A Comprehensive Survey on Effect of Different Process Parameters on Mechanical Properties of Sand Cast Product
Keywords:
Sand Casting process parameters, Mechanical properties, Aluminium alloyAbstract
Nowadays industries are working upon to produce minimum number of rejections in casting with good mechanical properties and lesser amount of defects. Sand mould casting is one of the most valuable method to produce low cost component with different varieties. There are many sand casting parameters like pouring temperature, mould temperature, gating system, cooling rate, chill materials, core design. The aim of this paper is to study about the various parameters of sand casting and their effects on mechanical properties of the Aluminium alloys.
References
1. Meneghini, A., & Tomesani, L. (2005). “Chill material and size effects on HTC evolution in sand casting of aluminum alloys”, Journal of materials processing technology, 162, 534-539.
2. Yadav, N., & Karunakar, D. B. (2011). Effect of process parameters on mechanical properties of the investment castings produced by using expandable polystyrene pattern. International Journal of Advances in Engineering & Technology, 1(3), 128.
3. John, O., Kareem, B., & Idusuyi, N. (2011). Effects of mould and pouring temperatures on the Ultimate tensile strength of Aluminium alloy sand castings: An ANOVA approach. Leonardo Electronic Journal of Practices and Technologies, (19), 97-108.a
4. Kumar, S., Satsangi, P. S., & Prajapati, D. R. (2011). Optimizationof green sand casting process parameters of a foundry by using Taguchi’s method. The International Journal of Advanced Manufacturing Technology, 55(1-4), 23-34.
5. MOHAMMED, V. M., ARKANTI, K., & Ferhathullah, H. (2016). Optimization of sand mould type and melting parameters to reduce porosity in Al-Si alloy castings. Leonardo Electronic Journal of Practices and Technologies, (28), 93-106.
6. Nowak, M., & Nadendla, H. B. (2012). Grain Refiner for Aluminium-Silicon Sand Casting Aloys. In Light Metals 2012 (pp. 349-353). Springer International Publishing.
7. Merlin, M., & Garagnani, G. L. (2013). Mechanical and microstructural characterisation of A356 castings realised with full and empty cores. Metallurgical Science and Tecnology, 27(1).
8. Narayanaswamy, C.,& Natarajan, K. (2016). Optimization of casting defects analysis with supply chain in cast iron foundry process. Metalurgija, 55(4), 815-817.
9. Weldeanenia, K. G., & Abebe, A. T. Optimization of Sand Casting Process Parameters for 46MnSi4 Alloy Steel Trash Plate Castings Applicable for Roller Stand
10. Appendino, P., Crivellone, G., Mus, C., & Spriano, S. (2013). Dynamic solidification of sand-cast aluminium alloys. Metallurgical Science and Tecnology, 20(1).
11. Choudhari, C. M., Narkhede, B. E., & Mahajan, S. K. (2013, December). Optimum design and analysis of riser for sand casting. In Industrial Engineering and Engineering Management (IEEM), 2013 IEEE International Conference on (pp. 1151-1155). IEEE.
2. Yadav, N., & Karunakar, D. B. (2011). Effect of process parameters on mechanical properties of the investment castings produced by using expandable polystyrene pattern. International Journal of Advances in Engineering & Technology, 1(3), 128.
3. John, O., Kareem, B., & Idusuyi, N. (2011). Effects of mould and pouring temperatures on the Ultimate tensile strength of Aluminium alloy sand castings: An ANOVA approach. Leonardo Electronic Journal of Practices and Technologies, (19), 97-108.a
4. Kumar, S., Satsangi, P. S., & Prajapati, D. R. (2011). Optimizationof green sand casting process parameters of a foundry by using Taguchi’s method. The International Journal of Advanced Manufacturing Technology, 55(1-4), 23-34.
5. MOHAMMED, V. M., ARKANTI, K., & Ferhathullah, H. (2016). Optimization of sand mould type and melting parameters to reduce porosity in Al-Si alloy castings. Leonardo Electronic Journal of Practices and Technologies, (28), 93-106.
6. Nowak, M., & Nadendla, H. B. (2012). Grain Refiner for Aluminium-Silicon Sand Casting Aloys. In Light Metals 2012 (pp. 349-353). Springer International Publishing.
7. Merlin, M., & Garagnani, G. L. (2013). Mechanical and microstructural characterisation of A356 castings realised with full and empty cores. Metallurgical Science and Tecnology, 27(1).
8. Narayanaswamy, C.,& Natarajan, K. (2016). Optimization of casting defects analysis with supply chain in cast iron foundry process. Metalurgija, 55(4), 815-817.
9. Weldeanenia, K. G., & Abebe, A. T. Optimization of Sand Casting Process Parameters for 46MnSi4 Alloy Steel Trash Plate Castings Applicable for Roller Stand
10. Appendino, P., Crivellone, G., Mus, C., & Spriano, S. (2013). Dynamic solidification of sand-cast aluminium alloys. Metallurgical Science and Tecnology, 20(1).
11. Choudhari, C. M., Narkhede, B. E., & Mahajan, S. K. (2013, December). Optimum design and analysis of riser for sand casting. In Industrial Engineering and Engineering Management (IEEM), 2013 IEEE International Conference on (pp. 1151-1155). IEEE.
Published
2019-01-08
Issue
Section
Research Article
