EMS-45 Tool Steels Hardenability Experiment using Jominy ASTM A255 Test Method

Syamsul Hadi, Eddy Widiyono, Winarto Winarto, Dedy Z. Noor

Abstract


Hardenability of steels is an important way to determine heat treatment and material properties that produce component products. Jominy test is one of the method to know hardenability of steels. The Jominy ASTM A255 in used as a method for carriying out and this reseach. Parameter such as austenite temperature, holding time, cooling rate and then the results is dedicated by the prediction result, with Non Linear Numerical Equation Method. Based on test, it’s known, increasing austenite temperature, longer holding time and high cooling rate, will increase hardenability of steels. The different between the results and the prediction result done by Sonh Yue-Peng[15], Matja equation[14] and Zehtab equation[10], about 5 % -10 %. The data obtained from this experiment can be used to determine the appropriated heat treatment in order to get the desired mechanical properties, as well as to avoid distortion.

Keywords


Jominy; heat treatment; tool steels; distortion; hardenability

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References


ASTM A370. Standard Test Methods and Definitions for Mechanical Testing of Steel Products. American Society for Testing and Materials, 1997.

W.D. Callister, Materials Science and Engineering, 6 edition, Jhon Wiley and Sons, New York, 2002.

H.S. Fong, Further Observations on the Jominy End Quench Test, Journal of Materials Peocessing Technology, vol. 38,p. 221-226, 1993.

ASTM A255. (1999). Standard Test Methods for Determining Hardenability of Steel. American Society for Testing and Materials,

C. F. Jatczak, Hardenability of Carbon and Alloy Steels, Metals Handbook, Vol. 1, 9th Edition, ASM International, p. 492.

Mehmet Cakir, Abdullah Ozsoy Investigation of the correlation between thermal properties and hardenability of Jominy bars quenched with air–water mixture for AISI 1050 steel, Journal of Materials and Design, Elsevivier, vol.32 (2011), p.3099–3105.

ASTM E140. Standard Hardness Conversion Tables for Metals, 1997.

ASM Handbook, Vol. 4, Heat Treating - Heat Treating of Steel. American Society for Metals, 1991.

T. Karl-Erik, Steel and its Heat Treatment, Butterworths, p 145, 1975.

A. Zehtab Yazdi, S.A. Sajjadi, S.M. Zebarjad, S.M. Moosavi Nezhad, Prediction of hardness at different points of Jominy specimen using quench factor analysis, method, journal of materials processing technology, Elsevivier, vol 199, p. 124–129 B.L, 2008 .

D. Homberg. “A Numerical Simulation of The Jominy End-Quench Test”, Weierstrass Institut for Applied Analysis and Stochastics, Mohrenstra Be 39, D-10117 Berlin, Germany, 1996.

P. L. Masson, T. Loulou, E. Artioukhine, D. Carron, A Numerical Study for The Estimation of Convection Heat Transfer Coefficient During a Metallurgical Jominy End Quench Test. International Journal of Thermal Siences, vol. 41, 517-527, 2002.

B. Smoljan, D. Rubesa, N. Tomasic, D. Iljic, S. Hanza, An Application of Modified Jominy Test in Computer Simulation of Quenching of Cold Work Tool Steels. 1st International Coference of Heat Treament and Surface

Engineering of Tools and Dies, Pula, Croatia, 2005.

Matja ž Knap , J. Falkus , A. Rozman, J. Lamut, Hardenability prediction based on chemical composition of steel, Materials and Geoenvironment, Vol. 56, No. 2, pp. 108–117, 2009.

S.Yue-peng, L. Guo-quanl , L. Sheng-xin, L. Jian-tao, F. Cheng-ming Improved Nonlinear Equation Method for Numerical Prediction of Jominy End-Quench Curves, Sciencedirect, Journal Of Iron And Steel Research,

International. 2007,vol 14 no. 1, pp. 37-41, 2007.

Z.A.Yahdi, Sajjadi, S.A., Zerbajad S.M., Nezhad Moosavi, Prediction of Hardness different points of Jominy Specimen Using Quench Factor Analysis

Method. Journal of Materials Processing Technology, Elsevivier, vol.199, p.124-129, 2008.

B. Smoljan, D. Iljic, S. Hanza, T. Traven, An Analysis of

Modified Jominy Test (JMC®-test), Computational Materials Sicences and Surface Engineering, vol.2, p.120-124, 2009.

M. Knap, J. Falkus, A. Rozman, J. Lamut, Hardenability Prediction Based on Chemical Composition of Steel. Material and Geoenvironment, Vol. 56, No.2, p.108-117,2009.

Zhang Ke-Jian Reduction and Elimination of Quench Distortion by CRB Method, Beijing HuaLi Fine Chemical Company Ltd. Beijing 102200, China, 2007.

Bramfitt and S. J. Lawrence, Metallography and Microstructures of Carbon and Low-Alloy Steels, Metallography and Microstructures, Vol 9, ASM

Handbook, ASM International, 2004, p. 608–626, 2004.

ASTM E18. Standard Test Methods for Rockwell Hardness and Rockwell Superficial Hardness of Metallic Materials. American Society for Testing and Materials,2000.




DOI: http://dx.doi.org/10.12962/j20882033.v24i1.137

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