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A Study on Dimensional Stability and Thermal Performance of Superheated Steam Treated and Thermal Compressed Wood 원문보기

목재공학 = Journal of the Korean wood science and technology, v.44 no.2, 2016년, pp.184 - 190  

Chung, Hyunwoo (Department of Forest Sciences, College of Agriculture & Life Sciences, Seoul National University) ,  Han, Yeonjung (National Institute of Forest Science) ,  Park, Jun-Ho (Department of Forest Sciences, College of Agriculture & Life Sciences, Seoul National University) ,  Chang, Yoon-Seong (National Institute of Forest Science) ,  Park, Yonggun (Department of Forest Sciences, College of Agriculture & Life Sciences, Seoul National University) ,  Yang, Sang-Yun (Department of Forest Sciences, College of Agriculture & Life Sciences, Seoul National University) ,  Yeo, Hwanmyeong (Department of Forest Sciences, College of Agriculture & Life Sciences, Seoul National University)

Abstract AI-Helper 아이콘AI-Helper

Recently, wood is attracting attention as green building interior decoration material. When wood is used as building interior decoration material, excellent dimensional stability and thermal performance is required. In this study, superheated steam treatment process and thermal compression process w...

주제어

#superheated steam treatment   #thermal compression   #equilibrium moisture content   #dimensional stability   #thermal conductivity   #Pinus koraiensis  

AI 본문요약
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제안 방법

  • By processing flat sawn air-dried Pinus koraiensis wood (initial MC 10%), 4 different types of specimens: control, thermal compressed specimens, superheated steam treated specimens, superheated steam treated and thermal compressed specimens were prepared. And all types of specimens were conditioned at 25℃ and 60% RH condition.
  • In this study, the effect of superheated steam treatment process and thermal compression process on dimensional stability and thermal performance of wood, used as building interior decoration material were investigated.
  • To evaluate the effect of thermal compression process and superheated steam treatment process on dimensional stability and thermal performance of Pinus koraiensis wood, the equilibrium moisture content, swelling ratio, and thermal conductivity were measured for 4 types of specimens (control, thermal compressed specimens, superheated steam treated specimens, superheated steam treated and thermal compressed specimens).
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참고문헌 (21)

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  4. Hwang, S.-W., Lee, W.-H. 2011. Hardness and dimensional stability of radiate pine heat compressed wood-effect of press temperature & time-, Journal of The Korean Wood Science and Technology. 39(3): 206-212. 

    원문보기 상세보기 crossref

  5. Hwang, S.-W., Lee, W.-H. 2011. The mechanical properties of heat-compressed radiate pine-effect of press temperature & time-. Journal of The Korean Wood Science and Technology. 39(4): 303-310. 

    원문보기 상세보기 crossref

  6. Kang, C.-W., Kim, N.H., Kim, B.R., Kim, Y.S., Byeon, H.S., So, W.T., Yeo, H.M., Oh, S.W., Lee, W.-H., Lee, H.W. 2008. Wood Physics and Mechanical Properties. HyangMunSa. Seoul. 

  7. Kim, K.-M., Park, J.-H., Park, B.S., Son, D.W., Park, J.S., Kim, W.S., Kim, B.N., Shim, S.R. 2009. Physical and mechanical properties of heat-treated domestic cedar. Journal of The Korean Wood Science and Technology. 37(4): 330-339. 

  8. Kim, K.-M., Park, J.-H., Park, B.S., Son, D.W., Park, J.S., Kim, W.S., Kim, B.N., Shim, S.R. 2010. Physical and mechanical properties of heat-treated domestic yellow poplar. Journal of The Korean Wood Science and Technology. 38(1): 17-26. 

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  9. Korean Standards Association. 2004. Method of shrinkage test for wood. KS F 2203. 

  10. Korean Standards Association. 2004. Method of test for water absorption of wood. KS F 2204. 

  11. Kutnar, A., Kamke, F.A., Petric, M., Sernek, M. 2008. The influence of viscoelastic thermal compression on the chemistry and surface energetics of wood. Colloids and Surfaces A: Physicochemical and Engineering Aspects. 329(1): 82-86. 

    상세보기

  12. Kutnar, A., Kamke, F.A., M., Sernek, M. 2009. Density profile and morphology of viscoelastic thermal compressed wood. Wood Science and Technology. 43(1): 57-68. 

    상세보기 crossref

  13. Kamke, F.A., Rathi, V.M. 2011. Apparatus for viscoelastic thermal compression of wood. European Journal of Wood and Wood Products. 69(3): 483-487. 

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  14. Lim, H.M., Hong, S.H., Kang, H.Y. 2014. Investigation of the color change and physical properties of heat-treated pinus koraiensis square lumbers. Journal of The Korean Wood Science Technology. 42(1): 13-19. 

    원문보기 상세보기 crossref

  15. Park, Y.G., Eom, C.-D., Han, Y.J., Park, J.-H., Chang, Y.-S. Yang, S.-Y. Choi, J.-W., Yeo, H.M. 2014. Holzforschung. 68(3): 327-335. 

    상세보기

  16. Park, Y.G., Eom, C.-D., Park, J.-H., Chang, Y.-S., Kim, K.-M., Kang, C.-W., Yeo, H.M. 2012. Evaluation of physical properties of Korean pine (pinus koraiensis siebold & zucc.) lumber heat-treated by superheated steam. Journal of The Korean Wood Science and Technology. 40(4): 257-267. 

    원문보기 상세보기 crossref

  17. Standfest, G., Kutnar, A., Plank, B., Petutschnigg, A., Kamke, F.A., Dunky. M. 2013. Microstructure of viscoelastic thermal compressed (VTC) wood using computed microtomography. Wood Science and Technology. 47(1): 121-139. 

    상세보기 crossref

  18. Unsal, O., Candan, Z., Buyuksari, U., Korkut, S., Chang, Y.-S., Yeo, H.M. 2011. Effect of Thermal Compression Treatment on the Surface Hardness, Vertical Density Propile and Thickness Swelling of Eucalyptus Wood Boards by Hot-pressing. Journal of The Korean Wood Science and Technology. 39(2): 148-155. 

    원문보기 상세보기 crossref

  19. Unsal, O., Kartal, S.N., Candan, Z., Arango, R.A., Clausen, C.A., Green, F. 2009. Decay and termite resistance, water absorption and swelling of thermally compressed wood panels. Internatioal Biodeterioration & Biodegradation. 63(5): 548-552. 

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  20. Yoon, K.J., Eom, C.-D., Park, J.-H., Kim, H.Y., Choi, I.-G., Lee, J.-J., Yeo, H.M. 2009. Color control and durability improvement of yellow poplar (liriodendrom tulipifera) by heat treatments. Journal of The Korean Wood Science and Technology. 37(6): 487-496. 

  21. Yoon, K.J., Eom, C.-D., Park, J.-H., Lee, Y.W., Choi, I.-G., Lee, J.-J., Yeo, H.M. 2008. Control of discolorration of cedar wood (cryptomeria japonica) by heat and UV treatment. Journal of The Korean Wood Science and Technology. 36(6): 33-40. 

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