Pengaruh Proses Rolling terhadap Struktur Mikro dan Sifat Mekanis pada Kuningan setelah diproses ecap

Article Sidebar

cover
PDF
Published: Nov 1, 2014
DOI: https://doi.org/10.24912/poros.v12i2.169

Main Article Content

Julyadi Julyadi
Program Studi Teknik Mesin Fakultas Teknik Universitas Tarumanagara
Suryadi Suryadi
PTIP BPPT
Erwin Siahaan
Program Studi Teknik Mesin Fakultas Teknik Universitas Tarumanagara
Eddy S. Siradj
Universitas Indonesia

Abstract

Abstract: Brass material widely used in industry because it has the advantage of being a metal that resists corrosion, has high ductility, good toughness and easy on the form. This study was conducted to determine the effect of rolling process on mechanical properties and microstructure of metal brass after ECAP process on brass (CuZn) 70/30. The initial step is to make the specimens with a diameter of 10 mm and height 80 mm has been done annealing 600 ° C with a hold time of 90 minutes. Then a ECAP 3-pass process and cold rolling process. To determine the mechanical properties of tensile test specimens and hardness test) and metallographic observations to determine the microstructure. The results after the execution of the research note that the specimen after passing through annealing process, ECAP and rolling have a higher hardness. Prior to treatment the specimen hardness value is 78 VHN and after treatment to 252 VHN hardness value. Metallographic observations of known properties of brass increasingly refined microstructure and grain boundary between micro become increasingly tight.

Article Details

Issue
Vol. 12 No. 2 (2014): Jurnal Ilmiah Teknik Mesin POROS
Section
Articles

Creative Commons License
This work is licensed under a Creative Commons Attribution-NonCommercial-ShareAlike 4.0 International License.

References

Copper Development Association, Pub 117 The Brasses- Properties & Applications. Page 35- 44. UK. 2005.

American Society for Testing and Materials, Manual on Low Cycle Fatique Testing, ASTM STP, Vol. 465, Philadelphia, PA, 1969.

Dieter G. E. Metalurgi mekanik: jilid 2, Erlangga. 1992.

Callister W.D. Materials Science and Engineering: An Introduction7th edition. 2007.

Horita Z, Fujinami T, Langdon T.G. “The potential for scaling ECAP: effect of sample size

on grain refinement and mechanical properties”, Materials Science and Engineering A318 pp.

- 41. 2001.

Kazeem O. Sanusi, Oluwole D.M, Graeme J. Oliver. equal channel angular pressing

technique for the formation of ultra-fine grained structures. AOSIS Open Journals. South

Africa. 2012.

Valiev R.Z dan Langdon T.G. “Principles of equal-channel angular pressing as a processing

tool for grain refinement”, Progress in Material Science 51, pp. 881- 981. 2006.

Suryadi. Laporan Penelitian 1: Studi pembentukan subgrain dan butir halus pada kuningan alfa melalui proses severe plastic deformation. Department of Metallurgy and Materials

Engineering University of Indonesia. 2012.