Kekerasan Produk Metalurgi Serbuk Berbahan Limbah Aluminium dengan Metode Kompaksi Bertahap
DOI:
https://doi.org/10.29303/jstl.v0i0.252Keywords:
aluminum, powder metallurgy, gradual compaction, hardnessAbstract
The product resulting from the powder metallurgy process has advantages in terms of mechanical properties and physical properties. Material engineering by mixing several types of metal powders is very possible to do. The composition of this powder metallurgical process material is a mixture of aluminum powder (80%), copper powder (15%) and silicon carbide powder (5%) by weight then compacted with a compaction load gradually, starting with a load of 3 tons, holding for 3 minutes, followed by a load of 3 tons. 4 tons were held for 3 minutes and the last 5 tons were held for 3 minutes by pre sintering 1250C. Sintering in the kitchen with temperature variations of 4500C, 5000C and 5500C and sintering time for 60 minutes. Tests carried out on the specimens were hardness tests using the Rockwell (HRF) method. The results showed that the hardness of a single material has a hardness of around 35 HRF. The average hardness of the mixed material at a sintering temperature of 4500C is 80 HRF. The hardness of the mixed material at a sintering temperature of 5000C on average is 74 HRF. Meanwhile, the hardness of the mixed material at a sintering temperature of 5500C averaged 52 HRF. It can be concluded that the application of heat at the time of compaction and the selection of the sintering temperature greatly affect the hardness of the product resulting from the powder metallurgy process.References
Fauziati dan Arfina, 2010. Sintesis MMCS Cu-Al2O3 melalui Proses Metalurgi Serbuk dengan variasi Fraksi Volume AL2O3 dan Temperatur Sintering sebagai Bahan Alternatif Kelongsong Peluru, Surabaya : Teknik Material dan Metalurgi
Medi A dan Karmiadji DW, 2010. Pengaruh kompaksi dan kandungan grafit terhadap karakteristik mekanis bantalan luncur connecting rod, Forum Teknik, 33(2),125-130.
Rusianto, Toto, 2005. Pembuatan Bushing dari Bahan Serbuk Komposit Al/Al2O3 dengan variasi penambahan Al2O3. Proseding Seminar Nasional ReTII di STTNas Yogyakarta. ISBN 979-99711-0-1.
Suanda T, 2006. Optimalisasi tekanan kompaksi, temperatur, dan waktu sintering terhadap kekerasan dan berat jenis aluminium pada proses pencetakan dengan metalurgi serbuk, Jurnal Ilmiah Semesta Teknika, 2 ( 9). 187-198.
Safrudin M., Yafiedan, Widyastuti, 2014. Pengaruh variasi temperature sintering dan waktu sintering terhadap densitas dan kekerasan pada MMC W-Cu melalui proses metalurgi serbuk, Jurnal Teknik Pomits, 3(1), 2337-3539.
Sari N.H., (2018) Material Teknik ,Edisi pertama, Deepublish, Yogyakarta, ISBN 9786024536718
Triadi A A., Yudhyadi IGNK., Suartika IM., Sari N.H., (2019). Efek suhu sintering terhadap sifat kekerasan dan kekuatan tekan bahan campuran Al/Cu/SiC melalui proses metalurgi serbuk, Jurnal Dinamika Teknik Mesin 9(2) 80-85
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