Pregled bibliografske jedinice broj: 822068
Mathematical Modeling and Computer Simulation of Non-monotonic Quenching
Mathematical Modeling and Computer Simulation of Non-monotonic Quenching // Proceedings of the 23rd IFHTSE Congress
Savannah (GA), Sjedinjene Američke Države; Gruzija, 2016. str. - (predavanje, međunarodna recenzija, cjeloviti rad (in extenso), znanstveni)
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Naslov
Mathematical Modeling and Computer Simulation of Non-monotonic Quenching
Autori
Smoljan, Božo ; Iljkić, Dario ; Štic, Lovro
Vrsta, podvrsta i kategorija rada
Radovi u zbornicima skupova, cjeloviti rad (in extenso), znanstveni
Izvornik
Proceedings of the 23rd IFHTSE Congress
/ - , 2016
Skup
23rd IFHTSE Congress
Mjesto i datum
Savannah (GA), Sjedinjene Američke Države; Gruzija, 18.04.2016. - 21.04.2016
Vrsta sudjelovanja
Predavanje
Vrsta recenzije
Međunarodna recenzija
Ključne riječi
numerical modelling ; steel ; quenching
Sažetak
Numerical modeling of phase transformations and hardness distribution in non-monotonic quenched steel specimen was developed based on the results of simple experimental test i.e. Jominy test. Differences between the cooling curves of investigated steel specimen and cooling curves of Jominy specimen were taken in the account in the model. The hardness in specimen points was estimated by the conversion of cooling time results to hardness by using both, the relation between cooling time and distance from the quenched end of Jominy specimen, and by using the Jominy hardenability curve. The cooling curves at the specimen points was predicted by numerical modeling of cooling by using the finite volume method. Besides characteristic cooling times, t8/5, it takes into account the history of cooling. Developed method was compared with methods of simulation of as- quenched hardness based on characteristic cooling times from 800 to 500 °C, t8/5 without taking in account history of cooling. Moreover developed model was compared by methods that are based on continuous cooling transformation (CCT) diagram and isothermal transformation (IT) diagram by using Scheil’s additivity rule. Developed numerical model for computer simulation of quenching was also experimentally verified. Limitations of proposed numerical model were found out as well. It has been shown that proposed numerical model can be successfully applied for purposes of simulation of interrupted quenching of carbon and low alloyed steel specimens.
Izvorni jezik
Engleski
Znanstvena područja
Strojarstvo, Temeljne tehničke znanosti
POVEZANOST RADA
Projekti:
HRZZ-IP-2013-11-5371 - Optimiranje i modeliranje termalnih procesa materijala (OMOTPOM) (Smoljan, Božo, HRZZ - 2013-11) ( CroRIS)
Ustanove:
Tehnički fakultet, Rijeka
Citiraj ovu publikaciju:
Časopis indeksira:
- Scopus
