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Book Chapter

Book: Alloy Phase Diagrams

Series: ASM Handbook

Volume: 3

Publisher: ASM International

Published: 27 April 2016

DOI: 10.31399/asm.hb.v03.a0006202

EISBN: 978-1-62708-163-4

...

**system**, a table of crystallographic data is provided that includes the composition, Pearson symbol, space group, and prototype for each phase.**antimony****binary****system****binary**phase diagrams crystallographic data phase data THIS ARTICLE includes**systems**where**antimony**is the first-named element...
Abstract

This article is a compilation of binary alloy phase diagrams for which antimony (Sb) is the first named element in the binary pair. The diagrams are presented with element compositions in weight percent. The atomic percent compositions are given in a secondary scale. For each binary system, a table of crystallographic data is provided that includes the composition, Pearson symbol, space group, and prototype for each phase.

Book Chapter

Book: Alloy Phase Diagrams

Series: ASM Handbook

Volume: 3

Publisher: ASM International

Published: 27 April 2016

DOI: 10.31399/asm.hb.v03.a0006210

EISBN: 978-1-62708-163-4

...

**system**, a table of crystallographic data is provided that includes the composition, Pearson symbol, space group, and prototype for each phase.**binary**phase diagrams crystallographic data phase data terbium**binary****system**THIS ARTICLE includes**systems**where terbium is the first-named element...
Abstract

This article is a compilation of binary alloy phase diagrams for which terbium (Tb) is the first named element in the binary pair. The diagrams are presented with element compositions in weight percent. The atomic percent compositions are given in a secondary scale. For each binary system, a table of crystallographic data is provided that includes the composition, Pearson symbol, space group, and prototype for each phase.

Book Chapter

Book: Alloy Phase Diagrams

Series: ASM Handbook

Volume: 3

Publisher: ASM International

Published: 27 April 2016

DOI: 10.31399/asm.hb.v03.a0006215

EISBN: 978-1-62708-163-4

...

**system**, a table of crystallographic data is provided that includes the composition, Pearson symbol, space group, and prototype for each phase.**binary**phase diagrams crystallographic data phase data uranium**binary****system**THIS ARTICLE includes**systems**where uranium is the first-named element...
Abstract

This article is a compilation of binary alloy phase diagrams for which uranium (U) is the first named element in the binary pair. The diagrams are presented with element compositions in weight percent. The atomic percent compositions are given in a secondary scale. For each binary system, a table of crystallographic data is provided that includes the composition, Pearson symbol, space group, and prototype for each phase.

Book Chapter

Book: Alloy Phase Diagrams

Series: ASM Handbook

Volume: 3

Publisher: ASM International

Published: 27 April 2016

DOI: 10.31399/asm.hb.v03.a0006218

EISBN: 978-1-62708-163-4

...

**system**, a table of crystallographic data is provided that includes the composition, Pearson symbol, space group, and prototype for each phase.**binary**phase diagrams crystallographic data phase data yttrium**binary****system**THIS ARTICLE includes**systems**where yttrium is the first-named element...
Abstract

This article is a compilation of binary alloy phase diagrams for which yttrium (Y) is the first named element in the binary pair. The diagrams are presented with element compositions in weight percent. The atomic percent compositions are given in a secondary scale. For each binary system, a table of crystallographic data is provided that includes the composition, Pearson symbol, space group, and prototype for each phase.

Book Chapter

Book: Alloy Phase Diagrams

Series: ASM Handbook

Volume: 3

Publisher: ASM International

Published: 27 April 2016

DOI: 10.31399/asm.hb.v03.a0006220

EISBN: 978-1-62708-163-4

... Abstract This article is a compilation of

**binary**alloy phase diagrams for which zinc (Zn) is the first named element in the**binary**pair. The diagrams are presented with element compositions in weight percent. The atomic percent compositions are given in a secondary scale. For each**binary****system**...
Abstract

This article is a compilation of binary alloy phase diagrams for which zinc (Zn) is the first named element in the binary pair. The diagrams are presented with element compositions in weight percent. The atomic percent compositions are given in a secondary scale. For each binary system, a table of crystallographic data is provided that includes the composition, Pearson symbol, space group, and prototype for each phase.

Book Chapter

Book: Alloy Phase Diagrams

Series: ASM Handbook

Volume: 3

Publisher: ASM International

Published: 27 April 2016

DOI: 10.31399/asm.hb.v03.a0006211

EISBN: 978-1-62708-163-4

...

