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Year 2006, Volume: 19 Issue: 3, 155 - 161, 29.03.2010

Abstract

References

  • Hill, M.D., Eckelman, C.A., “Flexibility and bending strength of mortise and tenon joints”, Furniture Design & Manufacturing magazine, 25- 33 (1973).
  • Eckelman, C.A., “Which screw holds best?” Furniture Design & Manufacturing, magazine 25- 26 (1974).
  • Zhang, J.L., Eckelman, C.A., “The bending moment resistance of single-dowel corner joints in case construction”, Forest Products J, 43(6): 19-24 (1993).
  • Zhang, J.L., Eckelman, C.A., “Rational design of multi-dowel corner joints in case construction”, Forest Products J, 43(11/12): 52-58 (1993).
  • Eckelman, C.A., Lin, F.C., “Bending strength of corner joints constructed with injection-molded splines”, Forest Product J , 47(4): 89-92 (1997).
  • Efe, H., “Withdrawal strength of screws on woods plates were using funiture industry”, Master thesis, Gazi University, Journal of Scienece Knowledge Institute, Ankara, 12-16 (1992).
  • Efe, H., Kasal, A., Tension strength of case construction with and without demontable corner joints. Industrial Architecture Journal of Faculty of Education Ankara, 8(8): 61-74 (2000).
  • Daudeville, L., Davenne, L., Yasumura, M., “Prediction of the load carrying capacity of bolted timber joints”, Wood Science and Technology, 33: 15-29 (1999).
  • Jensen, J.L., Koizumi, A., Sasaki, T., Tamura, Y., Iijima, Y., “Axially loaded glued-in hardwood dowels”, Wood Science and Technology, 35: 73- 83 (2001).
  • Barr, B.I.G., Abusiaf, H.F., Şener, S., “Size effect and fracture energy studies using compact compression specimens”, RILEM Materials and Structures, 31: 36-41 (1998).
  • Fibre building boards-hard and medium boards (1982) Turkish Code of Practice TS 64.
  • Fiberboards and particleboards surfaced with synthetic resin (1974) Turkish Code of Practice TS 1770.

Bending Strength of Screwed Corner Joints with Different Materials

Year 2006, Volume: 19 Issue: 3, 155 - 161, 29.03.2010

Abstract

Tests were carried out in order to determine the bending strength with compression and tension force with and without glue in addition to screws on furniture corner joints in a construction case. The specimens were prepared with particleboard and medium density fiberboard (MDF) surfaced with a synthetic resin sheet. In the connection, two types of screws which have dimensions of 4/50 mm and 5/60 mm were used. For the glued joints, polyurethane Desmodur-VTKA adhesive was used. As a result of these tests it has been determined that the joints with glue are better than the ones without glue and the strength of fiberboard is better than particleboard. 

 

Keywords: Bending strength, compression test, tension test, particleboard, wood testing, screws.

References

  • Hill, M.D., Eckelman, C.A., “Flexibility and bending strength of mortise and tenon joints”, Furniture Design & Manufacturing magazine, 25- 33 (1973).
  • Eckelman, C.A., “Which screw holds best?” Furniture Design & Manufacturing, magazine 25- 26 (1974).
  • Zhang, J.L., Eckelman, C.A., “The bending moment resistance of single-dowel corner joints in case construction”, Forest Products J, 43(6): 19-24 (1993).
  • Zhang, J.L., Eckelman, C.A., “Rational design of multi-dowel corner joints in case construction”, Forest Products J, 43(11/12): 52-58 (1993).
  • Eckelman, C.A., Lin, F.C., “Bending strength of corner joints constructed with injection-molded splines”, Forest Product J , 47(4): 89-92 (1997).
  • Efe, H., “Withdrawal strength of screws on woods plates were using funiture industry”, Master thesis, Gazi University, Journal of Scienece Knowledge Institute, Ankara, 12-16 (1992).
  • Efe, H., Kasal, A., Tension strength of case construction with and without demontable corner joints. Industrial Architecture Journal of Faculty of Education Ankara, 8(8): 61-74 (2000).
  • Daudeville, L., Davenne, L., Yasumura, M., “Prediction of the load carrying capacity of bolted timber joints”, Wood Science and Technology, 33: 15-29 (1999).
  • Jensen, J.L., Koizumi, A., Sasaki, T., Tamura, Y., Iijima, Y., “Axially loaded glued-in hardwood dowels”, Wood Science and Technology, 35: 73- 83 (2001).
  • Barr, B.I.G., Abusiaf, H.F., Şener, S., “Size effect and fracture energy studies using compact compression specimens”, RILEM Materials and Structures, 31: 36-41 (1998).
  • Fibre building boards-hard and medium boards (1982) Turkish Code of Practice TS 64.
  • Fiberboards and particleboards surfaced with synthetic resin (1974) Turkish Code of Practice TS 1770.
There are 12 citations in total.

Details

Primary Language English
Journal Section Civil Engineering
Authors

Ali Kasal This is me

Sıddık Şener This is me

Çağatay Belgin This is me

Hasan Efe This is me

Publication Date March 29, 2010
Published in Issue Year 2006 Volume: 19 Issue: 3

Cite

APA Kasal, A., Şener, S., Belgin, Ç., Efe, H. (2010). Bending Strength of Screwed Corner Joints with Different Materials. Gazi University Journal of Science, 19(3), 155-161.
AMA Kasal A, Şener S, Belgin Ç, Efe H. Bending Strength of Screwed Corner Joints with Different Materials. Gazi University Journal of Science. March 2010;19(3):155-161.
Chicago Kasal, Ali, Sıddık Şener, Çağatay Belgin, and Hasan Efe. “Bending Strength of Screwed Corner Joints With Different Materials”. Gazi University Journal of Science 19, no. 3 (March 2010): 155-61.
EndNote Kasal A, Şener S, Belgin Ç, Efe H (March 1, 2010) Bending Strength of Screwed Corner Joints with Different Materials. Gazi University Journal of Science 19 3 155–161.
IEEE A. Kasal, S. Şener, Ç. Belgin, and H. Efe, “Bending Strength of Screwed Corner Joints with Different Materials”, Gazi University Journal of Science, vol. 19, no. 3, pp. 155–161, 2010.
ISNAD Kasal, Ali et al. “Bending Strength of Screwed Corner Joints With Different Materials”. Gazi University Journal of Science 19/3 (March 2010), 155-161.
JAMA Kasal A, Şener S, Belgin Ç, Efe H. Bending Strength of Screwed Corner Joints with Different Materials. Gazi University Journal of Science. 2010;19:155–161.
MLA Kasal, Ali et al. “Bending Strength of Screwed Corner Joints With Different Materials”. Gazi University Journal of Science, vol. 19, no. 3, 2010, pp. 155-61.
Vancouver Kasal A, Şener S, Belgin Ç, Efe H. Bending Strength of Screwed Corner Joints with Different Materials. Gazi University Journal of Science. 2010;19(3):155-61.