BibTex RIS Kaynak Göster

Damage Development in Bolted Composites with Clearance Subjected to Preload

Yıl 2009, Cilt: 1 Sayı: 4, 52 - 66, 01.12.2009

Öz

In this study, a damage development process of glass-epoxy laminated composite bolted-joints with bolt/hole clearance under preload moments was investigated. To observe the effects of joint geometry and stacking sequence on the bearing strength and damage mode, parametric studies were performed experimentally. Two different geometrical parameters that were the edge distance-to-hole diameter ratio (E/D) and plate width-tohole diameter ratio (W/D) were considered. Hence, E/D and W/D ratios were selected from 1 to 5 and 2 to 5, respectively. In the meantime, the preload moments on the specimens were also applied as 0, 3 and 6 Nm. Due to observing material parameters effect on damage development, composite laminated plates were stacked three different orientations as [0o/0o/60o/-60o]s, [0o/0o/60o/60o]s and [0o/0o/30o/-30o]s. In addition, the experiments were performed under a clearance for the diameters of the bolt and the circular hole for 5 and 6 mm, respectively. Experimental results point out that failure mode and bearing strength related to damage development are strictly influenced from both material parameters and geometrical parameters. Furthermore, if the preload moments are applied to bolted-joints, the damage mechanism is completely affected from its increasing values

Kaynakça

  • Choi, J-H. and Chun, Y-J. Failure load prediction of mechanically fastened composite joints, Journal of Composite Materials, 2003; 37, 2163-2177.
  • Wu, T. J. and Hahn, H. T. The bearing strength of e-glass/vinyl-ester composites fabricated by vartm, Composites Science and Technology, 1997; 58, 1519-1529.
  • Scalea, F. L. D., Cappello, F. and Cloud, G. L. On the elastic behavior of a cross-ply composite pin-joint with clearance fits, Journal of Thermoplastic Composite Materials, 1999; 12, 13-22.
  • Pierron, F. Cerisier, F. and Grediac, M. A numerical and experimental study of woven composite pin-joints, Journal of Composite Materials, 2000: 34, 1028-1054.
  • Tong, L. Bearing failure of composite bolted joints with non-uniform bolt-to-washer clearance, Composites Part A: Applied Science and Manufacturing, 2000: 31, 609-615.
  • Meola, C., Squillace, A., Giorleo, G. and Nele, L. Experimental characterization of an innovative Glare fiber reinforced metal laminate in pin bearing, Journal of Composite Materials, 2003: 37, 1543-1552.
  • İçten, B. M. and Sayman, O. Failure analysis of pin-loaded aluminum-glass-epoxy sandwich composite plates, Composites Science and Technology, 2003; 63, 727-737.
  • Hamada, H., Maekawa Z. I. Strength prediction of mechanically fastened quasi-isotropic carbon/epoxy joints, Journal of Composite Materials, 1996: 30, 1596-1612.
  • Kovacs, N., Calado, L. and Dunai L. Behaviour of bolted composite joints: experimental study, Journal of Constructional Steel Research, 2004: 60, 725-738.
  • Sayman, O., Siyahkoc, R., Sen, F. and Ozcan, R. Experimental determination of bearing strength in fiber reinforced laminated composite bolted-joints under preload, Journal of Reinforced Plastics and Composites, 2007: 26, 1051-1063.
  • Sen, F. and Sayman, O. Experimental failure analysis of two serial bolted composite plates. Journal of Applied Polymer Science, 2009: 113, 502-515.
  • Whitworth, H. A. Othieno, M. and Barton, O. Failure analysis of composite pin loaded joints, Composite Structures, 2003: 59, 261-266.
  • Lin, C-C. and Lin, C-H. Stresses around pin-loaded hole in composite laminates using direct boundary element method, International Journal of Solids and Structures, 1999: 36, 763-783.
  • Wu, T. J. and Hahn, H. T. The Bearing strength of e-glass/vinyl-ester composites fabricated by vartm. Composites Science and Technology, 1997: 58, 1519-1529.
  • Chang, F. K. The effect of pin load distribution on the strength of pin loaded holes in laminated composites. Journal of Composite Materials, 1986: 20, 401-408.
  • Dano, M. L., Gendron, G., Piccard, A. Stress and failure analysis of mechanically fastened joints in composite laminates. Composite Structures, 2000: 50, 287-296.
  • Chang, F. K., Scott, R.A. and Springer, G. S. Failure of composite laminates containing pin loaded holes-method and solution. Journal of Composite Materials, 1984: 18, 255-278.
  • Mallick, P. K. Fiber-Reinforced Composites Materials, Manufacturing, and Design,Second Edition, Marcel Decker, 1993.
  • Jones, R. M. Mechanics of Composite Material. Taylor & Francis, 1999.
  • Gibson, R. F. Principals of Composite Material Mechanics. Mc Graw-Hill, 1994.
  • Reddy, J. N. Mechanics of Laminated Composite Plates; Theory and Analysis. CRC Press, 1997.
Yıl 2009, Cilt: 1 Sayı: 4, 52 - 66, 01.12.2009

