OPTIMIZATION OF WEAR RESISTANCE AND AMORPHOUS CONTENT FOR FECRMOCB-MG COMPOSITE BY USING FUZZY LOGIC CONTROL SYSTEM - Egyptian Knowledge Bank

207002

OPTIMIZATION OF WEAR RESISTANCE AND AMORPHOUS CONTENT FOR FECRMOCB-MG COMPOSITE BY USING FUZZY LOGIC CONTROL SYSTEM

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Last updated: 25 Dec 2024

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Abstract

Titanium alloy (Ti6Al4V), stainless steel, and cobalt chromium alloy (CoCr) are biomaterials used biomedical implants with limited acceptable biocompatibility because their low wear resistance. A ductile metallic low-nickel stainless steel alloy with metallic glass coating layer produces wear resist composite material. In this work, fuzzy logic control system (FLC) using for optimizing wear resistance and amorphous content of Fe-based MG (metallic glass) composite, papered its substrate surface by silicon carbide 240 grit sandpaper, and laser cladded with nickel free stainless steel. FLC controlling energy, overlap, spot size, and scanning for optimization purpose. The range of tolerance between experimental and fuzzy system results are 1% to 15%.

DOI

10.21608/jest.2021.207002

Keywords

Metallic alloy and glass, scanning speed, overlap, spot size, energy, Wear resistance, amorphous content, fuzzy control system

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First Name

M. A. Lashin

Last Name

Maha

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Affiliation

College of Engineering, Princess Nourah Bint Abdulrahaman University, Riyadh, 11564, Saudi Arabia,

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Z. Ibrahim

Last Name

Mahmoud

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Department of Mechanical Engineering, Faculty of Engineering, Ain Shams University, Cairo, 11517, Egypt,

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M. Makadi

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Ahmad

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Department of Manufacturing Engineering Technology, College of Technological Studies, PAAET, Kuwait.

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M. Hedaya

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Mohamed

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Department of Mechanical Engineering, Faculty of Engineering, Ain Shams University, Cairo, 11517, Egypt,

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29148

Issue Date

2021-10-01

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2021-09-27

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2021-10-01

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2090-5882

Online ISSN

2090-5955

Article File

JEST_Volume 18_Issue 4_Pages 66-78.pdf

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1,211

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Journal of the Egyptian Society of Tribology

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https://jest.journals.ekb.eg/

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OPTIMIZATION OF WEAR RESISTANCE AND AMORPHOUS CONTENT FOR FECRMOCB-MG COMPOSITE BY USING FUZZY LOGIC CONTROL SYSTEM

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Article

Created At

22 Jan 2023

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