참고문헌 (40)

1. Ahn, K.S., Pang, S.J., Oh, J.K. 2021. Prediction of with-drawal resistance of single screw on Korean wood？products. Journal of the Korean Wood Science and？Technology 49(1): 93-102. 

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2. American National Standards Institute [ANSI], The Engineered Wood Association [APA]. 2019. Standard？for Performance-Rated Cross-Laminated Timber.？ANSI/APA PRG 320. The Engineered Wood Association, Tacoma, WA, USA. 

3. American Society for Testing and Materials [ASTM].？2015. Standard Test Methods of Static Tests of？Lumber in Structural Sizes. ASTM D198-08. American National Standards Institute, Washington, DC,？USA. 

4. Bano, V., Godoy, D., Figueredo, D., Vega, A. 2018.？Characterization and structural performance in bending of CLT panels made from small-diameter logs？of loblolly/slash pine. Materials 11(12): 2436. 

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5. Buck, D., Wang, X., Hagman, O., Gustafsson, A. 2016.？Bending properties of cross laminated timber (CLT)？with a 45° alternating layer configuration. BioResources 11(2): 4633-4644. 

6. Ceccotti, A., Sandhaas, C., Okabe, M., Yasumura, M.,？Minowa, C., Kawai, N. 2013. SOFIE project: 3D？shaking table test on a seven-storey full-scale cross-laminated timber building. Earthquake Engineering？& Structural Dynamics 42(13): 2003-2021. 

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7. Chang, S.J., Wi, S., Lee, J., Lee, H., Cho, H., Kim, S. 2017. Analysis of cooling and heating energy？demands of wooden houses with cross-laminated？timber (CLT) using domestic plywood as core materials. Journal of the Korean Society of Living？Environmental System 24(6): 752-759. 

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8. Choi, C., Kojima, E., Kim, K., Yamasaki, M., Sasaki,？Y., Kang, S. 2018. Analysis of mechanical properties of cross-laminated timber (CLT) with plywood？using Korean larch. BioResources 13(2): 2715-2726. 

9. Choi, G.W., Yang, S.M., Lee, H.J., Kim, J.H., Choi,？K.H., Kang, S.G. 2020. A study on the block shear？strength according to the layer composition of and？adhesive type of ply-lam CLT. Journal of the？Korean Wood Science and Technology 48(6): 791-806. 

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10. Choi, G.W., Yang, S.M., Lee, H.J., Kim, J.H., Choi,？K.H., Kang, S.G. 2021. Evaluation of flexural？performance according to the plywood bonding？method of ply-lam CLT. Journal of the Korean？Wood Science and Technology 49(2): 107-121. 

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11. Crovella, P., Smith, W., Bartczak, J. 2019. Experimental？verification of shear analogy approach to predict？bending stiffness for softwood and hardwood cross-laminated timber panels. Construction and Building？Materials 229: 116895. 

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12. Ettelaei, A., Taoum, A., Shanks, J., Lee, M., Nolan, G. 2022. Evaluation of the bending properties of novel？cross-laminated timber with different configurations？made of Australian plantation Eucalyptus nitens？using experimental and theoretical methods. Structures 42: 80-90. 

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13. European Standards [EN]. 2014. Timber Structures: Cross？Laminated Timber - Requirements. EN 16351.？European Committee for Standardization (CEZ),？Brussels, Belgium. 

14. Fujimoto, Y., Tanaka, H., Morita, H., Kang, S.G. 2021.？Development of ply-lam composed of Japanese？cypress laminae and Korean larch plywood. Journal？of the Korean Wood Science and Technology 49(1):？57-66. 

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15. Galih, N.M., Yang, S.M., Yu, S.M., Kang, S.G. 2020.？Study on the mechanical properties of tropical hybrid cross laminated timber using bamboo laminated？board as core layer. Journal of the Korean Wood？Science and Technology 48(2): 245-252. 

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16. Gong, Y., Liu, F., Tian, Z., Wu, G., Ren, H., Guan, C. 2019. Evaluation of mechanical properties of cross-laminated timber with different lay-ups using Japanese larch. Journal of Renewable Materials 7(10):？941-956. 

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17. He, M., Sun, X., Ren, H., Li, Z., Feng, W. 2021.？Experimental study on the system effect of bending？cross-laminated timber fabricated with Karamatsu？larch. Construction and Building Materials 299: 124271. 

18. Hematabadi, H., Madhoushi, M., Khazaeian, A.,？Ebrahimi, G. 2021. Structural performance of hybrid？poplar-beech cross-laminated-timber (CLT). Journal？of Building Engineering 44: 102959. 

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19. Japanese Agricultural Standards [JAS]. 2013. Cross Laminated Timber. JAS 3079. Ministry of Agriculture,？Forestry and Fisheries, Tokyo, Japan. 

