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equilibrium phase diagrams
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Published: 01 June 2016
Fig. 29 Equilibrium phase diagrams illustrating various conditions for precipitation of a second phase. In all cases, the matrix of the two-phase product has the same crystal structure as the initial one-phase parent, but with a different equilibrium composition (α, β, or I).
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Published: 01 June 2016
Fig. 10 Equilibrium phase diagrams illustrating various conditions for precipitation of a second phase. In all cases, the matrix of the two-phase product has the same crystal structure as the initial one-phase parent, but with a different equilibrium composition (α, β, or I). Source: Ref 41
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Published: 30 November 2018
Fig. 3 Equilibrium phase diagrams illustrating various conditions for precipitation of a second phase. In all cases, the matrix of the two-phase product has the same crystal structure as the initial single-phase parent material.
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Published: 01 December 2004
Fig. 1 Equilibrium phase diagrams illustrating various conditions for precipitation of a second phase. In all cases, the matrix of the two-phase product has the same crystal structure as the initial one-phase parent, but with a different equilibrium composition (α, β, or I). Source: Ref 1
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Series: ASM Desk Editions
Publisher: ASM International
Published: 01 December 1998
DOI: 10.31399/asm.hb.mhde2.a0003085
EISBN: 978-1-62708-199-3
... in commercial applications, thus improving product predictability. This article describes different equilibrium phase diagrams (unary, binary, and ternary) and microstructures, description terms, and general principles of reading alloy phase diagrams. Further, the article discusses plotting schemes; areas...
Abstract
Alloy phase diagrams are useful for the development, fabrication, design and control of heat treatment procedures that will produce the required mechanical, physical, and chemical properties of new alloys. They are also useful in solving problems that arise in their performance in commercial applications, thus improving product predictability. This article describes different equilibrium phase diagrams (unary, binary, and ternary) and microstructures, description terms, and general principles of reading alloy phase diagrams. Further, the article discusses plotting schemes; areas in a phase diagram; and the position and shapes of the points, lines, surfaces, and intersections, which are controlled by thermodynamic principles and properties of all phases that comprise the system. It also illustrates the application of the stated principles with suitable phase diagrams.
Series: ASM Handbook
Volume: 4E
Publisher: ASM International
Published: 01 June 2016
DOI: 10.31399/asm.hb.v04e.a0006263
EISBN: 978-1-62708-169-6
... Abstract This article provides a detailed discussion on the heat treatment processes for titanium and titanium alloys. These processes are age hardening, solution treatment, aging, and annealing. The article illustrates the characteristics of equilibrium phase diagrams that are important...
Abstract
This article provides a detailed discussion on the heat treatment processes for titanium and titanium alloys. These processes are age hardening, solution treatment, aging, and annealing. The article illustrates the characteristics of equilibrium phase diagrams that are important for understanding the heat treatment of titanium alloys. It explains the types of metastable phases encountered in titanium alloys. The article also provides information on the equilibrium phase relationships and properties of titanium alloys.
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Published: 01 October 2014
Fig. 7 Section of the Fe-C-2% Si equilibrium phase diagram showing a metastable projection of the α + γ two-phase field into the bainitic transformation temperature range
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Published: 01 October 2014
Fig. 3 Iron-chromium equilibrium phase diagram (a) binary without carbon (b) effect of 0.10% carbon on phase formation
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Published: 01 June 2016
Fig. 27 Isotherms at 200 °C (390 °F) of Al-Zn-Mg equilibrium phase diagram. Calculated using Thermocalc and the COST507B database. The average composition of various industrial alloys is indicated by dots. Solid lines denote boundaries between phase fields. Note that these are not exactly
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Published: 01 June 2016
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Published: 01 June 2016
Fig. 9 Isotherms at 190 °C (375 °F) of Al-Cu-Mg equilibrium phase diagram. Calculated using Thermocalc and the COST507B database. The composition range of some commercial alloys is indicated by boxes. Solid lines denote boundaries between phase fields. Broken lines indicate a constant copper
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Published: 01 June 2016
Fig. 12 Aluminum side of equilibrium phase diagram of aluminum-copper showing the metastable solvus boundaries for Guinier-Preston (GP), θ″ and θ′ phases. The discrepancy with some of the dissolution temperatures cited in the text suggests that these metastable solvus lines should not be taken
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Published: 01 January 1993
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Published: 30 November 2018
Fig. 7 Al-Si equilibrium phase diagram representing schematically the sequence of steps in the brazing process
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Published: 30 November 2018
Fig. 8 Aluminum side of equilibrium phase diagram of aluminum-copper showing the solvus boundaries for the metastable Guinier-Preston (GP) zones (θ″) and metastable transition precipitate phase (θ′). The discrepancy with some of the dissolution temperatures suggests that these metastable
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Published: 30 November 2018
Fig. 46 Isotherms at 190 °C (375 °F) of Al-Cu-Mg equilibrium phase diagram. Calculated using Thermocalc and the COST507B database. The composition range of some commercial alloys is indicated by boxes. Solid lines denote boundaries between phase fields. Broken lines indicate a constant Cu:Mg
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Published: 30 November 2018
Fig. 59 Isotherms at 200 °C (390 °F) of Al-Zn-Mg equilibrium phase diagram. Calculated using Thermocalc and the COST507B database. The average composition of various industrial alloys is indicated by dots. Solid lines denote boundaries between phase fields. Note that these are not exactly
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Published: 01 December 2008
Fig. 1 Equilibrium phase diagram for the aluminum-silicon system showing metastable extensions of the liquidus and solidus lines. Source: Ref 5
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Published: 01 December 2008
Fig. 1 Schematic of a partial equilibrium phase diagram of a binary alloy. See text for an explanation of parameters.
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in Computational Models for Prediction of Solidification Microstructure
> Cast Iron Science and Technology
Published: 31 August 2017
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