**system**, a table of crystallographic data is provided that includes the composition, Pearson symbol, space group, and prototype for each phase.**binary**phase diagrams crystallographic data phase data tellurium**binary****system**THIS ARTICLE includes**systems**where tellurium is the first-named...
Abstract

This article is a compilation of binary alloy phase diagrams for which tellurium (Te) is the first named element in the binary pair. The diagrams are presented with element compositions in weight percent. The atomic percent compositions are given in a secondary scale. For each binary system, a table of crystallographic data is provided that includes the composition, Pearson symbol, space group, and prototype for each phase.

Book Chapter

Book: Alloy Phase Diagrams

Series: ASM Handbook

Volume: 3

Publisher: ASM International

Published: 27 April 2016

DOI: 10.31399/asm.hb.v03.a0006214

EISBN: 978-1-62708-163-4

...

**system**, a table of crystallographic data is provided that includes the composition, Pearson symbol, space group, and prototype for each phase.**binary**phase diagrams crystallographic data phase data thallium**binary****system**THIS ARTICLE includes**systems**where thallium is the first-named element...
Abstract

This article is a compilation of binary alloy phase diagrams for which thallium (Tl) is the first named element in the binary pair. The diagrams are presented with element compositions in weight percent. The atomic percent compositions are given in a secondary scale. For each binary system, a table of crystallographic data is provided that includes the composition, Pearson symbol, space group, and prototype for each phase.

Book Chapter

Book: Alloy Phase Diagrams

Series: ASM Handbook

Volume: 3

Publisher: ASM International

Published: 27 April 2016

DOI: 10.31399/asm.hb.v03.a0006206

EISBN: 978-1-62708-163-4

...

**system**, a table of crystallographic data is provided that includes the composition, Pearson symbol, space group, and prototype for each phase.**binary**phase diagrams crystallographic data phase data samarium**binary****system**THIS ARTICLE includes**systems**where samarium is the first-named element...
Abstract

This article is a compilation of binary alloy phase diagrams for which samarium (Sm) is the first named element in the binary pair. The diagrams are presented with element compositions in weight percent. The atomic percent compositions are given in a secondary scale. For each binary system, a table of crystallographic data is provided that includes the composition, Pearson symbol, space group, and prototype for each phase.

Book Chapter

Book: Alloy Phase Diagrams

Series: ASM Handbook

Volume: 3

Publisher: ASM International

Published: 27 April 2016

DOI: 10.31399/asm.hb.v03.a0006208

EISBN: 978-1-62708-163-4

...

**system**, a table of crystallographic data is provided that includes the composition, Pearson symbol, space group, and prototype for each phase.**binary**phase diagrams crystallographic data phase data strontium**binary****system**THIS ARTICLE includes**systems**where strontium is the first-named...
Abstract

This article is a compilation of binary alloy phase diagrams for which strontium (Sr) is the first named element in the binary pair. The diagrams are presented with element compositions in weight percent. The atomic percent compositions are given in a secondary scale. For each binary system, a table of crystallographic data is provided that includes the composition, Pearson symbol, space group, and prototype for each phase.

Book Chapter

Book: Alloy Phase Diagrams

Series: ASM Handbook

Volume: 3

Publisher: ASM International

Published: 27 April 2016

DOI: 10.31399/asm.hb.v03.a0006204

EISBN: 978-1-62708-163-4

...

**system**, a table of crystallographic data is provided that includes the composition, Pearson symbol, space group, and prototype for each phase.**binary**phase diagrams crystallographic data phase data selenium**binary****system**THIS ARTICLE includes**systems**where selenium is the first-named element...
Abstract

This article is a compilation of binary alloy phase diagrams for which selenium (Se) is the first named element in the binary pair. The diagrams are presented with element compositions in weight percent. The atomic percent compositions are given in a secondary scale. For each binary system, a table of crystallographic data is provided that includes the composition, Pearson symbol, space group, and prototype for each phase.

Book Chapter

Book: Alloy Phase Diagrams

Series: ASM Handbook

Volume: 3

Publisher: ASM International

Published: 27 April 2016

DOI: 10.31399/asm.hb.v03.a0006205

EISBN: 978-1-62708-163-4

...

**system**, a table of crystallographic data is provided that includes the composition, Pearson symbol, space group, and prototype for each phase.**binary**phase diagrams crystallographic data phase data silicon**binary****system**THIS ARTICLE includes**systems**where silicon is the first-named element...
Abstract

This article is a compilation of binary alloy phase diagrams for which silicon (Si) is the first named element in the binary pair. The diagrams are presented with element compositions in weight percent. The atomic percent compositions are given in a secondary scale. For each binary system, a table of crystallographic data is provided that includes the composition, Pearson symbol, space group, and prototype for each phase.

