Processing, microstructure, and thermal expansion measurements of high temperature Ru-Al-Cr B2 alloys

Y. Hashimoto; N. L. Okamoto; M. Acosta; D. R. Johnson; H. Inui

Processing, microstructure, and thermal expansion measurements of high temperature Ru-Al-Cr B2 alloys

Y. Hashimoto, N. L. Okamoto, M. Acosta, D. R. Johnson, H. Inui

Research output: Contribution to journal › Conference article › peer-review

Abstract

The B2 intermetallic compound RuAl has a melting temperature above 2000 °C and is a candidate for high temperature structural applications. A large extension of the B2 phase field is found in the Ru-Al-Cr system as was documented by the characterization of arc-melted and heat treated alloys. Two compositions consisting of Ru-35Al-19Cr and Ru-20Al-38Cr (at. %) were directionally solidified in an optical floating zone furnace. Depending upon the processing conditions, single phase, polycrystalline, B2 microstructures could be produced. The coefficient of thermal expansion (CTE) was measured from room temperature to 1250 °C for the Ru-20Al-38Cr alloy, and an average value of 11×10^-6 K^-1 was found. Additionally, the thermal conductivity was measured as 27 W/mK at room temperature for the Ru-20Al-38Cr B2 alloy and as 89 W/mK for binary RuAl.

Original language	English
Pages (from-to)	215-220
Number of pages	6
Journal	Materials Research Society Symposium Proceedings
Volume	1128
Publication status	Published - 2009
Externally published	Yes
Event	2008 MRS Fall Meeting - Boston, MA, United States Duration: 2008 Dec 2 → 2008 Dec 5

ASJC Scopus subject areas

Materials Science(all)
Condensed Matter Physics
Mechanics of Materials
Mechanical Engineering

Cite this

@article{abf7649e755d4f19a7da0c84af3e5a1b,

title = "Processing, microstructure, and thermal expansion measurements of high temperature Ru-Al-Cr B2 alloys",

abstract = "The B2 intermetallic compound RuAl has a melting temperature above 2000 °C and is a candidate for high temperature structural applications. A large extension of the B2 phase field is found in the Ru-Al-Cr system as was documented by the characterization of arc-melted and heat treated alloys. Two compositions consisting of Ru-35Al-19Cr and Ru-20Al-38Cr (at. %) were directionally solidified in an optical floating zone furnace. Depending upon the processing conditions, single phase, polycrystalline, B2 microstructures could be produced. The coefficient of thermal expansion (CTE) was measured from room temperature to 1250 °C for the Ru-20Al-38Cr alloy, and an average value of 11×10-6 K-1 was found. Additionally, the thermal conductivity was measured as 27 W/mK at room temperature for the Ru-20Al-38Cr B2 alloy and as 89 W/mK for binary RuAl.",

author = "Y. Hashimoto and Okamoto, {N. L.} and M. Acosta and Johnson, {D. R.} and H. Inui",

year = "2009",

language = "English",

volume = "1128",

pages = "215--220",

journal = "Materials Research Society Symposium - Proceedings",

issn = "0272-9172",

publisher = "Materials Research Society",

note = "2008 MRS Fall Meeting ; Conference date: 02-12-2008 Through 05-12-2008",

}

TY - JOUR

T1 - Processing, microstructure, and thermal expansion measurements of high temperature Ru-Al-Cr B2 alloys

AU - Hashimoto, Y.

AU - Okamoto, N. L.

AU - Acosta, M.

AU - Johnson, D. R.

AU - Inui, H.

PY - 2009

Y1 - 2009

N2 - The B2 intermetallic compound RuAl has a melting temperature above 2000 °C and is a candidate for high temperature structural applications. A large extension of the B2 phase field is found in the Ru-Al-Cr system as was documented by the characterization of arc-melted and heat treated alloys. Two compositions consisting of Ru-35Al-19Cr and Ru-20Al-38Cr (at. %) were directionally solidified in an optical floating zone furnace. Depending upon the processing conditions, single phase, polycrystalline, B2 microstructures could be produced. The coefficient of thermal expansion (CTE) was measured from room temperature to 1250 °C for the Ru-20Al-38Cr alloy, and an average value of 11×10-6 K-1 was found. Additionally, the thermal conductivity was measured as 27 W/mK at room temperature for the Ru-20Al-38Cr B2 alloy and as 89 W/mK for binary RuAl.

AB - The B2 intermetallic compound RuAl has a melting temperature above 2000 °C and is a candidate for high temperature structural applications. A large extension of the B2 phase field is found in the Ru-Al-Cr system as was documented by the characterization of arc-melted and heat treated alloys. Two compositions consisting of Ru-35Al-19Cr and Ru-20Al-38Cr (at. %) were directionally solidified in an optical floating zone furnace. Depending upon the processing conditions, single phase, polycrystalline, B2 microstructures could be produced. The coefficient of thermal expansion (CTE) was measured from room temperature to 1250 °C for the Ru-20Al-38Cr alloy, and an average value of 11×10-6 K-1 was found. Additionally, the thermal conductivity was measured as 27 W/mK at room temperature for the Ru-20Al-38Cr B2 alloy and as 89 W/mK for binary RuAl.

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UR - http://www.scopus.com/inward/citedby.url?scp=70449380368&partnerID=8YFLogxK

M3 - Conference article

AN - SCOPUS:70449380368

SN - 0272-9172

VL - 1128

SP - 215

EP - 220

JO - Materials Research Society Symposium - Proceedings

JF - Materials Research Society Symposium - Proceedings

T2 - 2008 MRS Fall Meeting

Y2 - 2 December 2008 through 5 December 2008

ER -

Processing, microstructure, and thermal expansion measurements of high temperature Ru-Al-Cr B2 alloys

Abstract

ASJC Scopus subject areas

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