한국산림과학회지 (Journal of Korean Society of Forest Science)

  • 제107권2호
  • /
  • Pages.166-173
  • /
  • 2018
  • /
  • 2586-6613(pISSN)
  • /
  • 2586-6621(eISSN)
한국산림과학회 (Korean Society of Forest Science)
권호 표지
DOI QR코드

DOI QR Code

토목섬유 활용 노반 조성을 통한 임도 노면지지력 강화효과 분석

Bearing Capacity Reinforcing Effect of Forest Road Surface by Construction of Sub-base using Geosynthetics

  • 황진성 (국립산림과학원 산림기술경영연구소) ;
  • 지병윤 (국립산림과학원 산림기술경영연구소) ;
  • 이관희 (국립산림과학원 산림기술경영연구소) ;
  • 권형근 (충남대학교 산림환경자원학과) ;
  • 김명환 (수림산림기술사사무소)
  • Hwang, Jin-Seong (Forest Technology and Management Research Center, National Institute of Forest Science) ;
  • Ji, Byoung-Yun (Forest Technology and Management Research Center, National Institute of Forest Science) ;
  • Lee, Kwan-Hee (Forest Technology and Management Research Center, National Institute of Forest Science) ;
  • Kweon, Hyeong-Keun (Department of Forest Environment & Resources, Chungnam National University) ;
  • Kim, Myung-Hwan (Soolim Professional Forest Engineer Office)
  • 투고 : 2018.04.25
  • 심사 : 2018.05.24
  • 발행 : 2018.06.30
PDF 다운로드
⟨ 이전 논문 다음 논문 ⟩

초록

본 연구는 목재운송 효율을 도모하기 위하여 목재운송차량이 대형화 되어감에 따라 대형 목재운송차량의 원활한 임도 통행을 위한 노면지지력 확보할 수 있는 노반 시설기준을 마련하고자 실시하였다. 산림기술경영연구소 관내 연약지반 임도 노면에 대하여 토목섬유를 활용하여 적정 골재배합비로 조성한 노반의 두께별 노면지지력 강화효과를 분석한 결과는 다음과 같다. 토목섬유를 활용하여 상굴식으로 노반을 0.2 m 이상 포설한 시험구간은 노면지지력이 CBR 15% 이상으로 양호한 것으로 나타났다. 그러나 토목섬유 종류별 노면지지력 보강효과는 큰 차이가 없었고, 상치식으로 조성한 구간의 경우 노면지지력이 미흡한 것으로 나타났다. 따라서 연약지반 구간에서는 상굴식으로 터파기 한 후 토목섬유를 부설하고, 노반층 두께를 0.2 m 이상 조성한 후 표층을 포설하여야 대형 목재운송차량의 원활한 통행에 필요한 노면지지력 확보가 가능할 것으로 판단된다.

This study was carried out to establish the standard of sub-base facility which can strengthen road surface bearing capacity for smooth passage of logging trucks in forest road as the size of the logging truck has been increased in order to improve the efficiency of timber transportation. The results of reinforcement effect analysis of the surface bearing capacity by the thickness of sub-base prepared with the optimum aggregate mix ratio using geosynthetics for forest road on the soft ground in the Forest Technology and Management Research Center are as follows. The surface bearing capacity of CBR exceeding 15% was found to be sufficient when the sub-base was constructed over 0.2 m depth of laying gravels with installation of geosynthetics after digging out subsoil. However, there is no significant difference in reinforcement effect of surface bearing capacity by types of geosynthetics. And, it was found that the surface bearing capacity was insufficient in the installation of sub-base. Therefore, in the case of soft ground, It is possible to secure the reinforcement of the surface bearing capacity for the smooth passage of heavy logging trucks by sub-base, that was constructed over 0.2 m depth of laying gravels with installation of geosynthetics after digging out subsoil.

