Affiliation:
1. Korea Institute of Industrial Technology
Abstract
It is generally known that silicon influences the fluidity of aluminum alloys. There are several techniques to evaluate the fluidity of aluminum for gravity casting such as using spiral or serpentine type mold and vacuum suction test. However, fluidity of aluminum in high pressure die-casting has not been sufficiently studied. Therefore, in this study, the relationship between the fluidity and superheat of pouring aluminum alloy as well as injection speed was studied. A serpentine and step type die for evaluating the fluidity of aluminum alloys was designed and actual experiments were conducted for aluminum by varying many parameters such as pouring and injection speed and the content of silicon. The results showed that fluidity of aluminum in die-casting was quite similar to the gravity casting. Under high pressure die casting conditions, increased fluidity was measured as the silicon content, superheat, G.B.F treatment time and injection speed were increased.
Publisher
Trans Tech Publications, Ltd.
Reference14 articles.
1. Mondolfo. Aluminum: structures and properties. Butter-worth: England; 1979. pp.756-75.
2. ASM handbook, casting. Metal Park, Ohio: ASM international; 1989. pp.785-91.
3. Kori SA, Murthy BS, Chakraborthy M. Development of an efficient grain refiner for Al-7Si alloy and its modification with strontium. Mater Sci Eng 2000; A283; 94-104.
4. ASTM Standard E647. Standard test method for measurrment of fatigue crack growth rates. Annu Book ASTM Stand 2000; 03. 01.
5. Lasa L, Ibabe JMR. Effect of composition and processing route on the wear behaviour of Al-Si alloys, Scr Mater 2002; 03. 01.
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1 articles.
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