Book Chapter

Book: Alloy Phase Diagrams

Series: ASM Handbook

Volume: 3

Publisher: ASM International

Published: 27 April 2016

DOI: 10.31399/asm.hb.v03.a0006207

EISBN: 978-1-62708-163-4

... Abstract This article is a compilation of

**binary**alloy phase diagrams for which tin (Sn) is the first named element in the**binary**pair. The diagrams are presented with element compositions in weight percent. The atomic percent compositions are given in a secondary scale. For each**binary****system**...
Abstract

This article is a compilation of binary alloy phase diagrams for which tin (Sn) is the first named element in the binary pair. The diagrams are presented with element compositions in weight percent. The atomic percent compositions are given in a secondary scale. For each binary system, a table of crystallographic data is provided that includes the composition, Pearson symbol, space group, and prototype for each phase.

Book: Casting

Series: ASM Handbook

Volume: 15

Publisher: ASM International

Published: 01 December 2008

DOI: 10.31399/asm.hb.v15.a0005332

EISBN: 978-1-62708-187-0

... effect on alloy phase relationships within the Cu-Sn-Zn

**system**. Therefore, from a practical point of view, the alloys of this group can be considered as**binary**or ternary, with or without lead being present as an insoluble additive. Even though the cast microstructures of these alloys represent...
Abstract

The properties of copper alloys occur in unique combinations found in no other alloy system. This article focuses on the major and minor alloying additions and their impact on the properties of copper. It describes major alloying additions, such as zinc, tin, lead, aluminum, silicon, nickel, beryllium, chromium, and iron. The article discusses minor alloying additions, including antimony, bismuth, selenium, manganese, and phosphorus. Copper alloys can be cast by many processes, including sand casting, permanent mold casting, precision casting, high-pressure die casting, and low-pressure die casting. The article provides information on the types of copper castings and tabulates the nominal chemical composition and mechanical properties of several cast alloys.

Book: Casting

Series: ASM Handbook

Volume: 15

Publisher: ASM International

Published: 01 December 2008

DOI: 10.31399/asm.hb.v15.a0005301

EISBN: 978-1-62708-187-0

... into a modern, inexpensive, and easy-to-use computer-based thermal analysis

**system**. Researchers in Australia poured castings with a base Al-Si-Mg alloy and then made additions of strontium and phosphorus to the same metal ( Ref 40 ). Thermal analysis curves for the three alloys are given in Fig. 8...
Abstract

This article focuses on aspects important for the commercial production of castings. It discusses the modification process in hypoeutectic and eutectic alloys that differ only in the relative volume fraction of primary aluminum and aluminum-silicon eutectic. The article explains how modification changes porosity formation in a casting. It describes the mechanisms responsible for silicon modification, as well as the modifications and changes in eutectic nucleation and eutectic grain structure. The article reviews the usage of strontium during process steps in foundry practices. The growth of silicon eutectic is described to explain effects ancillary to silicon modification. The article also discusses the effects of elements, such as phosphorus, antimony, bismuth, magnesium, boron, and calcium, on the silicon structure.

Book Chapter

Series: ASM Handbook

Volume: 9

Publisher: ASM International

Published: 01 December 2004

DOI: 10.31399/asm.hb.v09.a0003734

EISBN: 978-1-62708-177-1

... example, the

**binary**tin-**antimony****systems**exhibit a peritectic cascade. In this case, it is possible to get layers of each phase around the initial pro-peritectic phase as shown in Fig. 39 . Another example is the tin-cobalt alloy**system**with a microstructure shown in Fig. 40 . The cascade in the phase...
Abstract

Solid-state transformations from invariant reactions are of three types: eutectoid, peritectoid, and monotectoid transformations. This article focuses on structures from eutectoid transformations with an emphasis on the classic iron-carbon system of steel. It illustrates the morphology of a pearlite nodule and the effect of various substitutional alloy elements on the eutectoid transformation temperature and effective carbon content, respectively. Peritectic and peritectoid phase equilibria are very common in several binary systems. The article reviews structures from peritectoid reactions and details the formation of peritectic structures that can occur by at least three mechanisms: peritectic reaction, peritectic transformation, and direct precipitation of beta from the melt.

Series: ASM Handbook

Volume: 13A

Publisher: ASM International

Published: 01 January 2003

DOI: 10.31399/asm.hb.v13a.a0003620

EISBN: 978-1-62708-182-5

... ). Complete selectivity is obtained in certain

**binary**alloy**systems**; for example, in the gold alloy and platinum alloy**systems**, only the alloying element is dissolved. For less noble**systems**, such as copper-zinc, both elements may undergo dissolution. One of the first mechanisms proposed for the...
Abstract

Dealloying is a corrosion process in which one or more elements are selectively dissolved, leaving behind a porous residue of the remaining elements. This article describes the dealloying in various systems, namely, dezincification, graphitic corrosion, dealuminification, and noble metal alloys dealloying. The current-potential behavior of a binary alloy undergoing selective dissolution is reviewed. The article highlights the four mechanisms required for the formation of porous metals: ionization-redeposition, surface diffusion, volume diffusion, and percolation model of selective dissolution.

