The 13Cr3Mo3Ni martensitic stainless steel is the modified 410 type steel for steam turbine blade application. This paper reports the effect of tempering temperature and time on hardness, microstructure and corrosion rate of the modified steel. Microstructure observation was performed using optical microscopy and SEM-EDS, hardness testing using Rockwell C hardness tester and the corrosion test in 3.5% NaCl solution using Gamry G750 instrument. In general, the hardness of the steel decreased with increasing of tempering temperature. However, the hardness increased at the tempering temperature 500-650 °C showing secondary hardening, and the metal carbides with sub-micron in sizes were observed in the microstructure. Longer tempering time of 6 h resulted in decreased hardness without secondary hardening It can be reported also that the tempering temperature changed the potential, current and rate of corrosion of the13Cr3Mo3Ni steel.

Abstrak

Baja tahan karat 13Cr3Mo3Ni merupakan modifikasi dari baja tahan karat martensitik 410 untuk digunakan sebagai material sudu pada turbin uap. Tulisan ini memaparkan pengaruh suhu dan waktu  tempering terhadap kekerasan, struktur mikro dan laju korosi baja tahan karat martensitik 13Cr3Mo3Ni. Pengujian yang dilakukan adalah pengamatan struktur mikro menggunakan mikroskop optik dan SEM-EDS, uji kekerasan dengan Rockwell C dan uji korosi di dalam larutan 3,5% NaCl dengan alat Gamry G750. Secara umum kekerasan baja menurun dengan naiknya suhu tempering, kecuali pada suhu 500-650 °C terjadi peningkatan kekerasan akibat adanya secondary hardening dan karbida logam berukuran sub-mikron teramati sebagai penyebabnya. Peningkatan waktu tempering menjadi 6 jam mengakibatkan penurunan kekerasan dan penghilangan efek secondary hardening. Perbedaan suhu tempering juga menghasilkan perbedaan potensial, arus serta laju korosi baja 13Cr3Mo3Ni.

Mabruri Efendi, dkk. 2015. Pengaruh Mo dan Ni Terhadap Struktur Mikro dan Kekerasan Baja Tahan Karat Martensitik 13Cr. Majalah Metalurgi 3 : 133-140. Pusat Penelitian Metalurgi dan Material-LIPI Gedung 470 Kawasan Puspiptek, Tangerang Selatan. Indonesia

James Kelly. 2006. Chapter 2 Stainless Steels. Mechanical Engineers Handbook : Materials and Mechanical Design, Volume 1, Third Edition. Michigan.

Anwar M.S., dkk. 2016. The Pitting Resistance Of The Modified 13Cr Martensitic Stainless Steel in Chloride Solution, Dikirim ke Journal of Materials Science.

Mabruri Efendi, dkk. 2016.Tensile Properties of the Modified 13Cr Martensitic Stainless Steel. AIP Publishing. Pusat Penelitian Metalurgi dan Material-LIPI Gedung 470 Kawasan Puspiptek, Tangerang Selatan. Indonesia

ASM International Handbook Committee. 1993. Properties and Selection Irons, Steels, and High-Performance Alloys. ASM Metals Handbook, Vol 01. United States of America

ASM International Handbook Committee. 1991. Heat Treating. ASM Metals Handbook, Vol 04. United States of America

B. Qin, dkk. 2008. Effect of Tempering Temperatur on Properties of 00Cr16Ni5Mo Stainless Steel. Material Characterization 59 (2008) 1096-1100. China.

Isfahany A. Nasery, dkk. 2010. The effect of heat treatment on mechanical properties and corrosion behavior of AISI420 martensitic stainless steel. Journal of Alloys and Coumponds 509(9) 3931-3936. Iran.

ASM International Handbook Committee. 2004. Metalography and Microsructure. ASM Metals Handbook, Vol 09. United States of America

ASTM International. 2005. Standard Specification for Stainless Steel Bars and Shapes. Copyright © ASTM International, 100 Barr Harbor Drive, PO Box C700, West Conshohocken, PA 19428-2959, United States.

http://www.azom.com/article.aspx?ArticleID=970 Nilai Kekerasan 410 tanpa paduan. (diakses 09 Agustus 2016)

I. Calliari, dkk. 2008. Investigation of microstructure and properties of a Ni–Mo martensitic stainless steel. Material and Design 29 246-290. Italy.

Prifirhani Siska, dkk. 2016. Pengaruh Perlakuan Panas Terhadap Struktur Mikro dan Ketahan Korosi Baja Tahan Karat 13Cr-1Mo. Widyariset Vol.2 No.1 Hlm.9-16. Pusat Penelitian Metalurgi dan Material-LIPI Gedung 470 Kawasan Puspiptek, Tangerang Selatan. Indonesia

Barlow, Lilian D. 2012. The Effect of Austenitising and Tempering Parameters on The Microstructure and Hardness of Martensitic Stainless Steel AISI 420. Built Enviroment 21 1327-1336.

Kumar, Amit dkk. 2015. Pitting Corrosion Resistance and Bond Strength of Stainless Steel Overlay by Friction Surfacing on High Strength Low Aloy Steel. Defence Technology 11(3) 299-307.

Nickel Development Institute. High Temperatur Characteristics Of Stainless Steel. A Designers Handbook Series N 9004. American Iron And Steel Institute. America