Kinematic Design of a Seven-Bar Linkage with Optimized Centrodes for Pure-Rolling Cutting

Biao Liu; Yali Ma; Delun Wang; Shaoping Bai; Yangyang Li; Kangkang Li

doi:10.1155/2017/1586375

Kinematic Design of a Seven-Bar Linkage with Optimized Centrodes for Pure-Rolling Cutting

Biao Liu, Yali Ma, Delun Wang^*, Shaoping Bai, Yangyang Li, Kangkang Li

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Abstract

A novel method for designing a seven-bar linkage based on the optimization of centrodes is presented in this paper. The proposed method is applied to the design of a pure-rolling cutting mechanism, wherein close interrelation between the contacting lines and centrodes of two pure-rolling bodies is formulated and the genetic optimization algorithm is adopted for the dimensional synthesis of the mechanism. The optimization is conducted to minimize the error between mechanism centrodes and the expected trajectories, subject to the design requirements of the opening distance, the maximum amount of overlap error, and peak value of shearing force. An optimal solution is obtained and the analysis results show that the horizontal slipping and standard deviation of the lowest moving points of the upper shear blade have been reduced by 78.0% and 80.1% and the peak value of shear stress decreases by 29%, which indicate better cutting performance and long service life.

Originalsprog	Engelsk
Artikelnummer	1586375
Tidsskrift	Mathematical Problems in Engineering
Vol/bind	2017
Antal sider	11
ISSN	1024-123X
DOI	https://doi.org/10.1155/2017/1586375
Status	Udgivet - 2017

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10.1155/2017/1586375Licens: CC BY 4.0

Open Access articleForlagets udgivne version, 3,3 MBLicens: CC BY 4.0

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abstract = "A novel method for designing a seven-bar linkage based on the optimization of centrodes is presented in this paper. The proposed method is applied to the design of a pure-rolling cutting mechanism, wherein close interrelation between the contacting lines and centrodes of two pure-rolling bodies is formulated and the genetic optimization algorithm is adopted for the dimensional synthesis of the mechanism. The optimization is conducted to minimize the error between mechanism centrodes and the expected trajectories, subject to the design requirements of the opening distance, the maximum amount of overlap error, and peak value of shearing force. An optimal solution is obtained and the analysis results show that the horizontal slipping and standard deviation of the lowest moving points of the upper shear blade have been reduced by 78.0% and 80.1% and the peak value of shear stress decreases by 29%, which indicate better cutting performance and long service life.",

author = "Biao Liu and Yali Ma and Delun Wang and Shaoping Bai and Yangyang Li and Kangkang Li",

year = "2017",

doi = "10.1155/2017/1586375",

language = "English",

volume = "2017",

journal = "Mathematical Problems in Engineering",

issn = "1024-123X",

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T1 - Kinematic Design of a Seven-Bar Linkage with Optimized Centrodes for Pure-Rolling Cutting

AU - Liu, Biao

AU - Ma, Yali

AU - Wang, Delun

AU - Bai, Shaoping

AU - Li, Yangyang

AU - Li, Kangkang

PY - 2017

Y1 - 2017

N2 - A novel method for designing a seven-bar linkage based on the optimization of centrodes is presented in this paper. The proposed method is applied to the design of a pure-rolling cutting mechanism, wherein close interrelation between the contacting lines and centrodes of two pure-rolling bodies is formulated and the genetic optimization algorithm is adopted for the dimensional synthesis of the mechanism. The optimization is conducted to minimize the error between mechanism centrodes and the expected trajectories, subject to the design requirements of the opening distance, the maximum amount of overlap error, and peak value of shearing force. An optimal solution is obtained and the analysis results show that the horizontal slipping and standard deviation of the lowest moving points of the upper shear blade have been reduced by 78.0% and 80.1% and the peak value of shear stress decreases by 29%, which indicate better cutting performance and long service life.

AB - A novel method for designing a seven-bar linkage based on the optimization of centrodes is presented in this paper. The proposed method is applied to the design of a pure-rolling cutting mechanism, wherein close interrelation between the contacting lines and centrodes of two pure-rolling bodies is formulated and the genetic optimization algorithm is adopted for the dimensional synthesis of the mechanism. The optimization is conducted to minimize the error between mechanism centrodes and the expected trajectories, subject to the design requirements of the opening distance, the maximum amount of overlap error, and peak value of shearing force. An optimal solution is obtained and the analysis results show that the horizontal slipping and standard deviation of the lowest moving points of the upper shear blade have been reduced by 78.0% and 80.1% and the peak value of shear stress decreases by 29%, which indicate better cutting performance and long service life.

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U2 - 10.1155/2017/1586375

DO - 10.1155/2017/1586375

M3 - Journal article

AN - SCOPUS:85019924691

SN - 1024-123X

VL - 2017

JO - Mathematical Problems in Engineering

JF - Mathematical Problems in Engineering

M1 - 1586375

ER -

Kinematic Design of a Seven-Bar Linkage with Optimized Centrodes for Pure-Rolling Cutting

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