- citations in SCIndeks: [3]
- citations in CrossRef:[3]
- citations in Google Scholar:[
 ]
- visits in previous 30 days:7
- full-text downloads in 30 days:6
|
|
|
2016, vol. 66, iss. 2, pp. 28-35
|
|
Mechanical characteristics of joints between glass fiber reinforced composite tubes and steel cylinder obtained by different fastening elements
Mehaničke karakteristike spojeva između staklenim vlaknima ojačanih kompozitnih cevi i čeličnog cilindra ostvarenih pomoću različitih spojenih elemenata
Abstract
In this paper, investigation of tensile testing for specific assemblies of two elements, jointed by mechanical fasteners, are presented. One element is a specific small diameter tube. This element is produced by filament winding technology using glass fiber impregnated with polyester resin. Another element is cylindrical steel part, obtained by standard technology. Basic data about composite materials and mechanical fastening are presented. Pins and rings were used as mechanical fasteners. Data of tubes preparation and assembling glass fiber/polyester resin tubes and cylinder with pins and rings are presented. The assemblies specific composite material parts/metallic parts jointed by fasteners were exposed to the action of axial tensile stress. A tensile breaking force of the assemblies was determined and the influence of pins number to tensile breaking force was presented. A failure mechanism of specific composite tubes fastened with pins and rings is described.
Sažetak
U ovom radu prikazani su rezultati zateznog ispitivanja specifičnih podsklopova dva elementa, spojenih pomoću mehaničkih sredstava za spajanje. Jedan element je specifična cev malog prečnika. Ovaj element je proizveden tehnologijom mokrog namotavanja koristeći stakleno vlakno impregnisano poliestarskom smolom. Drugi element je cilindrični čelični deo, dobijen standardnom obradom. Navedeni su osnovni podaci o kompozitnim materijalima i mehaničkim sredstvima za spajanje. Pinovi i prstenovi su dva korišćena mehanička sredstva za spajanje. Podaci o izradi uzoraka cevi i spajanju cevi stakleno vlakno/poliestarska smola i cilindra pomoću pinova i prstenova su prikazani. Podsklopovi specifični kompozitni deo/metalni deo, spojeni pomenutim mehaničkim sredstvima za spajanje, bili su izloženi dejstvu aksijalnog zateznog opterećenja. Određena je zatezna prekidna sila sklopova i prikazan je uticaj broja pinova na zateznu prekidnu silu. Opisan je mehanizam oštećenja specifične kompozitne cevi, spojene pomoću pinova i prstenova.
|
|
|
|
References
|
|
10 
|
Ashby, M.F. (1999) Materials selection in mechanical design. Oxford: Butterworth Heinemann
|
|
 
|
Camanho, P.P., Lambert, M. (2006) A design methodology for mechanically fastened joints in laminated composite materials. Composites Science and Technology, 66(15): 3004-3020
|
|
|
Duthinh, D. (2000) Connections of fiber-reinforced polymer (FRP) structural members: A review of the state of art. Gaithersburg, USA: National Institute of Standards and Technology
|
|
|
Esendemir, U., Ondurucu, A. (2011) Comparasion of bolted joints with two different clearance types. Indian Journal of Engineering & Materials Science, Vol. 18, pp. 283-292, August
|
|
|
Gay, D. (2015) Composite materials, design and applications. Boca Raton: CRC Press, 3rd Ed
|
|
4
|
Groover, M.P. (2010) Fundamentals of modern manufacturing, materials, processes and systems. Hoboken: John Wiley and Sons Inc
|
|
6
|
Kelly, A. (1989) Concise encyclopedia of composite materials. Oxford: Pergamon Press, http://www.engidesk.com/publishing-area/Mechanically-fastended-joints.aspx
|
|
|
Radulović, J., Knežević, D. (2015) Ispitivanje uticaja spoljneg povišenog i umerenog vodenog pritiska na karakteristike zaptivenih termoplastičnih delova. Scientific Technical Review, vol. 65, br. 1, str. 15-22
|
|
3
|
Radulović, J. (2011) Filament wound composite plastic tubes: Relationship between winding structures and their hydraulic and mechanical properties. Scientific Technical Review, vol. 61, br. 3-4, str. 73-77
|
|
6
|
Radulović, J. (2008) Karakterizacija mokronamotanih polimernih kompozitnih materijala. Scientific Technical Review, vol. 58, br. 1, str. 66-75
|
|
2
|
Radulović, J. (2010) Uticaj cikličnog unutrašnjeg pritiska na kvalitet mokronamotanih kompozitnih cevi. Scientific Technical Review, vol. 60, br. 1, str. 54-60
|
|
|
Rosato, D.V., Rosato, D.V. (2004) Reinforced plastics handbook. Oxford: Elsevier Advanced Technology Ltd, 3rd ed
|
|
|
Rosato, D.V., Rosato, M.G., Rosato, D.V. (2000) Concise encyclopedia of plastics. Norwell: Kluwer Academic Publishers
|
|
|
Thoppul, S.D., Finegan, J., Gibson, R.F. (2009) Mechanics of mechanically fastened joints in polymer-matrix composite structures - A review. Composites Science and Technology, 69(3-4): 301-329
|
|
|
Vasiliev, V.V., Morozov, E.V. (2013) Advanced mechanics of composite materials and structural elements. New York: Elsevier Ltd, third edition
|
|
|
Xiao, Y., Ishikawa, T. (2005) Bearing strength and failure behavior of bolted composite joints (part I: Experimental investigation). Composites Science and Technology, 65(7-8): 1022-1031
|
|
|
|
|