Application of the Taguchi method and RSM for process parameter optimization in AWSJ machining of CFRP composite-based orthopedic implants-Reference-Cited by-同舟云学术

Application of the Taguchi method and RSM for process parameter optimization in AWSJ machining of CFRP composite-based orthopedic implants

Published:2024-01-01 Issue:1 Volume:14 Page:
ISSN:2391-5439
Container-title:Open Engineering
language:en
Short-container-title:

Author:

Kodandappa Ramesha¹^ORCID,Nagaraja Santhosh²^ORCID,Chowdappa Manjunatha Matnahalli³^ORCID,Krishnappa Manjunath⁴^ORCID,Poornima Gubbi Shivarathri⁵^ORCID,Ammarullah Muhammad Imam⁶⁷^ORCID

Affiliation:

1. Department of Mechanical and Automobile Engineering, School of Engineering and Technology, CHRIST (Deemed to be University) , Bangalore , 560074, Karnataka , India

2. Department of Mechanical Engineering, MVJ College of Engineering , Bangalore , 560067, Karnataka , India

3. Department of Mechanical Engineering, Bangalore Institute of Technology , Bangalore , 560004, Karnataka , India

4. Department of Mechanical Engineering, S.E.A. College of Engineering and Technology , Bangalore , 560049, Karnataka , India

5. Department of Chemistry, New Horizon College of Engineering , Bangalore , 560103, Karnataka , India

6. Department of Mechanical Engineering, Faculty of Engineering, Universitas Diponegoro , Semarang , 50275 , Central Java , Indonesia

7. Undip Biomechanics Engineering & Research Centre (UBM-ERC), Universitas Diponegoro, Semarang , 50275 , Central Java , Indonesia

Abstract

Abstract Abrasive water suspension jet (AWSJ) machining on carbon fiber-reinforced polymer (CFRP) composite-based orthopedic implants yielded insightful results based on experimental data and subsequent statistical validations. Underwater AWSJ cutting consistently outperformed free air cutting, with numerical findings demonstrating its superiority. For instance, at #100 abrasive size and 5 mm standoff distance (SOD), the material removal rate (MRR) peaked at 2.44 g/min with a kerf width of 0.89 mm and a surface roughness (SR) of 9.25 µm. Notably, the increase in abrasive size correlated with higher MRR values, such as achieving 2.15 g/min at #120 grit and 3 mm SOD. Furthermore, optimization techniques like the Taguchi method and response surface methodology (RSM) were applied to refine machining parameters. These methodologies enhanced MRR, exemplified by achieving 2.10 g/min with #120 abrasive size and 5 mm SOD in underwater cutting conditions. The research explored the impact of key process parameters, namely, the speed, feed, and SOD on the MRR, kerf width, and SR in both free air cutting and underwater cutting conditions, which is one of the novel research endeavors in the domain of abrasive jet machining of composites.

Publisher

Walter de Gruyter GmbH

Link

https://www.degruyter.com/document/doi/10.1515/eng-2024-0057/pdf

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