Mechanical properties of the grooved-wheel drilling particles under multivariate interaction influenced based on 3D printing and EDEM simulation

•Analyze the velocity of and force on the particles at different helix angles in the drilling process.•With the 3D printing technology, a brand new grooved wheel was designed and produced.•Analysis the Multivariate Interactive influenced of the fertilizer process of grooved wheel.•Establish the simu...

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Published inComputers and electronics in agriculture Vol. 172; p. 105329
Main Authors Sun, Jianfeng, Chen, Huaming, Duan, Jieli, Liu, Zhu, Zhu, Qingchuang
Format Journal Article
LanguageEnglish
Published Amsterdam Elsevier B.V 01.05.2020
Elsevier BV
Subjects
3-D printers
3D printing
Coefficient of variation
Computer simulation
Developing countries
Discharge
drilling
Drilling machines (tools)
EDEM simulation
engineering
Fertilization
Fertilizers
Grooved wheel
Grooves
LDCs
Mechanical properties
Mechanical properties of particles
Model accuracy
Multivariate analysis
Multivariate interaction influenced
Parameters
Regression analysis
Regression models
Response surface methodology
seeds
Simulation
simulation models
sowing
Three dimensional printing
Velocity
Grooved wheel
Multivariate interaction influenced
Mechanical properties of particles
EDEM simulation
3D printing
Online AccessGet full text
ISSN0168-1699
1872-7107
DOI10.1016/j.compag.2020.105329

