The influence of pressure to the stresses inside the plough body

Garus, S.; Nowak, M.; Garus, J.; Nabiałek, M.; Szota, M.; Błoch, K.

Artykuł - szczegóły

Tytuł artykułu

The influence of pressure to the stresses inside the plough body

Autorzy

Garus S. , Nowak M. , Garus J. , Nabiałek M. , Szota M. , Błoch K.

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http://journalamme.org

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Warianty tytułu

Języki publikacji

Abstrakty

Purpose: The aim of the study was to examine the structure of the plough body and determining areas most susceptible to damage. Design/methodology/approach: The analysis was performed using Finite Element Analysis (FEA) in AutoDesk Inventor Professional 2015. Characteristics of the materials that make up the individual parts correspond to the materials used for the production in the AGRO-MASZ company. Findings: Studies have shown the greatest stress distribution in the mouldboard shin, mouldboard and leg. Highest stresses on mouldboard occur in the area, which is also the most exposed to the abrasive wear. Research limitations/implications: It seems important to carefully examine the areas of the largest abrasive wear analysed plows bodies. Practical implications: FEA analysis allows pre-testing of the properties of the part before manufacturing. Creating a model and adding forces and pressures to it allows for huge savings for companies. It is possible to find weaknesses in designed products before they cause problems. In the production of bodies for ploughs critical is the selection of suitable material and then subjecting it to specialist heat treatment. Originality/value: Article allowed the estimation of the plow body stress of AGRO-MASZ company, the analysis of which has not yet been published. The studies allow for the continuous improvement of the quality of ploughs.

Słowa kluczowe

mouldboard design plough design FEM analysis stress analysis

projektowanie lemiesza konstrukcja pługu analiza MES analiza naprężeń

Wydawca

International OCSCO World Press

Czasopismo

Journal of Achievements in Materials and Manufacturing Engineering

Rocznik

2014

Tom

Vol. 66, nr 2

Strony

73--80

Opis fizyczny

Bibliogr. 20 poz., rys., tab.

Twórcy

autor

Garus S.

gari.sg@gmail.com

Institute of Physics, Technical University of Czestochowa, Al. Armii Krajowej 19, 42-200 Częstochowa, Poland

autor

Nowak M.

Research & Development Department of AGRO-MASZ Paweł Nowak Company, Strzelce Małe 78, 97-515 Masłowice, Poland

autor

Garus J.

Institute of Physics, Technical University of Czestochowa, Al. Armii Krajowej 19, 42-200 Częstochowa, Poland

autor

Nabiałek M.

Institute of Physics, Technical University of Czestochowa, Al. Armii Krajowej 19, 42-200 Częstochowa, Poland

autor

Szota M.

Institute of Materials Engineering, Technical University of Czestochowa, Al. Armii Krajowej 19, 42-200 Częstochowa, Poland

autor

Błoch K.

Institute of Physics, Technical University of Czestochowa, Al. Armii Krajowej 19, 42-200 Częstochowa, Poland

Bibliografia

[1] R. Lal, D.C. Reicosky, J.D. Hanson, Evolution of the plow over 10,000 years and the rationale for no-till farming, Soil & Tillage Research 93 (2007) 1-12.
[2] K. Shoji, Forces on a Model ‘Spot Plough’, Biosystems Engineering 87/1 (2004) 39-45.
[3] J.K. Kouwenhoven, U.D. Perdok, J. Boer, G.J.M. Oomen, Soil management by shallow mouldboard ploughing in The Netherlands, Soil & Tillage Research 65(2002) 125-139.
[4] A. Natsis, G. Petropoulos, C. Pandazaras, Influence of local soil conditions on moulboard ploughshare abrasive wear, Tribology International 41 (2008) 151-157.
[5] G. Gebresenbet, P.G. Kaumbutho, Comparative analysis of the field performances of a reversible animal-drawn prototype and conventional mouldboard ploughs pulled by a single donkey, Soil & Tillage Research 40 (1997) 169-183.
[6] J. Arvidsson, T. Keller, K. Gustafsson, Specefic draught for moulboard plough, chisel plough and disc harrow at different water contents, Soil & Tillage Research 79 (2004) 221-231.
[7] R.J. Godwin, M.J. O’Dogherty, C. Saunders, A.T. Balafoutis, A forge prediction model for mouldboard ploughs incorporating the effects of soil characteristic properties, plough geometric factors and ploughing speed, Biosystems Engineering 97 (2007) 117-129.
[8] S. Heinze, R. Rauber, R.G. Joergensen, Influence of mouldboard plough and rottary harrow tillage on microbial biomass and nutrient stocks in two long-term experiments on loess derived Luvisol, Applied Soil Ecology 46 (2010) 405-412.
[9] P.M.O. Owende, S.M. Ward, Reaction forces of lightweight muldboard ploughs at slow speeds of tilage in Nitosol, Vertisol and Ferrasol soils under two moisture conditions, Soil & Tillage Research 49 (1999) 313-323.
[10] M.B. McLaughlin, E.G. Gregorich, L.M. Dwyer, B.L. Ma, Effect of organic and inorganic soil nitrogen amendments on moulboard plow draft, Soil & Tillage Research 64 (2002) 211-219.
[11] G. Moitzi, M. Haas, H. Wagentristl, J. Boxberger, A. Gronauer, Energy consuption in cultivating and ploughing with traction improvement system and consideration of the rear furrow wheel-load in ploughing, Soil & Tillage Research 134 (2013) 56-60.
[12] A. Liang, N.B. McLaughlin, B.L. Ma, E.G. Gregorich, M.J. Morrison, S.D. Burtt, B.S. Patterson, L.I. Evenson, Changes in mouldboard plough draught and tractor fuel consuption on continuous corn after 18 years of organic and inorganic N amendments, Energy 52 (2013) 89-95.
[13] D.S. Shrestha, G. Singh, G. Gebresenbet, Optimizing Design Parameters of a Mouldboard Plough, Journal of Agricultural Engineering Research 78/4 (2001) 377-389.
[14] A. Formato, S. Faugno, G. Paolillo, Numerical Simulation of Soil-plough Mouldboard Interaction, Biosystem Engineering 92/3 (2005) 309-316.
[15] G. Guo, K. Araya, Improvement of Whitish Oasis Soil, Part 2: Preliminary Soil Bin Experiments with a Four-stage Subsoil Inverting Plough, Biosystem Engineering 85/1 (2003) 7-18.
[16] P. Soni, V.M. Salokhe, H. Nakashima, Modification of a mouldboard plough surface using arrays of polyethylene protuberances, Journal of Terramechanics 44 (2007) 411-422.
[17] E. Gutierrez de Rave, F.J. Jimenez-Hornero, J.M. Munoz-Piorno, J.V. Giraldez, The geometric characterization of mouldboard plough surfaces using splines, Soil & Tillage Research 112 (2011) 98-105.
[18] M.A. Aguilar, F.J. Aguilar, F. Aguera, F. Carvajal, The Evaluation of Close-range Photogrammetry for the Modelling of Mouldboard Plough Surfaces, Biosystems Engineering 90/4 (2005) 397-407.
[19] Z. Horvat, D. Filipovic, S. Kosutic, R. Emert, Reduction of mouldboard plough share wear by a combination technique of hardfacing, Tribology International 41 (2008) 778-782.
[20] A. Jaskulski, Autodesk Inventor Professional 2014PL / 2014+ Fusion / Fusion 360. Design methods, PWN, Warsaw, 2013 (in Polish).

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Bibliografia

Identyfikator YADDA

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