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2014 | 14 | 2 |

Tytuł artykułu

Influence of construction parameters on traction qualities of conveyor on an air cushion with inclined round channels

Autorzy

Treść / Zawartość

Warianty tytułu

RU
Vlijanie parametrov konstrukcii na tjagovye kachestva konvejjerov na vozdushnojj podushke s aklonnymi kruglymi kanalami

Języki publikacji

EN

Abstrakty

EN
RU

Wydawca

-

Rocznik

Tom

14

Numer

2

Opis fizyczny

p.96-102,fig.,ref.

Twórcy

autor
  • Polytechnic College of Lugansk National Agrarian University, Proletariatu Donbasu bl. 5, Lugansk, 91047, Ukraine
autor
  • Volodymyr Dahl East-Ukrainian National University, Molodizhny bl. 20a, Lugansk, 91034, Ukraine

Bibliografia

  • 1. Bobrov V.P., 1960.: Pneumatic trays in automatic load devices. Mechanization and industrial automation, 3, 7-9. (in Russian).
  • 2. Bitukov V.К., 1979.: Conveyor with air cushion. Mechanization and automation of production, 10, 3-5. (in Russian).
  • 3. Bitukov V.К., Kolodezhnov V.N., 1979.: Conveyors with air interlayer for transportation of cargoes. Material handling equipment, 30, 50. (in Russian).
  • 4. Dreszer K.A., Pawlowski T., Zagajski P., 2007.: The process of grain relocation with screw conveyors. TEKA Kom. Mot. Energ. Roln. OL PAN., 7, 86-96.
  • 5. Khanzhonkov V.I., 1975.: The aerodynamic characteristics of the carrier system with air cushion for the strip of metal. The technology of light alloys, 7, 55-62. (in Russian).
  • 6. Khanzhonkov V.I., 1981.: Aerodynamic calculation of bearing system with a gas cushion for thermal processing of metal strip. The technology of light alloys, 10, 61-69. (in Russian).
  • 7. Lu J., Huang G., 2008.: The Course Stability of an Air Cushion Vehicle. Shanghai Jiaotong University. Chinese edition, Vol. 42, 6, 914-918.
  • 8. Lu J., Huang G., Li S., 2009.: A study of maneuvering control for an air cushion vehicle based on back propagation neural network. Shanghai Jiaotong University. Science, Vol. 14, 4, 482-485.
  • 9. Murzinov V. L., 2009.: Lowering of noise of aerodynamic processes in production systems of transportation on an air cushion. Voronezh. (in Russian).
  • 10. Nechaev G.I., Turushin V.A., Turushina N.V., 2012.: Analysis of effectiveness in the application of conveyors with the air cushion for mechanization and automation of works in the zone of storage of drying storages. Visnik of the Volodymyr Dahl East Ukrainian National University, 6(177), 288-290. (in Russian).
  • 11. Pang M., Zhang S., Ni X., 2005.: Distributing Law of Air Cushion Parameter in Air Cushion Belt Conveyor. Jiangsu Polytechnic University, Vol. 17 (4), 27-29.
  • 12. Pronin M., 2012.: The mathematical model of the traction force coefficient of the conveyor on an air cushion with sloping round channels. TEKA Kom. Mot. Energ. Roln. OL PAN., Vol. 12, 3, 117-121.
  • 13. Sarsenova G. O., 2010.: Increase of efficiency of maintenance of an air cushion in conveyor. Vestnik of the Kazakh Academy of transport and communications, 3(64), 93-96. (in Russian).
  • 14. Song R., Ni X., Zheng X., 2006.: Current Situation and Development of Air Cushion Belt Conveyor. Jiangsu Polytechnic University., Vol. 18 ( 2), 61-64.
  • 15. Turushin V.A., Pronin M.A., 2005.: Traction force of conveyors on an air cushion with inclined feed channels. Visnik of the Volodymyr Dahl East Ukrainian National University, 6(88), 230-234. (in Russian).
  • 16. Turushin V.А., Pronin M.A., 2007.: The analysis of efficiency of the movement of loads by undriving conveyors on an air cushion with inclined feed channels. Visnik of the Volodymyr Dahl East Ukrainian National University, 3(109), 172-176. (in Ukrainian).
  • 17. Turushin V.A., Redko A.M., Kromina A.V., 2011.: Horizontal closed assembly conveyor. Visnik of the Volodymyr Dahl East Ukrainian National University, 5(159), 32-34. (in Russian).
  • 18. Turushina N.V., Turushin V.A., 2011.: Influence of the center-of-gravity disturbance of load relative to the center of the pan of conveyor with the air cushion on the resistance of the displacement. Visnik of the Volodymyr Dahl East Ukrainian National University, 5(159), 298-305. (in Russian).
  • 19. Yun L., Bliault A., 2000.: Theory and design of air cushion craft. Yun and A. Bliault. London.
  • 20. Zalewski W., 2003.: Air cushion creation methods in various types of hovercrafts, hovercrafts skirt design. Prace. Instytut Lotnictwa, Vol. 176, 17-20.
  • 21. Zhou J., Guo J., Tang W., Zhang S., 2009.: Nonlinear FEM Simulation of Air Cushion Vehicle (ACV) Skirt Joint Under Tension Loading. Naval Engineers Journal, Vol. 121, 2, 91-98.
  • 22. Zhou J., Tang W., Zhang S., 2009.: Sea keeping analysis of air cushion vehicle with different wave angles under the operation resistance. Shanghai Jiaotong University. Science, Vol. 14, 4, 471-475.
  • 23. Zloto T., Nagorka A., 2007.:. Analysis of the pressure distribution of oil film in the variable height gap between the valve plate and cylinder block in the axial piston pump. TEKA Kom. Mot. Energ. Roln. OL PAN., 7, 293-301.

Typ dokumentu

Bibliografia

Identyfikatory

Identyfikator YADDA

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