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  • 1 Szent István University Institute for Mechanical Engineering Technology, Faculty of Mechanical Engineering Gödöllő Hungary
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Research was performed on the friction, wear and efficiency of plastic gears made of modern engineering polymers and their composites both in a clean environment (adhesive sliding surfaces) and in an environment contaminated with solid particles and dust (abrasive), with no lubrication at all. The purpose is to give a general view about the results of abrasive wear tests including seven soil types as abrasive media. At the first stage of the research silicious sand was applied between the meshing gears and the wear of plastic and steel gears was evaluated and analyzed from the point of different material properties (elongation at break, hardness, yield stress, modulus of elasticity) and its combinations. The different correlations between the experienced wear and material features are also introduced. At the second stage of the project the abrasive sand was replaced with different physical soil types. The abrasive wear of gears is plotted in the function of soil types. The results highlight on the considerable role of physical soil types on abrasive wear resistance and the conclusions contain the detailed wear resistance. The results offer a new tribology database for the operation and maintenance of agricultural machines with the opportunity of a better material selection according to the dominant soil type. This can finally result longer lifetime and higher reliability of wearing plastic/steel parts.

  • Antal, M. (1989) Engineering application of plastics. I. II. (in Hungarian). Gépipari Tudományos Egyesület. Kiadványszerkesztési és Műszaki Iroda .

  • Barczi, A., Kupi, K., Tirczka, I. (1997) Basics for farming and plant cultivation for Hungarian regions (In: Ángyán, J. — Menyhért, Z. (ed.): Flexible plant cultivation and rational environment management. (in Hungarian). Mezőgazdasági Szaktudás Kiadó , Bp., 414.

  • Barczi, A., Centeri, Cs. (2005) Trends of erosion and deflation in Hungary. (In: Stefanovits)

  • P.-Micheli E. (2005) Significance of soils in XXI. Centory. (in Hungarian) MTA Társadalomkutató központ , Budapest, 403.

    P.-Micheli E. , '', in Significance of soils in XXI. Centory , (2005 ) -.

  • Barczi, A., Füleky, Gy., Gentischer, P., Néráth, M. (1999): Basics of soil science for agricultural Butility of Tihany region. (in Hungarian). Növénytermelés . (48), No. 3., 301–310.

  • Beer, Gy., Kalácska, G., Pellényi, L. (1995) Wear resistance tests of farm-machines materials. (in Hungarian). Járművek és Mezőgazdasági Gépek . Budapest, 1995/2/64–67.

  • Birkás, M., Dexter, A. R., Kalmár, T. Bottlik, L. (2006) Soil quality — soil condition — production stability. Cereal Research Comm. 34.1. 135–138.

    Bottlik L. , 'Soil quality — soil condition — production stability ' (2006 ) 34. Cereal Research Comm. : 135 -138.

    • Search Google Scholar
  • Bushan, B. (2001) Modern Tribology Handbook. Vol I. & II: CRC Press LLC. New York.

    Bushan B. , '', in Modern Tribology Handbook. Vol I. & II , (2001 ) -.

  • Czichos, H. (1987) Tribology-A System Approach to the Science and Technology of Friction, Lubrication and Wear. Elsevier , Amsterdam.

    Czichos H. , '', in Tribology-A System Approach to the Science and Technology of Friction, Lubrication and Wear , (1987 ) -.

  • DeBaets, P., Kalácska, G. (2004) Friction and Thermal Effects of Engineering Plastics Sliding Against Steel and DLN-Coated Counterfaces. = Tribology Letters 17(2).

  • Plenum Publishing Corporation. 269–288. DeBaets, P., VanParys, F. Kalacska, G. (2002) The friction and wear of different polymers under high load conditions. Synthetic lubrication , Vol 18, 09–118.

    Kalacska G. , 'The friction and wear of different polymers under high load conditions ' (2002 ) 18 Synthetic lubrication : 09 -118.

    • Search Google Scholar
  • DeBruyne, F. (1999) Technical manual of semi-finished engineering polymers. DSM EPP, Tielt. Belgium.

    DeBruyne F. , '', in Technical manual of semi-finished engineering polymers , (1999 ) -.

  • Eberst, O. (2005) Abrasive wear of engineering polymers. PhD thesis . Universitatea De Nord, Baia Mare .

    Eberst O. , '', in Abrasive wear of engineering polymers , (2005 ) -.

