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eutectic microstructure
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Image
Published: 15 June 2020
Fig. 28 Eutectic microstructure and stripes of fabricated sample. (a) Eutectic microstructure. (b) Stripe microstructure. Source: Ref 27 . Reprinted from F.Y. Niu, D.J. Wu, G.Y. Ma, J.T. Wang, J. Zhuang, and Z.J. Jin, Rapid Fabrication of Eutectic Ceramic Structures by Laser Engineered Net
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Image
Published: 27 April 2016
Fig. 10 Example of a lamellar eutectic microstructure (Al-Al 2 Cu) with approximately equal volume fractions of the phases. Transverse section of a directionally solidified (DS) sample. As-polished. Source: Ref 6
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Image
Published: 27 April 2016
Fig. 11 Example of a fibrous eutectic microstructure with a small volume fraction of one phase (molybdenum fibers in NiAl matrix). Transverse section of a directionally solidified (DS) sample. As-polished. Courtesy of E. Blank. Source: Ref 6
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Image
in Computational Models for Prediction of Solidification Microstructure
> Cast Iron Science and Technology
Published: 31 August 2017
Fig. 2 Schematic representation of a lamellar eutectic microstructure showing alternating lamellae of α and β phases, the lamellar spacing λ, and the contact angles θ α and θ β at the triple-point junction. The vector V represents the growth velocity. Source: Ref 23
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Image
Published: 01 December 2004
Fig. 40 Eutectic microstructures. (a) Regular nonfaceted/nonfaceted eutectic (Al-Al 2 Cu). (b) Irregular faceted/nonfaceted eutectic (Mg-Mg 2 Sn). The dark phase is the faceted Mg 2 Sn. Ref 22 . (c) Rod faceted/nonfaceted eutectic (Ni-NbC). Ref 23 . (d) Divorced eutectic (Fe-spheroidal
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Image
in Physical Metallurgy Concepts in Interpretation of Microstructures
> Metallography and Microstructures
Published: 01 December 2004
Fig. 8 Examples of characteristic eutectic microstructures in slowly cooled alloys. (a) 50Sn-50In alloy showing globules of tin-rich intermetallic phase (light) in a matrix of dark indium-rich intermetallic phase. Original magnification 150×. (b) Al-13Si alloy showing an acicular structure
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Image
Published: 01 December 1998
Fig. 18 Examples of characteristic eutectic microstructures in slowly cooled alloys. (a) 40Sn-50In alloy showing globules of tin-rich intermetallic phase (light) in a matrix of dark indium-rich intermetallic phase. 150×. (b) Al-13Si alloy showing an acicular structure consisting of short
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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.a0006225
EISBN: 978-1-62708-163-4
.... The article describes the aluminum-silicon eutectic system and the lead-tin eutectic system. It discusses eutectic morphologies in terms of lamellar and fibrous eutectics, regular and irregular eutectics, and the interpretation of eutectic microstructures. The article examines the solidification of a binary...
Abstract
This article begins with a schematic illustration of a eutectic system in which the two components of the system have the same crystal structure. Eutectic systems form when alloying additions cause a lowering of the liquidus lines from both melting points of the pure elements. The article describes the aluminum-silicon eutectic system and the lead-tin eutectic system. It discusses eutectic morphologies in terms of lamellar and fibrous eutectics, regular and irregular eutectics, and the interpretation of eutectic microstructures. The article examines the solidification of a binary alloy of exactly eutectic composition. It concludes with a discussion on terminal solid solutions.
Book: Casting
Series: ASM Handbook
Volume: 15
Publisher: ASM International
Published: 01 December 2008
DOI: 10.31399/asm.hb.v15.a0005211
EISBN: 978-1-62708-187-0
... in eutectic microstructures of most alloy systems is also discussed. binary eutectic phase diagram eutectic structures eutectic microstructures solidification METALLIC EUTECTIC SYSTEMS have been used for several centuries to cast engineering components. The use of eutectic systems predates...
Abstract
This article presents the binary eutectic phase diagram to understand the various structures that evolve in a binary eutectic system during solidification. It describes the various classifications and solidification principles of the eutectic structures. The formation of halos in eutectic microstructures of most alloy systems is also discussed.