Book Chapter

Book: Alloy Phase Diagrams

Series: ASM Handbook

Volume: 3

Publisher: ASM International

Published: 27 April 2016

DOI: 10.31399/asm.hb.v03.a0006224

EISBN: 978-1-62708-163-4

... nickel have an fcc crystal structure, nearly identical atomic radii and electronegativities, and similar valence of outer electrons. Other

**binary**alloy**systems**having simple isomorphous phase diagrams include silver-gold, bismuth-**antimony**, silver-palladium, and germanium-silicon. Hafnium-zirconium has an...
Abstract

The term isomorphous refers to metals that are completely miscible in each other in both the liquid and solid states. This article discusses the construction of simple phase diagrams by using the appropriate points obtained from time-temperature cooling curves. It describes the two methods to determine a phase diagram with equilibrated alloys: the static method and the dynamic method. The article illustrates the construction of phase boundaries according to the Gibbs' phase rule and describes the calculation methods that allow the prediction of the phases present, the chemical compositions of the phases present, and the amounts of phases present. Phase diagrams provide useful information for understanding alloy solidification. The article provides two simple models that can describe the limiting cases of solidification behavior.

Series: ASM Handbook

Volume: 1A

Publisher: ASM International

Published: 31 August 2017

DOI: 10.31399/asm.hb.v01a.a0006300

EISBN: 978-1-62708-179-5

... equilibrium and the tie lines. Calculations performed with Fe-alloys Database (TCFE8) from Thermo-Calc Software AB. The constant in Eq 1 and 2 represents the eutectoid temperature in the

**binary**Fe-C**system**. The value here is intermediate between the values listed in â€œThermodynamics Principles as...
Abstract

This article discusses the stable and metastable three-phase fields in the binary Fe-C phase diagram. It schematically illustrates that austenite decomposition requires accounting for nucleation and growth of ferrite and then nucleation and growth of pearlite in the remaining untransformed volume. The article describes the austenite decomposition to ferrite and pearlite in spheroidal graphite irons and lamellar graphite irons. It provides a discussion on modeling austenite decomposition to ferrite and pearlite.

Series: ASM Handbook

Volume: 9

Publisher: ASM International

Published: 01 December 2004

DOI: 10.31399/asm.hb.v09.a0003723

EISBN: 978-1-62708-177-1

... liquidus point. Some

**binary**alloy**systems**having simple isomorphous phase diagrams include silver/gold, bismuth/**antimony**, silver/palladium, and germanium/silicon. Hafnium/zirconium has an interesting variation of the isomorphous solidification transformation, which is mirrored in a second solid-to-solid...
Abstract

This article introduces basic physical metallurgy concepts that may be useful for understanding and interpreting variations in metallographic features and how processing affects microstructure. It presents some basic concepts in structure-property relationships. The article describes the use of equilibrium binary phase diagrams as a tool in the interpretation of microstructures. It reviews an account of the two types of solid-state phase transformations: isothermal and athermal. The article discusses isothermal transformation and continuous cooling transformation diagrams which are useful in determining the conditions for proper heat treatment (solid-state transformation) of metals and alloys. The influence of the mechanisms of phase nucleation and growth on the morphology, size, and distribution of grains and second phases is also described.

Book: Corrosion: Materials

Series: ASM Handbook

Volume: 13B

Publisher: ASM International

Published: 01 January 2005

DOI: 10.31399/asm.hb.v13b.a0003836

EISBN: 978-1-62708-183-2

.... The first group includes the transition metal-metal

**binary**alloy**systems**, such as copper-zirconium, nickel-titanium, and nickel-niobium, as well as**binary**alloys in the aluminum-refractory metal and Al-TM type. The second class consists of TM-metalloid alloys. These alloys are usually iron-, nickel...
Abstract

This article illustrates the three techniques for producing glassy metals, namely, liquid phase quenching, atomic or molecular deposition, and external action technique. Devitrification of an amorphous alloy can proceed by several routes, including primary crystallization, eutectoid crystallization, and polymorphous crystallization. The article demonstrates a free-energy versus composition diagram that summarizes many of the devitrification routes. It provides a historical review of the corrosion behavior of fully amorphous and partially devitrified metallic glasses. The article describes the general corrosion behavior and localized corrosion behavior of transition metal-metal binary alloys, transition metal-metalloid alloys, and amorphous simple metal-transition metal-rare earth metal alloys. It concludes with a discussion on the environmentally induced fracture of glassy alloys, including hydrogen embrittlement and stress-corrosion cracking.