compositional ranges and corresponding UNS numbers. It describes the role of nearly 20 alloying elements and how they influence strength, ductility, hardness, and corrosion resistance. It also addresses processing issues, explaining how alloying and intermetallic phases affect forming, welding, and machining operations.
Book Chapter
Series: ASM Technical Books
Publisher: ASM International
Published: 01 June 2008
DOI: 10.31399/asm.tb.emea.t52240265
EISBN: 978-1-62708-251-8
... fracture, namely, rupture, transgranular fracture, and intergranular fracture. The next section focuses on some of the metallurgical instabilities caused by overaging, intermetallic phase precipitation, and carbide reactions. Subsequent sections address creep life prediction and creep-fatigue interaction...
Abstract
Creep occurs in any metal or alloy at a temperature where atoms become sufficiently mobile to allow the time-dependent rearrangement of structure. This chapter begins with a section on creep curves, covering the three distinct stages: primary, secondary, and tertiary. It then provides information on the stress-rupture test used to measure the time it takes for a metal to fail at a given stress at elevated temperature. The major classes of creep mechanism, namely Nabarro-Herring creep and Coble creep, are then covered. The chapter also provides information on three primary modes of elevated fracture, namely, rupture, transgranular fracture, and intergranular fracture. The next section focuses on some of the metallurgical instabilities caused by overaging, intermetallic phase precipitation, and carbide reactions. Subsequent sections address creep life prediction and creep-fatigue interaction and the approaches to design against creep.
Series: ASM Technical Books
Publisher: ASM International
Published: 01 January 2017
DOI: 10.31399/asm.tb.sccmpe2.t55090135
EISBN: 978-1-62708-266-2
... the types of environments and stress loads where nickel-base alloys are most susceptible to SCC. It begins with a review of the physical metallurgy of nickel alloys, focusing on the role of carbides and intermetallic phases. It then explains how SCC occurs in the presence of halides (such as chlorides...
Abstract
Nickel and nickel-base alloys are specified for many applications, such as oil and gas production, power generation, and chemical processing, because of their resistance to stress-corrosion cracking (SCC). Under certain conditions, however, SCC can be a concern. This chapter describes the types of environments and stress loads where nickel-base alloys are most susceptible to SCC. It begins with a review of the physical metallurgy of nickel alloys, focusing on the role of carbides and intermetallic phases. It then explains how SCC occurs in the presence of halides (such as chlorides, bromides, iodides, and fluorides), sulfur-bearing compounds (such as H2S and sulfur-oxyanions), high-temperature and supercritical water, and caustics (such as NaOH), while accounting for temperature, composition, microstructure, properties, environmental contaminants, and other factors. The chapter also discusses the effects of hydrogen embrittlement and provides information on test methods.
Series: ASM Technical Books
Publisher: ASM International
Published: 01 December 2016
DOI: 10.31399/asm.tb.ascaam.t59190089
EISBN: 978-1-62708-296-9
... modification on eutectic silicon morphology. (a–f) Metal mold, wall thickness 2 cm, plates and rods of silicon in the interdendritic eutectic. SEM, deep etch 3.1.4 Phase Constituents of Interdendritic Eutectic Microstructures Intermetallic phases in the interdendritic eutectic microstructures are β...
Abstract
This chapter is an atlas of microstructures observed in AlSi7Mg, AlSi11, and Al21CuNiMg modified with either eutectic (strontium, sodium) or hypereutectic (phosphorus) silicon crystals. The microstructure images reveal the as-cast state of gravity castings made in sand and metal molds, before and after modification. The chapter also provides composition data and includes callouts identifying various phase constituents in the interdendritic eutectic microstructure.
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in Intermetallic Phases in Aluminum-Silicon Technical Cast Alloys
> Aluminum-Silicon Casting Alloys: Atlas of Microstructures
Published: 01 December 2016
Fig. 2.1 Binary equilibrium diagram containing two metals: an intermetallic compound (line compound) and an intermetallic phase (line compounds or in metal alloys–intermetallic compounds)
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