Standard
Structural optimisation of a subsoiler. / Topakci, Mehmet; Celik, H Kursat; Canakci, Murad et al.
In:
Pakistan Journal of Scientific and Industrial Research, Vol. 53, No. 5, 09.2010, p. 281-287.
Research output: Contribution to Journal/Magazine › Journal article › peer-review
Harvard
Topakci, M, Celik, HK, Canakci, M, Karayel, D
& Rennie, A 2010, '
Structural optimisation of a subsoiler',
Pakistan Journal of Scientific and Industrial Research, vol. 53, no. 5, pp. 281-287.
APA
Topakci, M., Celik, H. K., Canakci, M., Karayel, D.
, & Rennie, A. (2010).
Structural optimisation of a subsoiler.
Pakistan Journal of Scientific and Industrial Research,
53(5), 281-287.
Vancouver
Author
Topakci, Mehmet ; Celik, H Kursat ; Canakci, Murad et al. /
Structural optimisation of a subsoiler. In:
Pakistan Journal of Scientific and Industrial Research. 2010 ; Vol. 53, No. 5. pp. 281-287.
Bibtex
@article{dfe14cd226544e819e8ce5eb63879901,
title = "Structural optimisation of a subsoiler",
abstract = "An experimental study of a subsoiler, used for deep tillage in agricultural fields, was carried out to determine its maximum draft force. The working conditions of teh subsoiler were simulated three-dimensionally. The simulation showed that a structural optimisation can be generated on a subsoiler framework body for reducing the weight. New design parameters of the framework were defined and finite element analysis gave an optimised redesign for teh subsoiler with the framework weight reduced by approximately 27.62%.",
keywords = "Subsoiler, Computer Aided Design, Finite element analysis, Structural Optimisation, Weight Reduction",
author = "Mehmet Topakci and Celik, {H Kursat} and Murad Canakci and Davut Karayel and Allan Rennie",
year = "2010",
month = sep,
language = "English",
volume = "53",
pages = "281--287",
journal = "Pakistan Journal of Scientific and Industrial Research",
issn = "0030-9885",
publisher = "PCSIR-Scientific Information Centre",
number = "5",
}
RIS
TY - JOUR
T1 - Structural optimisation of a subsoiler
AU - Topakci, Mehmet
AU - Celik, H Kursat
AU - Canakci, Murad
AU - Karayel, Davut
AU - Rennie, Allan
PY - 2010/9
Y1 - 2010/9
N2 - An experimental study of a subsoiler, used for deep tillage in agricultural fields, was carried out to determine its maximum draft force. The working conditions of teh subsoiler were simulated three-dimensionally. The simulation showed that a structural optimisation can be generated on a subsoiler framework body for reducing the weight. New design parameters of the framework were defined and finite element analysis gave an optimised redesign for teh subsoiler with the framework weight reduced by approximately 27.62%.
AB - An experimental study of a subsoiler, used for deep tillage in agricultural fields, was carried out to determine its maximum draft force. The working conditions of teh subsoiler were simulated three-dimensionally. The simulation showed that a structural optimisation can be generated on a subsoiler framework body for reducing the weight. New design parameters of the framework were defined and finite element analysis gave an optimised redesign for teh subsoiler with the framework weight reduced by approximately 27.62%.
KW - Subsoiler
KW - Computer Aided Design
KW - Finite element analysis
KW - Structural Optimisation
KW - Weight Reduction
M3 - Journal article
VL - 53
SP - 281
EP - 287
JO - Pakistan Journal of Scientific and Industrial Research
JF - Pakistan Journal of Scientific and Industrial Research
SN - 0030-9885
IS - 5
ER -