키워드

참고문헌

  1. Al-Qadi, I.L., Brandon, T.L., Valentine, R.J. and Smith, T.E. 1994. Laboratory evaluation of geosynthetic reinforced pavement sections. Transportation Research Board., No. 1439, 73rd Annual meeting, Washington DC, pp. 25-31.
  2. Benson, C.H., Edil, T.B., Tanyu, B.F. and Kim, W.H. 2005. Equivalency of Crushed Rock with Industrial By-Products and Geosynthetic-Reinforced Aggregates Used for Working Platforms During Pavement Construction. Wisconsin Highway Research Program, Final Report No. 0092-00-12, pp. 43.
  3. Department of Transport, Tourism and Sport (DTTAS). 2014. Guidelines on the Depth of Overlay to be used on Rural Regional and Local Roads. pp. 16.
  4. Dayamba, F. O., Jahren, C. and Yu, J. 2015. Lightly Surfaced Roads: Stabilized Aggregate Applications. Minesota Department of Transportation. Research Project Final Report 2015-06. pp. 24.
  5. Giroud, J.P. and Han, J. 2004. "Design Method for Geogrid- Reinforced Unpaved Roads. Parts I and II." Journal of Geotechnical and Geoenvironmental Engineering 130(8): 775-797. https://doi.org/10.1061/(ASCE)1090-0241(2004)130:8(775)
  6. Legere, G., and Mercier, S. 2005. Reducing Aggregate Thickness on Forest Roads Designed for Log Trucks Equipped with Tire Pressure-Control Systems. Transprotation Research Board, 85th Annual Meeting. pp. 14.
  7. Haliburton, T.A. and Barron, J.V. 1983. Optimum method for design of fabric-reinforced unsurfaced roads. Transportation Research Record, No.916, Washington, pp. 31.
  8. Hufenus, R., Rueegger, R., Banjac, R., Mayor, P., Springman, S.M. and Bronnimann, R. 2006. Full-Scale Field Tests on Geosynthetic Reinforced Unpaved Roads on Soft Subgrade. Geotextiles and Geomembranes 24(1): 21-37. https://doi.org/10.1016/j.geotexmem.2005.06.002
  9. Jo, T. H. 2011. A study on the Evaluation of Compaction by a Portable Dynamic-tester. Master's Thesis. Joongbu University. p. 70.
  10. Lee, K. H., Oh, S. W., Ko, C. U. and Kim, D. G. 2015. Preliminary Analysis of Stabilization of Forest Road Surface Using Geosynthetics. Journal of the Korea Society of Environmental Restoration Technology 18(6): 51-60. https://doi.org/10.13087/KOSERT.2015.18.6.51
  11. Leng, J. 2002. Characteristics and Behavior of Geogrid- Reinforced Aggregate Under Cyclic Load. PhD Thesis. North Carolina State University. p. 164.
  12. Love, J.P. 1984. Model testing of geogrids in unpaved roads. Ph.D. Thesis, Univ. of Oxford. p. 219.
  13. MAFRA (Ministry of Agriculture, Food and Rural Affairs). 1997. Development of Roller-Compacted Concrete Pavement for Construction of Agricultural Roads. pp. 125.
  14. Maxwell, S., Kim, W.H., Edil, T.B. and Benson, C.H. 2005. Effectiveness of Geosynthetics in Stabilizing Soft Subgrades. Wisconsin Highway Research Program, Final Report No. 0092-45-15, p. 88.
  15. MOLIT (Ministry of Land, Infrastructure and Transport). 2004. Guide Book of Retaining Wall for Rock-Crush. pp. 31.
  16. Sigurdsson, O. 1991. Geosynthetic stabilization of unpaved roads on soft ground: A field evaluation. MS thesis, Univ. of British Columbia, pp. 5-12.
  17. Son, W.P. 2007. Principles of Road Engineering. Bansok Publishing. Seoul. South Korea. pp. 919.
  18. Zorn Instruments. 2005. Operating Manual for Light Drop Weight Tester ZFG 2000. Maschinenbauingenieur Bernd Zorn, Stendal, Germany.