Multi-Objective Optimization of a Two-Stage Helical Gearbox with Second Stage Double Gear-Sets Using TOPSIS Method-Reference-Cited by-同舟云学术

Multi-Objective Optimization of a Two-Stage Helical Gearbox with Second Stage Double Gear-Sets Using TOPSIS Method

Published:2024-06-05 Issue:6 Volume:12 Page:1160
ISSN:2227-9717
Container-title:Processes
language:en
Short-container-title:Processes

Author:

Dinh Van-Thanh¹,Tran Huu-Danh²,Bui Thanh-Danh³,Vu Duc-Binh⁴,Vu Duong⁵,Vu Ngoc-Pi⁶^ORCID,Truong Thi-Thu-Huong⁶^ORCID

Affiliation:

1. Electronics and Electrical Department, East Asia University of Technology, Trinh Van Bo Street, Hanoi City 12000, Vietnam

2. Faculty of Mechanical Engineering, Vinh Long University of Technology Education, 73 Nguyen Hue Street, Ward 2, Vinh Long City 85110, Vietnam

3. Faculty of Mechanical Engineering, University of Transport and Communications, 3 Cau Giay Street, Ward Lang Thuong, Hanoi City 12000, Vietnam

4. Faculty of Mechanical Engineering, Viet Tri University of Industry, 09 Tien Son Street, Viet Tri City 35100, Vietnam

5. School of Engineering and Technology, Duy Tan University, 03 Quang Trung Street, Hai Chau Ward, Da Nang City 550000, Vietnam

6. Faculty of Mechanical Engineering, Thai Nguyen University of Technology, 3/2 street, Tich Luong Ward, Thai Nguyen City 251750, Vietnam

Abstract

The multi-criteria decision-making (MCDM) method was applied in a novel way in this study to the multi-objective optimization problem (MOOP) of designing a two-stage helical gearbox with double gear-sets in the second stage. Finding the best fundamental components to increase gearbox efficiency and decrease gearbox cross-section area was the aim of this study. Three main design factors were chosen for investigation in this work: the first stage gear ratio and the first and second stage coefficients of wheel face width (CWFW). Phase 1 solves the single-objective optimization problem to reduce the gap between variable levels, and phase 2 solves the MOOP to determine the optimal critical design factors. This additionally splits the MOOP into two phases. Additionally, the TOPSIS method was used as an MCDM approach to address the multi-objective optimization issue, and the entropy approach was used to compute the weight criteria. In this study, gearbox efficiency is calculated by considering power losses during idle motion. The multi-objective optimization of a helical gearbox with second stage double gear-sets is addressed using the TOPSIS technique for the first time.

Publisher

MDPI AG

Link

https://www.mdpi.com/2227-9717/12/6/1160/pdf

Reference23 articles.

1. Multi-speed gearbox design using multi-objective evolutionary algorithms;Deb;J. Mech. Des.,2003

2. Multi-objective spur gear pair optimization focused on volume and efficiency;Miler;Mech. Mach. Theory,2018

3. Ananthapadmanabhan, R., Babu, S.A., Hareendranath, K.R., Krishnamohan, C., Krishnapillai, S., and Krishnan, A. (2016). IOP Conference Series: Materials Science and Engineering, IOP Publishing.

4. Multi-objective optimization of two-stage helical gear train using NSGA-II;Sanghvi;J. Optim.,2014

5. Multi-objective optimization of spur gearbox with inclusion of tribological aspects;Patil;J. Frict. Wear,2017

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