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Abstract •Analyze the velocity of and force on the particles at different helix angles in the drilling process.•With the 3D printing technology, a brand new grooved wheel was designed and produced.•Analysis the Multivariate Interactive influenced of the fertilizer process of grooved wheel.•Establish the simulation and regression models with small relative error. The grooved-wheel drilling device is one of the most widely used seeding and fertilizing equipment in developing countries. In the drilling process of the grooved wheel, the particles (fertilizers or seeds) are subject to great force which easily causes the particles broken or the grooved wheel stuck. Therefore, in this paper, the EDEM simulation software was used to analyze the velocity of and force on the particles in the drilling process, to obtain the maximum discharging velocity of and the force on the particles at different helix angles in the drilling process. With the 3D printing technology, a brand new grooved wheel was designed and produced. The response surface methodology was adopted to analysis of the influence of multiple factors on indicators in the grooved-wheel fertilizing process to build a multivariate regression model to obtain the best working parameters. The accuracy of the simulation and regression models was verified with fertilizer amount as an indicator. The simulation and experimental results show that in static and dynamic conditions, the force on the particles decreases first and then increases with the increase of helix angle. In static condition, discharging velocity of the particles increases first and then decrease with the increase of helix angle, followed by fluctuations in a small range. In dynamic condition, discharging velocity of the particles first decreases and then increases with the increase of helix angle, and finally fluctuates in a small range. The best parameters for fertilizing are as follows: groove radius of 13.5 mm, helix angle of 62°, rotational speed of 29.4r/min, tilt angle of fertilizer feeder of 5°, fertilizer amount of 17.810 g, and variation coefficient of fertilizer amount of 5.60%. The relative errors between the EDEM simulation and the regression model and the experiments are 0.90% and 3.55%, respectively. The simulation model and the regression model were built with practical engineering application value.
AbstractList •Analyze the velocity of and force on the particles at different helix angles in the drilling process.•With the 3D printing technology, a brand new grooved wheel was designed and produced.•Analysis the Multivariate Interactive influenced of the fertilizer process of grooved wheel.•Establish the simulation and regression models with small relative error. The grooved-wheel drilling device is one of the most widely used seeding and fertilizing equipment in developing countries. In the drilling process of the grooved wheel, the particles (fertilizers or seeds) are subject to great force which easily causes the particles broken or the grooved wheel stuck. Therefore, in this paper, the EDEM simulation software was used to analyze the velocity of and force on the particles in the drilling process, to obtain the maximum discharging velocity of and the force on the particles at different helix angles in the drilling process. With the 3D printing technology, a brand new grooved wheel was designed and produced. The response surface methodology was adopted to analysis of the influence of multiple factors on indicators in the grooved-wheel fertilizing process to build a multivariate regression model to obtain the best working parameters. The accuracy of the simulation and regression models was verified with fertilizer amount as an indicator. The simulation and experimental results show that in static and dynamic conditions, the force on the particles decreases first and then increases with the increase of helix angle. In static condition, discharging velocity of the particles increases first and then decrease with the increase of helix angle, followed by fluctuations in a small range. In dynamic condition, discharging velocity of the particles first decreases and then increases with the increase of helix angle, and finally fluctuates in a small range. The best parameters for fertilizing are as follows: groove radius of 13.5 mm, helix angle of 62°, rotational speed of 29.4r/min, tilt angle of fertilizer feeder of 5°, fertilizer amount of 17.810 g, and variation coefficient of fertilizer amount of 5.60%. The relative errors between the EDEM simulation and the regression model and the experiments are 0.90% and 3.55%, respectively. The simulation model and the regression model were built with practical engineering application value.
The grooved-wheel drilling device is one of the most widely used seeding and fertilizing equipment in developing countries. In the drilling process of the grooved wheel, the particles (fertilizers or seeds) are subject to great force which easily causes the particles broken or the grooved wheel stuck. Therefore, in this paper, the EDEM simulation software was used to analyze the velocity of and force on the particles in the drilling process, to obtain the maximum discharging velocity of and the force on the particles at different helix angles in the drilling process. With the 3D printing technology, a brand new grooved wheel was designed and produced. The response surface methodology was adopted to analysis of the influence of multiple factors on indicators in the grooved-wheel fertilizing process to build a multivariate regression model to obtain the best working parameters. The accuracy of the simulation and regression models was verified with fertilizer amount as an indicator. The simulation and experimental results show that in static and dynamic conditions, the force on the particles decreases first and then increases with the increase of helix angle. In static condition, discharging velocity of the particles increases first and then decrease with the increase of helix angle, followed by fluctuations in a small range. In dynamic condition, discharging velocity of the particles first decreases and then increases with the increase of helix angle, and finally fluctuates in a small range. The best parameters for fertilizing are as follows: groove radius of 13.5 mm, helix angle of 62°, rotational speed of 29.4r/min, tilt angle of fertilizer feeder of 5°, fertilizer amount of 17.810 g, and variation coefficient of fertilizer amount of 5.60%. The relative errors between the EDEM simulation and the regression model and the experiments are 0.90% and 3.55%, respectively. The simulation model and the regression model were built with practical engineering application value.
ArticleNumber 105329
Author Duan, Jieli
Liu, Zhu
Zhu, Qingchuang
Sun, Jianfeng
Chen, Huaming
Author_xml – sequence: 1
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  surname: Sun
  fullname: Sun, Jianfeng
  organization: College of Engineering, South China Agricultural University, Guangzhou 510642, China
– sequence: 2
  givenname: Huaming
  surname: Chen
  fullname: Chen, Huaming
  organization: College of Engineering, South China Agricultural University, Guangzhou 510642, China
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  givenname: Jieli
  surname: Duan
  fullname: Duan, Jieli
  email: duanjieli@scau.edu.cn
  organization: College of Engineering, South China Agricultural University, Guangzhou 510642, China
– sequence: 4
  givenname: Zhu
  surname: Liu
  fullname: Liu, Zhu
  organization: School of Materials, The University of Manchester, Manchester M139PL, UK
– sequence: 5
  givenname: Qingchuang
  surname: Zhu
  fullname: Zhu, Qingchuang
  organization: College of Engineering, South China Agricultural University, Guangzhou 510642, China
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Keywords Grooved wheel
Multivariate interaction influenced
Mechanical properties of particles
EDEM simulation
3D printing
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Snippet •Analyze the velocity of and force on the particles at different helix angles in the drilling process.•With the 3D printing technology, a brand new grooved...
The grooved-wheel drilling device is one of the most widely used seeding and fertilizing equipment in developing countries. In the drilling process of the...
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SubjectTerms 3-D printers
3D printing
Coefficient of variation
Computer simulation
Developing countries
Discharge
drilling
Drilling machines (tools)
EDEM simulation
engineering
Fertilization
Fertilizers
Grooved wheel
Grooves
LDCs
Mechanical properties
Mechanical properties of particles
Model accuracy
Multivariate analysis
Multivariate interaction influenced
Parameters
Regression analysis
Regression models
Response surface methodology
seeds
Simulation
simulation models
sowing
Three dimensional printing
Velocity
Title Mechanical properties of the grooved-wheel drilling particles under multivariate interaction influenced based on 3D printing and EDEM simulation
URI https://dx.doi.org/10.1016/j.compag.2020.105329
https://www.proquest.com/docview/2438221574
https://www.proquest.com/docview/2439442010
Volume 172
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