Journal of the Korean Wood Science and Technology

The Korean Society of Wood Science & Technology (한국목재공학회)
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The Withdrawal Loads on The Effect of Dried Wooden Dowel

나무못 유지력에 나무못의 건조가 미치는 영향

  • Cha, JaeKyung (Department of Forest Products and Biotechnology, College of Science and Technology, Kookmin University) ;
  • Kim, Birm-June (Department of Forest Products and Biotechnology, College of Science and Technology, Kookmin University)
  • 차재경 (국민대학교 임산생명공학과) ;
  • 김범준 (국민대학교 임산생명공학과)
  • Received : 2017.07.13
  • Accepted : 2017.08.31
  • Published : 2017.09.25
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Abstract

This study was performed to determine the withdrawal loads and strengths on the effect of dried wooden dowel. The test block was manufactured from 15 mm thick domestic wood and particleboard. Dowels of 6, 8 and 10 mm in diameter are made of korean castanea, korean pine and tulip wood. Research reported here indicates that withdrawal loads increase, but withdrawal strengths decrease, as the dowel diameter increases. This study also indicates that withdrawal load and strength of dried wooden dowel showed over 10% increase compared to those of normal conditioned dowel. However, there was an exception for the case of korean pine test block with dried tulip wood dowel. Meanwhile, the dried wooden dowel withdrawal loads and strengths for particleboard test blocks show 6~14.4% and 6.2~18.2% increase, compared to those of normal conditioned dowel, respectively.

본 연구는 건조된 나무못이 유지력 특성에 미치는 영향에 대해 알아보기 위해 실시했다. 실험블록은 두께가 15 mm인 소나무와 잣나무 목재 및 파티클보드로 제작했다. 직경이 6, 8 및 10 mm인 나무못은 밤나무, 잣나무 및 백합나무 목재로 각각 제작한 다음 전건시켜 사용했다. 연구결과 나무못 직경이 증가하면 유지력은 증가했지만, 유지력 강도는 감소했다. 건조된 나무못의 유지력은 일반적인 조건의 나무못의 유지력보다 잣나무목재 실험블록에 직경이 10 mm인 백합나무 목재로 만든 나무못을 제외하고 10% 이상 증가를 보였다. 유지력 강도는 모든 수종의 나무못 직경과 실험블록에서 10% 이상 증가를 보였다. 파티클보드 실험블록에 건조된 나무못의 유지력과 유지력 강도는 각각 6~14.2%와 6.2%~18.2% 증가를 보였다.

Keywords

References

  1. American Society for Testing and Materials. 1986. Standard test method of testing mechanical fasteners in wood. ASTM D 1761. ASTM, Philadelphia, PA.
  2. Cha, J.K. 2016. A new apparatus development for withdrawal testing of wooden dowel. Forest and Humanity 28: 55-64.
  3. Cha, J.K. 2016. The effect of Diameter and prehole Clearance for Wooden Dowel on The Withdrawal Loads of Domestic Wood. Journal of the Korean Wood Science & Technology 44(5): 736-742. https://doi.org/10.5658/WOOD.2016.44.5.736
  4. Eckelman, C.A. 1969. Engineering concepts of single-pin dowel joint design. Forest Products Journal 19(12): 52-60.
  5. Eckelman, C.A. 1971. Bending strength and moment-rotation characteristics of two pin moment resisting dowel joint. Forest Products Journal 21(3): 35-39.
  6. Eckelman, C.A., Erdil, Y.Z., Zhang, J. 2002. Withdrawal and bending strength of dowel joints constructed of plywood and oriented strandboard. Forest Products Journal 52(9): 66-74.
  7. Eckelman, C.A. and Cassens, D.L. 1985. Withdrawal strength of dowels from wood composites. Forest Products Journal 35(5): 55-60.
  8. Kim, B.J., Cha, J.K. 2017. The effect of diameter and prehole clearance for wooden dowel on the withdrawal loads of domestic particleboard. Journal of the Korea furniture society 28(1): 53-59.
  9. Uysal, B. 2005. Withdrawal strength of various laminated veneer dowels from composite materials. Wood and fiber science 37(2): 213-219.