Open Access Open Access  Restricted Access Subscription Access

An Analytical Study of Thermal Waves Facing the Austenitic Steel


Affiliations
1 T-136424-7, Institution of Engineers (India) 8, Gokhale Road, Kolkatta-20, India
 

Iron (Fe-C) being the most acceptable container material exposed to higher temperature ranges. This study is based on the Austenite Face Centered Cubic structure of Iron. The crystal structure of the material, the wavelength of the thermal radiation, the packing factor of the FCC crystal structure, the thermal conductivity, the free electron model are main concepts taken into consideration. The thermal behaviour of the material is explained analogous to the light wave of reflection, absorption and refraction.
User
Notifications
Font Size

  • Sukhatme SP. Heat transfer.
  • Kodgire VD, Kodgire SV. Material science and metallurgy for engineers.
  • Raghavan V. Material science and engineering.
  • William HM. Heat transmission.
  • Tiwari SR. Volume of sphere. ASTRA2015.
  • Tiwari SR. Design and development of critical thickness for multilayer insulator, project paper, IEindia; 2015.

Abstract Views: 660

PDF Views: 293




  • An Analytical Study of Thermal Waves Facing the Austenitic Steel

Abstract Views: 660  |  PDF Views: 293

Authors

Sanjay R. Tiwari
T-136424-7, Institution of Engineers (India) 8, Gokhale Road, Kolkatta-20, India

Abstract


Iron (Fe-C) being the most acceptable container material exposed to higher temperature ranges. This study is based on the Austenite Face Centered Cubic structure of Iron. The crystal structure of the material, the wavelength of the thermal radiation, the packing factor of the FCC crystal structure, the thermal conductivity, the free electron model are main concepts taken into consideration. The thermal behaviour of the material is explained analogous to the light wave of reflection, absorption and refraction.

References