  • Edmister, T., Fouss, L. (1966) Drainage with plastic materials in the United States. Materia Plastiche ed Elastomeri . 32/3)

  • Horánszky, Zs., Szabó, A., Turi, I. (1979) Plastics in the agriculture (in Hungarian). Műszaki Könyvkiadó .

  • Kalácska, G. Zsidai, L., Kozma, M., DeBaets, P., Vercammen, K. (2002) Tribology research of engineering plastics by different tests. Bulletin of the Szent István University. Gödöllő 2001–2002. 119–127.

  • Kalácska, G., De Baets, P. (2002) Tribological research of up-to-date, environment-friendly self-lubricating materials: correlation between large scale and smallscale tribotesting Int. Conf. On Machinery , May. 2002, Budapest (Hungary) 194–199.

  • Kalacska, G., Keresztes, R., Zsidai, L. (2002) Self-lubricating polyamides. Intertribo . Stara Lesna. 194–198.

  • Kalacska, G., Keresztes, R., Debaets, P. (2003) Dynamic tribological testing of polymers. ICCE10. (Tenth annual international conference on composite/nano engineering) New Orleans, 293–295.

  • Kragelszkij, V., Mihin, N. (1987) Friction and wear calculation of machine structures. (in Hungarian). Műszaki Könyvkiadó .

  • Material properties and delivery program. Quattroplast Ltd . Hungary. 2004. Pellényi, L. (1997) Tribological and mechanical parameters of up-to-date, self-lubricated plywood-bearings of farm machines. PhD dissertation. GATE Gödöllő, 1997.

  • Placz, Gy. (1978) Polymer products of TVK for the agriculture (in Hungarian). Műanyag és Gumi . 15./2.

  • Prokisch, J., Hovánszki, D., Széles É., Kovács, B., Győri, Z. (2007) Inhomogenity of the agricultural soils in Hungary. Cereal Research Communications , Vol. 35, No. 2. 957–960.

    Győri Z. , 'Inhomogenity of the agricultural soils in Hungary ' (2007 ) 35 Cereal Research Communications : 957 -960.

    • Search Google Scholar
  • Stefanovits, P., Filep, Gy. and Füleky, Gy. (1999) Soil Science. (in Hungarian). Mezőgazda kiadó , Budapest.

  • Szabó, A. (1974) Soil improvement with polymer foams (in Hungarian). Mezőgazdasági Technika. 3 .

  • Szendrő, P., Nagy, J., Vincze, Gy. (2005) Analyses of Chopping Cylinder Drive Torque Components. Progress in Agricultural Engineering . Akadémiai kiadó, Budapest. 33–56.

    Vincze Gy. , '', in Progress in Agricultural Engineering , (2005 ) -.

  • Szodfridt I. (1994) Study of productive lands in forestry. (in Hungarian). Mezőgazda Kiadó , Budapest.

  • Tiba, Zs. (2006) Bending and Torsional Vibrations of Long Cardan Drives. Progress in Agricultural Engineering . Akadémiai kiadó, Budapest, 1–34.

    Tiba Zs. , '', in Progress in Agricultural Engineering , (2006 ) -.

  • Valasek, I. (2002) Tribológia. Vol. 1. Tribotechnik Kft. Budapest.

  • Vámos, E. (1983) Tribology handbook Friction wear and lubrication of machines and machine elements. (in Hungarian). Műszaki Könyvkiadó .

  • Zsidai, L., Kalácska, G., Vercammen, K. Van Acker, De Baets, P. (2002) The different tribological behaviour of polymers on DLN coating and steel surface. Insycont 2002 , Int. Congress On Tribology, Krakow (Poland). Tribologia nr.6/2002 (186), 1737–1750.

    Baets P. , '', in Insycont 2002 , (2002 ) -.

  • Zsidai, L., De Baets, P., Samyn, P., Kalacska, G., Van Peteghem, A.P., Van Parys, F. (2002): The tribological behaviour of engineering plastics during sliding friction investigated with small-scale specimens. WEAR 253 673–688.

  • Zsidai, L., Kislinder, E., DeBaets, P., Kozma, M., Kalacska, G., Samyn, P. (2002) Tribological properties of PA, POM, and PETP polymers by different tribological systems. Intertribo Stara Lesna. 255–258.

  • Yamaguchi, I. (1990) Tribology of plastic materials. Tribology series 16 . Elsevier. Amsterdam.

