Hypercooling and the thermodynamic properties of Cu-Ni alloys

Chun Yang; Bingbo Wei; Min Chen; Zengyuan Guo

Hypercooling and the thermodynamic properties of Cu-Ni alloys

Chun Yang, Bingbo Wei, Min Chen, Zengyuan Guo

Tsinghua University

Research output: Contribution to journal › Article › peer-review

Abstract

The glass fluxing technique was used to undercool Cu-25%Ni, Cu-33%Ni, Cu-50%Ni and Cu-75%Ni alloy melts and their undercoolings were found to be 381 K, 380 K, 349 K and 431 K, respectively. Thermophysical simulation was used to get a linear relationship between the time duration of the thermal arrest t_a and the undercooling ΔT. The hypercooling limits ΔT_h derived from this relationship were 457.7 K, 461.1 K, 448.4 K and 528.3 K respectively for the four kinds of Cu-Ni alloys. The integral mean specific heat capacity c_PL was predicted using the hypercooling definition, which was considered as the ratio of the latent heat of fusion ΔH_m to the hypercooling limit ΔT_h. The c_PL of the four Cu-Ni alloys was found to be 0.442 J/(g·K), 0.451 J/(g·K), 0.490 J/(g·K) and 0.428 J/(g·K).

Original language	English
Pages (from-to)	57-59
Number of pages	3
Journal	Qinghua Daxue Xuebao/Journal of Tsinghua University
Volume	41
Issue number	8
State	Published - Aug 2001
Externally published	Yes

Keywords

Cu-Ni alloy
Hypercooling
Specific heat capacity

Cite this

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title = "Hypercooling and the thermodynamic properties of Cu-Ni alloys",

abstract = "The glass fluxing technique was used to undercool Cu-25%Ni, Cu-33%Ni, Cu-50%Ni and Cu-75%Ni alloy melts and their undercoolings were found to be 381 K, 380 K, 349 K and 431 K, respectively. Thermophysical simulation was used to get a linear relationship between the time duration of the thermal arrest ta and the undercooling ΔT. The hypercooling limits ΔTh derived from this relationship were 457.7 K, 461.1 K, 448.4 K and 528.3 K respectively for the four kinds of Cu-Ni alloys. The integral mean specific heat capacity cPL was predicted using the hypercooling definition, which was considered as the ratio of the latent heat of fusion ΔHm to the hypercooling limit ΔTh. The cPL of the four Cu-Ni alloys was found to be 0.442 J/(g·K), 0.451 J/(g·K), 0.490 J/(g·K) and 0.428 J/(g·K).",

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author = "Chun Yang and Bingbo Wei and Min Chen and Zengyuan Guo",

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AU - Yang, Chun

AU - Wei, Bingbo

AU - Chen, Min

AU - Guo, Zengyuan

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N2 - The glass fluxing technique was used to undercool Cu-25%Ni, Cu-33%Ni, Cu-50%Ni and Cu-75%Ni alloy melts and their undercoolings were found to be 381 K, 380 K, 349 K and 431 K, respectively. Thermophysical simulation was used to get a linear relationship between the time duration of the thermal arrest ta and the undercooling ΔT. The hypercooling limits ΔTh derived from this relationship were 457.7 K, 461.1 K, 448.4 K and 528.3 K respectively for the four kinds of Cu-Ni alloys. The integral mean specific heat capacity cPL was predicted using the hypercooling definition, which was considered as the ratio of the latent heat of fusion ΔHm to the hypercooling limit ΔTh. The cPL of the four Cu-Ni alloys was found to be 0.442 J/(g·K), 0.451 J/(g·K), 0.490 J/(g·K) and 0.428 J/(g·K).

AB - The glass fluxing technique was used to undercool Cu-25%Ni, Cu-33%Ni, Cu-50%Ni and Cu-75%Ni alloy melts and their undercoolings were found to be 381 K, 380 K, 349 K and 431 K, respectively. Thermophysical simulation was used to get a linear relationship between the time duration of the thermal arrest ta and the undercooling ΔT. The hypercooling limits ΔTh derived from this relationship were 457.7 K, 461.1 K, 448.4 K and 528.3 K respectively for the four kinds of Cu-Ni alloys. The integral mean specific heat capacity cPL was predicted using the hypercooling definition, which was considered as the ratio of the latent heat of fusion ΔHm to the hypercooling limit ΔTh. The cPL of the four Cu-Ni alloys was found to be 0.442 J/(g·K), 0.451 J/(g·K), 0.490 J/(g·K) and 0.428 J/(g·K).

KW - Cu-Ni alloy

KW - Hypercooling

KW - Specific heat capacity

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Hypercooling and the thermodynamic properties of Cu-Ni alloys

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Keywords

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