Measurement of the enthalpy and specific heat of undercooled nickel and iron melts

M. Barth; F. Joo; B. Wei; D. M. Herlach

doi:10.1016/0022-3093(93)90205-C

Measurement of the enthalpy and specific heat of undercooled nickel and iron melts

M. Barth, F. Joo, B. Wei, D. M. Herlach

German Aerospace Center

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

41 Scopus citations

Abstract

Detailed knowledge of the thermodynamic properties in the metastable regime of undercooled melts is of essential interest in a variety of aspects: short-range order in liquids, description of nucleation and crystal growth, and the glass transition. A drop calorimeter has been developed which allows in combination with electromagnetic levitation melting to measure the temperature dependence of the enthalpy, H(T), and the specific heat, C_p¹(T), over an extended range of undercooling, ΔT. The first results obtained for pure Ni and Fe are reported. In the undercooled regime, no deviations from the linear correlation H(T) above the melting point are observed. The results of C_p¹ are compared with those obtained by another method of determining the limits of hypercooling ΔT_hyp = ΔH_m/C_p^1,int (ΔH_m is the heat of fusion, C_p^1,int is the integral heat capacity of the undercooled melt).

Original language	English
Pages (from-to)	398-401
Number of pages	4
Journal	Journal of Non-Crystalline Solids
Volume	156-158
Issue number	PART 1
DOIs	https://doi.org/10.1016/0022-3093(93)90205-C
State	Published - 2 May 1993
Externally published	Yes

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title = "Measurement of the enthalpy and specific heat of undercooled nickel and iron melts",

abstract = "Detailed knowledge of the thermodynamic properties in the metastable regime of undercooled melts is of essential interest in a variety of aspects: short-range order in liquids, description of nucleation and crystal growth, and the glass transition. A drop calorimeter has been developed which allows in combination with electromagnetic levitation melting to measure the temperature dependence of the enthalpy, H(T), and the specific heat, Cp1(T), over an extended range of undercooling, ΔT. The first results obtained for pure Ni and Fe are reported. In the undercooled regime, no deviations from the linear correlation H(T) above the melting point are observed. The results of Cp1 are compared with those obtained by another method of determining the limits of hypercooling ΔThyp = ΔHm/Cp1,int (ΔHm is the heat of fusion, Cp1,int is the integral heat capacity of the undercooled melt).",

author = "M. Barth and F. Joo and B. Wei and Herlach, {D. M.}",

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doi = "10.1016/0022-3093(93)90205-C",

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T1 - Measurement of the enthalpy and specific heat of undercooled nickel and iron melts

AU - Barth, M.

AU - Joo, F.

AU - Wei, B.

AU - Herlach, D. M.

PY - 1993/5/2

Y1 - 1993/5/2

N2 - Detailed knowledge of the thermodynamic properties in the metastable regime of undercooled melts is of essential interest in a variety of aspects: short-range order in liquids, description of nucleation and crystal growth, and the glass transition. A drop calorimeter has been developed which allows in combination with electromagnetic levitation melting to measure the temperature dependence of the enthalpy, H(T), and the specific heat, Cp1(T), over an extended range of undercooling, ΔT. The first results obtained for pure Ni and Fe are reported. In the undercooled regime, no deviations from the linear correlation H(T) above the melting point are observed. The results of Cp1 are compared with those obtained by another method of determining the limits of hypercooling ΔThyp = ΔHm/Cp1,int (ΔHm is the heat of fusion, Cp1,int is the integral heat capacity of the undercooled melt).

AB - Detailed knowledge of the thermodynamic properties in the metastable regime of undercooled melts is of essential interest in a variety of aspects: short-range order in liquids, description of nucleation and crystal growth, and the glass transition. A drop calorimeter has been developed which allows in combination with electromagnetic levitation melting to measure the temperature dependence of the enthalpy, H(T), and the specific heat, Cp1(T), over an extended range of undercooling, ΔT. The first results obtained for pure Ni and Fe are reported. In the undercooled regime, no deviations from the linear correlation H(T) above the melting point are observed. The results of Cp1 are compared with those obtained by another method of determining the limits of hypercooling ΔThyp = ΔHm/Cp1,int (ΔHm is the heat of fusion, Cp1,int is the integral heat capacity of the undercooled melt).

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JO - Journal of Non-Crystalline Solids

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Measurement of the enthalpy and specific heat of undercooled nickel and iron melts

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