    Yamaguchi I. , '', in Tribology series 16 , (1990 ) -.

 

 

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Senior editors

Editor(s)-in-Chief: Felföldi, József

Chair of the Editorial Board Szendrő, Péter

Editorial Board

  • Beke, János (Szent István University, Faculty of Mechanical Engineerin, Gödöllő – Hungary)
  • Fenyvesi, László (Szent István University, Faculty of Mechanical Engineering, Gödöllő – Hungary)
  • Szendrő, Péter (Szent István University, Faculty of Mechanical Engineering, Gödöllő – Hungary)
  • Felföldi, József (Szent István University, Faculty of Food Science, Budapest – Hungary)

 

Advisory Board

  • De Baerdemaeker, Josse (KU Leuven, Faculty of Bioscience Engineering, Leuven - Belgium)
  • Funk, David B. (United States Department of Agriculture | USDA • Grain Inspection, Packers and Stockyards Administration (GIPSA), Kansas City – USA
  • Geyer, Martin (Leibniz Institute for Agricultural Engineering and Bioeconomy (ATB), Department of Horticultural Engineering, Potsdam - Germany)
  • Janik, József (Szent István University, Faculty of Mechanical Engineering, Gödöllő – Hungary)
  • Kutzbach, Heinz D. (Institut für Agrartechnik, Fg. Grundlagen der Agrartechnik, Universität Hohenheim – Germany)
  • Mizrach, Amos (Institute of Agricultural Engineering. ARO, the Volcani Center, Bet Dagan – Israel)
  • Neményi, Miklós (Széchenyi University, Department of Biosystems and Food Engineering, Győr – Hungary)
  • Schulze-Lammers, Peter (University of Bonn, Institute of Agricultural Engineering (ILT), Bonn – Germany)
  • Sitkei, György (University of Sopron, Institute of Wood Engineering, Sopron – Hungary)
  • Sun, Da-Wen (University College Dublin, School of Biosystems and Food Engineering, Agriculture and Food Science, Dublin – Ireland)
  • Tóth, László (Szent István University, Faculty of Mechanical Engineering, Gödöllő – Hungary)

Prof. Felföldi, József
Institute: MATE - Hungarian University of Agriculture and Life Sciences, Institute of Food Science and Technology, Department of Measurements and Process Control
Address: 1118 Budapest Somlói út 14-16
E-mail: felfoldi.jozsef@uni-mate.hu

Indexing and Abstracting Services:

  • SCOPUS
  • CABI

2020  
Scimago
H-index
8
Scimago
Journal Rank
0,197
Scimago
Quartile Score
Environmental Engineering Q4
Industrial and Manufacturing Engineering Q3
Mechanical Engineering Q4
Scopus
Cite Score
33/69=0,5
Scopus
Cite Score Rank
Environmental Engineering 126/146 (Q4)
Industrial and Manufacturing Engineering 269/336 (Q3)
Mechanical Engineering 512/596 (Q4)
Scopus
SNIP
0,211
Scopus
Cites
53
Scopus
Documents
41
Days from submission to acceptance 122
Days from acceptance to publication 40
Acceptance rate 86%

 

2019  
Scimago
H-index
6
Scimago
Journal Rank
0,123
Scimago
Quartile Score
Environmental Engineering Q4
Industrial and Manufacturing Engineering Q4
Mechanical Engineering Q4
Scopus
Cite Score
18/33=0,5
Scopus
Cite Score Rank
Environmental Engineering 108/132 (Q4)
Industrial and Manufacturing Engineering 242/340 (Q3)
Mechanical Engineering 481/585 (Q4)
Scopus
SNIP
0,211
Scopus
Cites
13
Scopus
Documents
5

 

Progress in Agricultural Engineering Sciences
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Progress in Agricultural Engineering Sciences
Language English
Size B5
Year of
Foundation
2004
Volumes
per Year
1
Issues
per Year
1
Founder Magyar Tudományos Akadémia  
Founder's
Address
H-1051 Budapest, Hungary, Széchenyi István tér 9.
Publisher Akadémiai Kiadó
Publisher's
Address
H-1117 Budapest, Hungary 1516 Budapest, PO Box 245.
Responsible
Publisher
Chief Executive Officer, Akadémiai Kiadó
ISSN 1786-335X (Print)
ISSN 1787-0321 (Online)

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