최소 단어 이상 선택하여야 합니다.
최대 10 단어까지만 선택 가능합니다.
다음과 같은 기능을 한번의 로그인으로 사용 할 수 있습니다.
NTIS 바로가기목재공학 = Journal of the Korean wood science and technology, v.51 no.4, 2023년, pp.239 - 252
Da-Bin SONG (Forest Products and Industry Department, National Institute of Forest Science) , Keon-Ho KIM (Forest Products and Industry Department, National Institute of Forest Science)
In this study, bending and compression strength tests were performed to investigate effect of composition of layer layout of Larix cross-laminated timber (CLT) on mechanical properties. The Larix CLT consists of five laminae, and specimens were classified into four types according to grade and compo...
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.
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.
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.
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.
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.
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.
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.
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.
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.
European Standards [EN]. 2014. Timber Structures: Cross?Laminated Timber - Requirements. EN 16351.?European Committee for Standardization (CEZ),?Brussels, Belgium.
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.
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.
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.
Japanese Agricultural Standards [JAS]. 2013. Cross Laminated Timber. JAS 3079. Ministry of Agriculture,?Forestry and Fisheries, Tokyo, Japan.
Jiang, Y., Crocetti, R. 2019. CLT-concrete composite?floors with notched shear connectors. Construction?and Building Materials 195: 127-139.
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.
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.
Korean Standards Association [KSA]. 2018. Softwood?Structural Lumber. KS F 3020. Korean Standards?Association, Seoul, Korea.
Korean Standards Association [KSA]. 2021. Cross Laminated Timber. KS F 2081. Korean Standards?Association, Seoul, Korea.
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.
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.
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.
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.
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.
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.
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.
Song, Y.J., Hong, S.I. 2018. Performance evaluation of?the bending strength of larch cross-laminated timber.?Wood Research 63(1): 105-116.
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.
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.
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.
*원문 PDF 파일 및 링크정보가 존재하지 않을 경우 KISTI DDS 시스템에서 제공하는 원문복사서비스를 사용할 수 있습니다.
오픈액세스 학술지에 출판된 논문
※ AI-Helper는 부적절한 답변을 할 수 있습니다.