20. Jiang, Y., Crocetti, R. 2019. CLT-concrete composite？floors with notched shear connectors. Construction？and Building Materials 195: 127-139. 

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21. Jung, H., Song, Y., Hong, S. 2020. Effect of glass？fiber-reinforced connection on the horizontal shear？strength of CLT walls. Journal of the Korean Wood？Science and Technology 48(5): 685-695. 

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22. 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.H. 2008. New Wood Physics and Mechanics. Hyangmunsa, Seoul, Korea. pp. 289-293. 

23. Kim, K. 2020. Influence of layer arrangement on bonding and bending performances of cross-laminated？timber using two different species. BioResources？15(3): 5328-5341. 

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24. Korean Standards Association [KSA]. 2018. Softwood？Structural Lumber. KS F 3020. Korean Standards？Association, Seoul, Korea. 

25. Korean Standards Association [KSA]. 2021. Cross Laminated Timber. KS F 2081. Korean Standards？Association, Seoul, Korea. 

26. Lee, H.W., Jang, S.S., Kang, C.W. 2021. Evaluation of？withdrawal resistance of screw-type fasteners depending on lead-hole size, grain direction, screw size, screw type and species. Journal of the Korean？Wood Science and Technology 49(2): 181-190. 

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27. Lee, I.H., Kim, K., Shim, K. 2022. Evaluation of？bearing strength of self-tapping screws according to？the grain direction of domestic Pinus densiflora.？Journal of the Korean Wood Science and Technology 50(1): 1-11. 

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28. Liu, Y., Guo, H., Sun, C., Chang, W.S. 2016. Assessing cross laminated timber (CLT) as an alternative？material for mid-rise residential buildings in cold？regions in China: A life-cycle assessment approach.？Sustainability 8(10): 1047. 

29. Muszynski, L., Gupta, R., Hong, S., Osborn, N., Pickett,？B. 2019. Fire resistance of unprotected cross-laminated timber (CLT) floor assemblies produced in？the USA. Fire Safety Journal 107: 126-136. 

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30. Nocetti, M., Brancheriau, L., Bacher, M., Brunetti, M.,？Crivellaro, A. 2013. Relationship between local and？global modulus of elasticity in bending and its？consequence on structural timber grading. European？Journal of Wood and Wood Products 71(3): 297-308. 

31. Pang, S.J., Jeong, G.Y. 2019. Effects of combinations of？lamina grade and thickness, and span-to-depth ratios on bending properties of cross-laminated timber？(CLT) floor. Construction and Building Materials？222: 142-151. 

32. Pangh, H., Hosseinabadi, H.Z., Kotlarewski, N.,？Moradpour, P., Lee, M., Nolan, G. 2019. Flexural？performance of cross-laminated timber constructed？from fibre-managed plantation eucalyptus. Construction and Building Materials 208: 535-542. 

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33. Ravenshorst, G.J.P., van de Kuilen, J.W.G. 2009. Relationships between local, global and dynamic modulus？of elasticity for soft- and hardwoods. In: Dubendorf,？Switzerland, Meeting Forty Two International？Council for Research and Innovation in Building？and Construction, Working Commission W18: Timber Structures, pp. 1-11. 

34. Sikora, K.S., McPolin, D.O., Harte, A.M. 2016. Effects？of the thickness of cross-laminated timber (CLT)？panels made from Irish Sitka spruce on mechanical？performance in bending and shear. Construction and？Building Materials 116: 141-150. 

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35. Song, D., Kim, K. 2022. Influence of manufacturing？environment on delamination of mixed cross laminated timber using polyurethane adhesive. Journal？of the Korean Wood Science and Technology 50(3):？167-178. 

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36. Song, Y.J., Hong, S.I. 2018. Performance evaluation of？the bending strength of larch cross-laminated timber.？Wood Research 63(1): 105-116. 

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37. Tian, Z., Gong, Y., Xu, J., Li, M., Wang, Z., Ren, H. 2022. Predicting the average compression strength？of CLT by using the average density or compressive strength of lamina. Forests 13(4): 591. 

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38. Trisatya, D.R., Santoso, A., Abdurrachman, A. 2023.？Performance of six-layered cross laminated timber？of fast-growing species glued with tannin resorcinol？formaldehyde. Journal of the Korean Wood Science？and Technology 51(2): 81-97. 

39. Yang, S.M., Lee, H.H., Kang, S.G. 2021. Research？trends in hybrid cross-laminated timber (CLT) to？enhance the rolling shear strength of CLT. Journal？of the Korean Wood Science and Technology 49(4):？336-359. 

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40. Yoo, D., Lee, T. 2019. Analysis of energy performance？and structure of wooden passive houses using CLT？in overseas. KIEAE Journal 19(5): 101-107. 

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