Please use this identifier to cite or link to this item: http://hdl.handle.net/2080/1720
Title: Influence of processing variables on the mechanical behavior of spheroidal graphite cast iron
Authors: Swain, S K
Sen, S
Mishra, S C
Keywords: Spheroidal Graphite iron
Processing variables
Mechanical properties
Issue Date: Apr-2012
Publisher: ICE Publisher
Citation: Emerging Materials Research, Vol.1, No. 3, April-2012, pp. 140-145
Abstract: The mechanical properties achievable from spheroidal iron castings are adequate for a very wide range of applications. Apart from mechanical properties, a number of other characteristics such as density, thermal expansion, thermal conductivity, specific heat, electrical conductivity, magnetic properties and acoustic properties are also of considerable importance. Efforts are being made to improve all these properties. In the present investigation, five melts of SGI castings (M1 to M5) were prepared by standard foundry procedure and practices. The mechanical behavior of spheroidal graphite iron (SGI) castings was studied as a function of processing variables. It is found that the mechanical properties (viz.Tensile strength, Yield strength, Elongation, Impact resistance etc) for a given chemical composition are highly dependent on processing variables (i.e. pouring temperature, pre-conditioning of base iron, inoculation practice and molding materials). SGI castings are produced and tested as per ASTM 395 specifications. From the results, it is found that with varying processing conditions, the mechanical properties have been improved to a great extent; i.e., the UTS (Ultimate Tensile Strength), YS (Yield Strength), EL(Elongation) and impact strength (at -200C) . The UTS has improved to 475.41 MPa; YS is also enhanced to 316.94 MPa; elongation has increased to18%, but there is reduction in impact strength.
Description: Copyright for this article belongs to ICE Publisher, New Jersey, USA
URI: http://dx.doi..org/10.1680/emr.11.00019
http://hdl.handle.net/2080/1720
ISSN: 2046-0147
Appears in Collections:Journal Articles

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