A Comparison on Cooling Curve Analysis Using Inc-Phatran and Winprobe

Cooling curve analysis was one of the principle methods for characterizing the heat transfer properties of the quenchant. Deriving the surface heat flux and heat transfer coefficient from a quenching probe test requires advanced inverse heat conduction algorithms. In this paper, the authors presente...

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Detalles Bibliográficos
Autores principales:	Sánchez Sarmiento, G., Chen, X., Vega, J., Totten, G.E., Reynoldson, R., Huynh, L., Meekisho, L.
Formato:	Documento de conferencia
Lenguaje:	Español
Publicado:	2000
Materias:	TA Ingeniería de asistencia técnica (General). Ingeniería Civil (General)
Acceso en línea:	http://pa.bibdigital.ucc.edu.ar/3742/1/DC_S%C3%A1nchezSarmiento_Chen_Vega_Totten_Reynoldson_Huynh_Meekisho.pdf
Aporte de:	Producción Académica Universidad Católica de Córdoba (UCCor) de Universidad Católica de Córdoba

Descripción
Sumario:	Cooling curve analysis was one of the principle methods for characterizing the heat transfer properties of the quenchant. Deriving the surface heat flux and heat transfer coefficient from a quenching probe test requires advanced inverse heat conduction algorithms. In this paper, the authors presented a comparison on the results of cooling curve analysis using both Inc-Phatran and WinProbe computer programs. The strengths and weaknesses of the programs were investigated through a few test cases.

A Comparison on Cooling Curve Analysis Using Inc-Phatran and Winprobe

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