GRA based optimization of tool vibration and surface roughness in face milling of hardened steel alloy-Reference-Cited by-同舟云学术

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GRA based optimization of tool vibration and surface roughness in face milling of hardened steel alloy

Published:2022 Issue: Volume:50 Page:2288-2293
ISSN:2214-7853
Container-title:Materials Today: Proceedings
language:en
Short-container-title:Materials Today: Proceedings

Author:

Singh Talvinder^ORCID,Sharma Vijay Kumar,Rana Mohit,Singh Kamaljeet,Saini Abhineet

Publisher

Elsevier BV

Subject

General Medicine

Reference17 articles.

1. Optimization of end mill tool geometry parameters for Al7075-T6 machining operations based on vibration amplitude by response surface methodology;Subramanian;Measurement,2013

2. A review of machine-tool vibration and its influence upon surface generation in ultra-precision machining;Zhang;Int. J. Mach. Tools Manuf,2015

3. Measurements and evaluation of measurements of vibrations in steel milling process;Olejárová;Measurement,2017

4. Effect of machine tool’s spindle forced vibrations on surface roughness, dimensional accuracy, and tool wear in vertical milling of AISI P20;Zahoor;The International Journal of Advanced Manufacturing Technology.,2017

5. Experimental investigation of tool vibration and surface roughness in the precision end-milling process using the singular spectrum analysis;Chen;The International Journal of Advanced Manufacturing Technology.,2012

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2. Green machinability studies on SAE 8822 alloy steel using RSM and taguchi method;Matéria (Rio de Janeiro);2024

3. Multi-response optimization in face milling of EN-31 steel using analytical hierarchy process-based GRA;International Journal on Interactive Design and Manufacturing (IJIDeM);2023-10-18

4. Modeling and optimization of cutting process parameters in face milling of EN 31 alloy steel using nanoparticle fluids;Advances in Materials and Processing Technologies;2023-04-05

5. Influence of hybrid nanofluid on tool wear and surface roughness in MQL-assisted face milling of AISI 52100;Advances in Materials and Processing Technologies;2023-02-23

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