Series: ASM Handbook
Volume: 9
Publisher: ASM International
Published: 01 December 2004
DOI: 10.31399/asm.hb.v09.a0003727
EISBN: 978-1-62708-177-1
... Abstract The most common aluminum alloy systems are aluminum-silicon, aluminum-copper, and aluminum-magnesium. This article focuses on the grain structure, eutectic microstructure, and dendritic microstructure of these systems. It provides information on microsegregation and its problems...
Abstract
The most common aluminum alloy systems are aluminum-silicon, aluminum-copper, and aluminum-magnesium. This article focuses on the grain structure, eutectic microstructure, and dendritic microstructure of these systems. It provides information on microsegregation and its problems in casting of alloys. The article also illustrates the casting defects such as macroporosity, microshrinkage, and surface defects, associated with the alloys.
Image
in Physical Metallurgy Concepts in Interpretation of Microstructures
> Metallography and Microstructures
Published: 01 December 2004
Fig. 9 Effect of cooling rate on the microstructure of Sn-37Pb alloy (eutectic soft solder). (a) Slowly cooled sample shows a lamellar structure consisting of dark platelets of lead-rich solid solution and light platelets of tin. (b) More rapidly cooled sample shows globules of lead-rich solid
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Image
Published: 01 December 2004
Image
Published: 01 December 2004
Fig. 9 Model output of microstructure evolution of eutectic spheroidal graphite iron during solidification. (a) Solidification fraction ( f s ) = 0.24. (b) f s = 0.55. (c) f s = 0.72. (d) f s = 0.99. Length of each square = 200 μm. Source: Ref 17
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Image
Published: 01 December 1998
Fig. 19 Effect of cooling rate on the microstructure of Sn-37Pb alloy (eutectic soft solder). (a) Slowly cooled sample shows a lamellar structure consisting of dark platelets of lead-rich solid solution and light platelets of tin. 375×. (b) More rapidly cooled sample shows globules of lead
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Image
Published: 01 December 1998
Fig. 48 Microstructure of the eutectic constituent ledeburite in a typical white cast iron. 4% picral etch. 500×. Courtesy of A.O. Benscoter, Lehigh University
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Image
Published: 15 June 2020
Fig. 21 Microstructure of Al 2 O 3 /ZrO 2 eutectic ceramic (a) along the deposition direction and (b) vertical to the deposition direction. Source: Ref 45 . Reproduced from G.Y. Ma, S. Yan, F.Y. Niu, Y.L. Zhang, and D.J. Wu, Microstructure and Mechanical Properties of Solid Al 2 O 3 -ZrO 2
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Image
Published: 15 June 2020
Fig. 22 Microstructure of banded structures in eutectic structure. Source: Ref 45 . Reproduced from G.Y. Ma, S. Yan, F.Y. Niu, Y.L. Zhang, and D.J. Wu, Microstructure and Mechanical Properties of Solid Al 2 O 3 -ZrO 2 (Y 2 O 3 ) Eutectics Prepared by Laser Engineered Net Shaping, J. Laser
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Image
Published: 15 June 2020
Fig. 34 Microstructure of nanoscale Al 2 O 3 /ZrO 2 eutectic. (a) 20,000×. (b) 100,000×. (c) Two-phase intersection. (d) 2000×. Source: Ref 55 . Reprinted from S. Yan, D.J. Wu, Y.F. Huang, N. Liu, Y.N. Zhang, F.N. Fang, and G.Y. Ma, C Fiber Toughening Al 2 O 3 -ZrO 2 Eutectic via Ultrasonic
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Image
Published: 15 December 2019
Fig. 55 Microstructure of as-cast Cu-8.4%P eutectic structure of alpha copper and Cu 3 P etched using KBI reagent (100 mL water, 3 g ammonium persulfate, and 1 mL ammonium hydroxide) and viewed using (a) bright field, (b) dark field, and (c) Nomarski DIC. In dark field, all copper-phosphide
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Image
Published: 31 December 2017
Fig. 6 Microstructure of hypereutectic aluminum-silicon alloy with eutectic and primary silicon particles
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