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The Heat Transfer Process Between Two Bodies with a Large Temperature Difference
Heat transport when two surfaces of solids come into contact is an important phenomenon in many metallurgical processes. Determining the boundary conditions of heat transfer allows to obtain the correct solutions of the heat conduction equation. The paper presents models for determining the heat tra...
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| Published in: | Archives of metallurgy and materials 2022-01, Vol.67 (3), p.1161-1165 |
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| Main Authors: | , , , |
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| Language: | English |
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| container_end_page | 1165 |
| container_issue | 3 |
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| container_title | Archives of metallurgy and materials |
| container_volume | 67 |
| creator | Przyłucka-Bednarska, A Rywotycki, M Sołek, K Malinowski, Z |
| description | Heat transport when two surfaces of solids come into contact is an important phenomenon in many metallurgical processes. Determining the boundary conditions of heat transfer allows to obtain the correct solutions of the heat conduction equation. The paper presents models for determining the heat transfer coefficient between steel materials in contact. Experimental tests were carried out to measure the temperature changes of the contacting samples made of steel S235 (1.0038) and steel 15HM (1.7335) under the pressure of 10, 15 and 20 MPa. There was a large temperature difference between the samples. The results of the experiment were compared with numerically calculated temperatures and the value of the heat transfer coefficient was determined at different pressure values depending on the time. |
| doi_str_mv | 10.24425/amm.2022.139716 |
| format | article |
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Determining the boundary conditions of heat transfer allows to obtain the correct solutions of the heat conduction equation. The paper presents models for determining the heat transfer coefficient between steel materials in contact. Experimental tests were carried out to measure the temperature changes of the contacting samples made of steel S235 (1.0038) and steel 15HM (1.7335) under the pressure of 10, 15 and 20 MPa. There was a large temperature difference between the samples. The results of the experiment were compared with numerically calculated temperatures and the value of the heat transfer coefficient was determined at different pressure values depending on the time.</description><identifier>ISSN: 1733-3490</identifier><identifier>EISSN: 2300-1909</identifier><identifier>DOI: 10.24425/amm.2022.139716</identifier><language>eng</language><publisher>Warsaw: Polish Academy of Sciences</publisher><subject>Boundary conditions ; Conduction heating ; Conductive heat transfer ; Contact ; Continuous casting ; Finite element analysis ; Finite volume method ; Heat conductivity ; Heat transfer ; heat transfer coefficient ; Heat transfer coefficients ; inverse solution ; Mathematical models ; Metallurgy ; Metals ; Numerical analysis ; Solids ; steel ; Temperature ; Temperature gradients ; thermal conductivity</subject><ispartof>Archives of metallurgy and materials, 2022-01, Vol.67 (3), p.1161-1165</ispartof><rights>2022. 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| ispartof | Archives of metallurgy and materials, 2022-01, Vol.67 (3), p.1161-1165 |
| issn | 1733-3490 2300-1909 |
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| source | Publicly Available Content Database |
| subjects | Boundary conditions Conduction heating Conductive heat transfer Contact Continuous casting Finite element analysis Finite volume method Heat conductivity Heat transfer heat transfer coefficient Heat transfer coefficients inverse solution Mathematical models Metallurgy Metals Numerical analysis Solids steel Temperature Temperature gradients thermal conductivity |
| title | The Heat Transfer Process Between Two Bodies with a Large Temperature Difference |
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