Öz

Kaynakça

  • Choi, J-H. and Chun, Y-J. Failure load prediction of mechanically fastened composite joints, Journal of Composite Materials, 2003; 37, 2163-2177.
  • Wu, T. J. and Hahn, H. T. The bearing strength of e-glass/vinyl-ester composites fabricated by vartm, Composites Science and Technology, 1997; 58, 1519-1529.
  • Scalea, F. L. D., Cappello, F. and Cloud, G. L. On the elastic behavior of a cross-ply composite pin-joint with clearance fits, Journal of Thermoplastic Composite Materials, 1999; 12, 13-22.
  • Pierron, F. Cerisier, F. and Grediac, M. A numerical and experimental study of woven composite pin-joints, Journal of Composite Materials, 2000: 34, 1028-1054.
  • Tong, L. Bearing failure of composite bolted joints with non-uniform bolt-to-washer clearance, Composites Part A: Applied Science and Manufacturing, 2000: 31, 609-615.
  • Meola, C., Squillace, A., Giorleo, G. and Nele, L. Experimental characterization of an innovative Glare fiber reinforced metal laminate in pin bearing, Journal of Composite Materials, 2003: 37, 1543-1552.
  • İçten, B. M. and Sayman, O. Failure analysis of pin-loaded aluminum-glass-epoxy sandwich composite plates, Composites Science and Technology, 2003; 63, 727-737.
  • Hamada, H., Maekawa Z. I. Strength prediction of mechanically fastened quasi-isotropic carbon/epoxy joints, Journal of Composite Materials, 1996: 30, 1596-1612.
  • Kovacs, N., Calado, L. and Dunai L. Behaviour of bolted composite joints: experimental study, Journal of Constructional Steel Research, 2004: 60, 725-738.
  • Sayman, O., Siyahkoc, R., Sen, F. and Ozcan, R. Experimental determination of bearing strength in fiber reinforced laminated composite bolted-joints under preload, Journal of Reinforced Plastics and Composites, 2007: 26, 1051-1063.
  • Sen, F. and Sayman, O. Experimental failure analysis of two serial bolted composite plates. Journal of Applied Polymer Science, 2009: 113, 502-515.
  • Whitworth, H. A. Othieno, M. and Barton, O. Failure analysis of composite pin loaded joints, Composite Structures, 2003: 59, 261-266.
  • Lin, C-C. and Lin, C-H. Stresses around pin-loaded hole in composite laminates using direct boundary element method, International Journal of Solids and Structures, 1999: 36, 763-783.
  • Wu, T. J. and Hahn, H. T. The Bearing strength of e-glass/vinyl-ester composites fabricated by vartm. Composites Science and Technology, 1997: 58, 1519-1529.
  • Chang, F. K. The effect of pin load distribution on the strength of pin loaded holes in laminated composites. Journal of Composite Materials, 1986: 20, 401-408.
  • Dano, M. L., Gendron, G., Piccard, A. Stress and failure analysis of mechanically fastened joints in composite laminates. Composite Structures, 2000: 50, 287-296.
  • Chang, F. K., Scott, R.A. and Springer, G. S. Failure of composite laminates containing pin loaded holes-method and solution. Journal of Composite Materials, 1984: 18, 255-278.
  • Mallick, P. K. Fiber-Reinforced Composites Materials, Manufacturing, and Design,Second Edition, Marcel Decker, 1993.
  • Jones, R. M. Mechanics of Composite Material. Taylor & Francis, 1999.
  • Gibson, R. F. Principals of Composite Material Mechanics. Mc Graw-Hill, 1994.
  • Reddy, J. N. Mechanics of Laminated Composite Plates; Theory and Analysis. CRC Press, 1997.
Toplam 21 adet kaynakça vardır.

Ayrıntılar

Diğer ID JA65GS56CC
Bölüm Makaleler
Yazarlar

M. Pakdil Bu kişi benim

F. Sen Bu kişi benim

O. Sayman Bu kişi benim

Yayımlanma Tarihi 1 Aralık 2009
Yayımlandığı Sayı Yıl 2009 Cilt: 1 Sayı: 4

Kaynak Göster

APA Pakdil, M., Sen, F., & Sayman, O. (2009). Damage Development in Bolted Composites with Clearance Subjected to Preload. International Journal of Engineering and Applied Sciences, 1(4), 52-66.
AMA Pakdil M, Sen F, Sayman O. Damage Development in Bolted Composites with Clearance Subjected to Preload. IJEAS. Aralık 2009;1(4):52-66.
Chicago Pakdil, M., F. Sen, ve O. Sayman. “Damage Development in Bolted Composites With Clearance Subjected to Preload”. International Journal of Engineering and Applied Sciences 1, sy. 4 (Aralık 2009): 52-66.
EndNote Pakdil M, Sen F, Sayman O (01 Aralık 2009) Damage Development in Bolted Composites with Clearance Subjected to Preload. International Journal of Engineering and Applied Sciences 1 4 52–66.
IEEE M. Pakdil, F. Sen, ve O. Sayman, “Damage Development in Bolted Composites with Clearance Subjected to Preload”, IJEAS, c. 1, sy. 4, ss. 52–66, 2009.
ISNAD Pakdil, M. vd. “Damage Development in Bolted Composites With Clearance Subjected to Preload”. International Journal of Engineering and Applied Sciences 1/4 (Aralık 2009), 52-66.
JAMA Pakdil M, Sen F, Sayman O. Damage Development in Bolted Composites with Clearance Subjected to Preload. IJEAS. 2009;1:52–66.
MLA Pakdil, M. vd. “Damage Development in Bolted Composites With Clearance Subjected to Preload”. International Journal of Engineering and Applied Sciences, c. 1, sy. 4, 2009, ss. 52-66.
Vancouver Pakdil M, Sen F, Sayman O. Damage Development in Bolted Composites with Clearance Subjected to Preload. IJEAS. 2009;1(4):52-66.

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