The work is a continuation of research on the use water mist cooling in order to increase efficiency of die-casting aluminum alloys using
multipoint water mist cooling system. The paper presents results of investigation of crystallization process and microstructure of synthetic
hypereutectic AlSi20 alloy. Casts were made in permanent mold cooled with water mist stream. The study was conducted for unmodified
AlSi20 alloy and modified with phosphorus, titanium and boron on the research station allowing sequential multipoint cooling using a
dedicated program of computer control. The study demonstrated that the use of mold cooled with water mist stream allows the formation
of the microstructure of hypereutectic silumins. A wide range of solidification temperature of hypereutectic silumins increases the
potential impact of changes in the cooling rate on a size, a number and a morphology of preeutectic silicon and eutectic α+β (Al+Si).
The work is a continuation of research on the use of water mist cooling in order to increase efficiency of die-casting aluminum alloys using
multipoint water mist cooling system. The paper presents results of investigation on crystallization process and microstructure of synthetic
hypereutectic AlSi20 alloy. Casts were made in permanent mold cooled a with water mist stream. The study was conducted for unmodified
AlSi20 alloy and a modified one with phosphorus, titanium and boron on the research station allowing sequential multipoint cooling using
a dedicated program of computer control. The study demonstrated that the use of mold cooled with water mist stream and solution heat
treatment allows in wide range for the formation of the microstructure of hypereutectic silumins. It leads to the growth of microstructure
refinement and spheroidizing of phases in the casting.
The work is a continuation of research concerning the influence of intensive cooling of permanent mold in order to increase the casting
efficiency of aluminium alloys using the multipoint water mist cooling system. The paper presents results of investigation of crystallization
process and microstructure of synthetic hypereutectic alloys: AlSi15 and AlSi19. Casts were made in permanent mold cooled with water
mist stream. The study was conducted for unmodified silumins on the research station allowing the cooling of the special permanent probe
using a program of computer control. Furthermore the study used a thermal imaging camera to analyze the solidification process of
hypereutectic silumins. The study demonstrated that the use of mold cooled with water mist stream allows in wide range the formation of
the microstructure of hypereutectic silumins. It leads to higher homogeneity of microstructure and refinement of crystallizing phases and
also it increases subsequently the mechanical properties of casting.