Sementasyon İşleminin Sıcak İş Takım Çeliklerinin Aşınma Davranışına Etkisinin İncelenmesi

Year 2022, Volume: 3 Issue: 2, 1 - 7, 18.12.2022

Sharfuldeen Ali Abourawi Alfaydh , Harun Çuğ , Yasin Akgül , Alper İncesu , Andinet Kumella Eticha , Salih Birhanu Ahmed

Abstract

Bu çalışmada, iki farklı süre (3 saat ve 6 saat ) ve iki farklı sıcaklıkta (800 °C ve 930 °C) gerçekleştirilen kutu sementasyon işlemlerinin AISI H13 sıcak iş takım çeliğinin kuru ve korozif (%3,5 NaCl çözeltisi) ortamdaki aşınma davranışlarına etkileri incelenmiştir. Numunelerin sementasyona uğramış yüzeylerinin kesitleri Taramalı Elektron Mikroskobu ile incelenmiş, sementasyona bağlı sertlik değişimleri Vickers mikro sertlik ölçümü ile değerlendirilmiştir. En yüksek sertlik değerine (1011 HV) 930 °C’de 3 saat sementasyona uğratılan numunede ulaşılmıştır. Artan yüzey sertliğine bağlı olarak kuru ortamda en yüksek aşınma direncine de 930 °C’de 3 saat sementasyona uğratılan numune sahiptir. Korozif ortamda yapılan aşınma testinde ise sementasyona uğramamış AISI H13 sıcak iş takım çeliğinin daha yüksek aşınma direncine sahip olduğu anlaşılmıştır.

Keywords

Sementasyon, Takım çelikleri, Aşınma, Sertlik, Cementation, Tool steels, Wear, Hardness

Investigation of the Effect of Cementation Process on the Wear Behavior of Hot Work Tool Steels

Abstract

In this study, the effects of pack cementation processes performed for two different durations (3 hours and 6 hours) and two different temperatures (800 °C and 930 °C) on the wear behavior of AISI H13 hot tool steel in dry and corrosive (3.5% NaCl solution) environments were investigated. The sections of cemented surfaces of the samples were examined by Scanning Electron Microscope and the hardness changes due to cementation were evaluated by Vickers micro hardness measurement. The highest hardness value (1011 HV) was reached in the sample cemented at 930 °C for 3 hours. Due to the increased surface hardness, the sample cemented for 3 hours at 930 °C has the highest wear resistance in a dry environment. In the abrasion test carried out in a corrosive environment, it was found that AISI H13 hot work tool steel, which has not been cemented, has a higher abrasion resistance.

Keywords

Cementation, Tool steels, Wear, Hardness

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