Effect of composition and pouring temperature of Cu(20-24)wt.%Sn by sand casting on fluidity and mechanical properties

Effect of composition and pouring temperature of Cu(20-24)wt.%Sn by sand casting on fluidity and mechanical properties

The effect of tin composition and pouring temperature on the length of fluidity, microstructure, density, hardness, tensile strength and bending of Cu-Sn alloy with sand casting method has been investigated. Cu(20-24)wt.%Sn were casted in two different pouring temperatures (1000 ºC  and 1100 ºC)  in...

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Bibliographic Details
Published in:Journal of Mechanical Engineering and Sciences Vol. 13; no. 4; pp. 6022 - 6035
Main Authors: Slamet, Sugeng, ., Suyitno, Kusumaningtyas, Indraswari
Format: Journal Article
Language:English
Published: Pekan Universiti Malaysia Pahang 01-12-2019
Universiti Malaysia Pahang Publishing
Subjects:
Bend strength
Casting alloys
Composition effects
Copper
Copper base alloys
cu-sn
Dendritic structure
Density
fluidity
Hardness
Mechanical properties
Microstructure
Pouring
pouring temperature
Sand casting
Sand molds
Temperature
Tensile strength
Thickness
Tin
tin composition
Viscosity
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Summary:The effect of tin composition and pouring temperature on the length of fluidity, microstructure, density, hardness, tensile strength and bending of Cu-Sn alloy with sand casting method has been investigated. Cu(20-24)wt.%Sn were casted in two different pouring temperatures (1000 ºC  and 1100 ºC)  in strip plate pattern sand mold. The sand mold has a length of 400 mm, width of 10 mm with a thickness of the mold cavity varied from 1.5 to 5 mm. The results show that the increase in composition (20-22) wt.% Sn decreases the length of fluidity while the composition (22-24) wt.% Sn length fluidity increase again. Increase of the pouring temperature and mold cavity thickness can increase the length of fluidity. Increasing tin composition and pouring temperature can increase the phase of α structure, porosity, hardness of the alloy and trigger the growth of dendrite columnar and secondary dendrite (DAS) microstructure.While the density, tensile strength and bending strength of the alloy tend to decrease. Increasing tin composition and pouring temperature in Cu(20-24) wt.% Sn caused the alloy to be more brittle.
ISSN:2289-4659
2231-8380
DOI:10.15282/jmes.13.4.2019.20.0476