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Original scientific paper

https://doi.org/10.21278/TOF.42Si106

Estimate of Heat Transfer Coefficient during Quenching Steel in Water

Šefik Behrem orcid id orcid.org/0000-0002-6971-3231 ; University of Bihac, Faculty of Technical Engineering, Bihać, Bosnia and Herzegovina
Bahrudin Hrnjica orcid id orcid.org/0000-0002-3142-1284 ; University of Bihac, Faculty of Technical Engineering, Bihać, Bosnia and Herzegovina


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Abstract

The paper presents the process of two-dimensional axisymmetric quenching of cylindrical samples in water at 40 °C. Experimental work consists of quenching three dimensionally different cylindrical probes. The dimensions of the probes are: ϕ25x50, ϕ50x150 and ϕ75x225 mm. Three measuring points are 1.5 mm below the cylinder surface positioned at the cylinder height, whereas the fourth measuring point is in the center of gravity of the cylinder. The quenching was conducted in strict controlled rate of water flow at the cylinder head. The problem of the task belongs to inverse problems of heat conduction, or ill posed problems, so that the solution to the problem leads to a sufficiently accurate estimate of the unknown heat transfer coefficient, imposed on the outer surface of the cylinder. Computer model solutions use experimental results of temperature measurements to minimize errors between computer calculations and measured temperature values in the same place. The selected solution algorithm is a hybrid algorithm that consists of a combination of three different algorithms of solution, connected into a single unit.

Keywords

cylindrical probe; steel quenching; optimization; inverse heat transfer; heat transfer coefficient

Hrčak ID:

199842

URI

https://hrcak.srce.hr/199842

Publication date:

8.5.2018.

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