Publication detail
USING SIMULATION FOR PREDICTION OF BURN ON AND MOULD PENETRATION
TOMEK, L. KOSOUR, V.
Czech title
Použití simulací pro predikci vzniku zapečenin a penetrací
English title
USING SIMULATION FOR PREDICTION OF BURN ON AND MOULD PENETRATION
Type
conference proceedings
Language
en
Original abstract
This paper deals with theoretical analysis of burn-on and penetration defects in steel castings. These defects are principally caused by local overheating of the sand mould or cores. Such overheating can cause liquid metal to strike at the mould surface and entrain onto the surface of the mould. A method has been described to predict likely burn-on and penetration defect locations as part of a standard casting simulation. The method is based on determining, from simulation results, the locations where the mould is above a certain critical temperature. The critical temperature is generally above the temperature at which the steel is fully solidified. By measuring the time periods during which these locations in the mould are above the critical temperature, burn-on and penetration defects can be predicted.
Czech abstract
Příspěvek se zabývá teoretickým rozborem vzniku zapečenin a penetrací ocelových odlitků se zaměřením na lokální přehřívání pískové formy nebo jádra. Toto přehřívání může způsobovat, že tekutý kov vniká mezi zrna pískové formy. Metodika predikce vzniku zapečenin a penetrací je popsána a její způsob způsob implementace jako nástroj běžně používané slévárenské simulace. Tato metoda je založena na výpočtu teplotního pole ze simulace, a v místech, kde teplota formy přesáhne danou kritickou teplotu. Kritická teplota se obecně se nachází až v pásmu kdy je ocel téměř zcela ztuhlá. Měřením časového úseku během kterého jsou tato místa formy nad kritickou teplotou je možno predikovat vznik zapečenin a penetrací.
English abstract
This paper deals with theoretical analysis of burn-on and penetration defects in steel castings. These defects are principally caused by local overheating of the sand mould or cores. Such overheating can cause liquid metal to strike at the mould surface and entrain onto the surface of the mould. A method has been described to predict likely burn-on and penetration defect locations as part of a standard casting simulation. The method is based on determining, from simulation results, the locations where the mould is above a certain critical temperature. The critical temperature is generally above the temperature at which the steel is fully solidified. By measuring the time periods during which these locations in the mould are above the critical temperature, burn-on and penetration defects can be predicted.
Keywords in Czech
Písková forma, Teplotní pole, Povrchové vady, Simulace, Ocel.
Keywords in English
Sand mould, Temperature field, Surface Defects, Simulation, Steel.
Released
23.06.2010
ISBN
978-80-904020-6-5
BIBTEX
@proceedings{BUT65803,
author="Ladislav {Tomek} and Vojtěch {Kosour},
title="USING SIMULATION FOR PREDICTION OF BURN ON AND MOULD PENETRATION",
year="2010",
month="June",
isbn="978-80-904020-6-5"
}