Solidification Time Analysis of Non-Metallic Material

Authors

  • Dujohn Verma  M. Tech Student, Department of Mechanical Engineering, GDRCET Bhilai, Chhattisgarh, India
  • Dr. Lokesh Singh  Assistant Professor, Department of Mechanical Engineering, GDRCET Bhilai, Chhattisgarh, India
  • Chandrabhushan Tiwari  Assistant Professor, Department of Mechanical Engineering, GDRCET Bhilai, Chhattisgarh, India

Keywords:

Castings, Melting, Alloying, Molding, Pouring

Abstract

Works represent a basic overview about the previous literature efforts into casting process. Researchers have carried out a maximum number of studies on casting & casting process. Castings play a vital part in all branches of engineering. The use of casting in manufacturing industry is increased. The flexibility of casting production techniques enables practically, all shapes to be produced. It is also one of the earliest net shape manufacturing methods because castings are usually close to final shapes and thus require little post-processing or machining. A typical modern casting process contains six different stages, which are classified as melting, alloying, molding, pouring, solidification and finishing respectively. At each stage, high level and precision of process control is required. The purpose of this work is to review critical factor of casting & perform experimentally setup of sand-casting processes by using non-metallic multi-material & compare the various casting processes with sand casting by economical consideration parameters.

References

  1. Mayank Dev Singh, Raval Apurv J, Patel Dhaval G, Parth Varmora J; Overall Productivity Improvement in casting and Fastening Industry; International Journal of Mechanical and Production Engineering, Issn:2320-2092; Volume-1; July-2013; Page (43-48).
  2. Ike Sowden, George Currier; Improving Casting Integrity Through The Use Of Simulation Software And Advanced Inspection Methods; Proceedings Of The 2012 Joint Rail Conference Jrc2012; April 17-19, 2012; Page(1-7)
  3. Tomas Maudera, ?en?k Šanderaa, Josef Št?tinaa, Miloš Masarikb; A Fuzzy Logic Approach For Optimal Control Of Continuous Casting Process; 23. - 25. 5. 2012.
  4. Dr.Eman J. Abed; The Influence of Different Casting Method on Solidification time and Mechanical Properties of ALSn Castings; International Journal of Engineering & Technology IJET-IJENS Vol: 11;pg 26-33(2011).
  5. N. Ukrainczyk, S. Kurajica, and J. Šipušiæ; 2010; Thermophysical Comparison of Five Commercial Paraffin Waxes as Latent Heat Storage Materials; Biochem. Eng. Q. 24 (2) 129– 137.
  6. M. Enamul Hossain, Chefi Ketata, 2009; Experimental Study Of Physical And Mechanical Properties Of Natural And Synthetic Waxes Using Uniaxial Compressive Strength Test; International Conference on Modeling, Simulation and Applied Optimization Sharjah, U.A.E January20-22;pg1-5.
  7. R. Tavakoli·P. Davami; Optimal Riser Design In Sand Casting Process With Evolutionary Topology Optimization; Struct Multidisc Optim (2009).
  8. Juan J. Valencia; Peter N. Quested; Thermo physical Properties; Volume 15; 2008; p 468-481.
  9. Gang Pu, Jinfeng Wang, Steven J. Severtson; 2007; Properties of Paraffin Wax/Montmorillonite Nano composite Coatings; NSTI-Nanotech ; Vol. 2, 2007;pg112-115
  10. Mohamed Ibrahim Shukri , And Adil Mohamed Elbasheer2; An Expert System For Designing Gates And Risers For Small And Medium Size Castings ; Sudan Engineering Society Journal; Volume 52; May 2006;Page (39-47).

IInternational Journal of Scientific Research in Mechanical and Materials Engineering

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Published

2020-09-30

Issue

Volume 4, Issue 5, September-October-2020

Section

Research Articles

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This work is licensed under a Creative Commons Attribution 4.0 International License.

How to Cite

[1]
Dujohn Verma, Dr. Lokesh Singh, Chandrabhushan Tiwari, " Solidification Time Analysis of Non-Metallic Material, IInternational Journal of Scientific Research in Mechanical and Materials Engineering(IJSRMME), ISSN : 2456-3307, Volume 4, Issue 5, pp.08-13, September-October-2020.