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http://dx.doi.org/10.17703/JCCT.2020.6.1.463

How Different Material of Wood Deck Impact Workability and Defect Occurrence  

LEE, Hyukjae (Korea Institute of Garden Design)
Publication Information
The Journal of the Convergence on Culture Technology / v.6, no.1, 2020 , pp. 463-469 More about this Journal
Abstract
People enjoy more leisure time these days as the government introduced the workweek last year and there is a growing interest on living healthy life. Amidst such change in society, trekking in forest has gained popularity along more people spending leisure time by walking for health. As a result, there are many scenic trails being built using wood deck. Usually certain parts of trails are built with wood deck where the path maybe too dangerous for walking or where nature needs to be protected. However wood material used for deck is easily prone to defects which can lead to safety issues. This study aims to understand the differences by materials used for wood deck and to investigate a link between different materials used and causes for defect occurrence. And further, the study aims to identify materials and construction methods for high workability and safety. The study was able to conclude that different materials used and different construction methods of applied for wood deck yield different results in terms of workability and defect occurrence.
Keywords
Construction method; Construction speed; Defect; Independent two sample t-test; One-way ANOVA;
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  • Reference
1 Jae-Kyoung Cha, Comparative study on nail and wood screw withdrawal behavior for domestic small diameter logs, Journal of the Korean Wood Science and Technology, Vol.15, 85-91, 2003
2 Ju-seok Oh, Jun-sik Suh, A Study on International Standardization of Natural Fiber-reinforced Composite (NFC) Deck, Journal of Standards, Certification and Safety, Vol4(2), 17-23, 2014
3 Yo-jin Song, Hong-ju Jung, Dong-heub Lee, Kyung-dae Kim, Soon-il Hong, Strength Performance Evaluation of Deck Using Reinforced Plastic Connector, Journal of Korean Wood Science & Technology, Vol.41(1), 12-18, 2013   DOI
4 Tae-ho Kwon, A Study on Users' Evaluation for the Trail Facilities in Gayasan National Park, Korea, Korean journal of environment and ecology, Vol.24(3), 293-301, 2010
5 Hyukjae Lee, Woon-kun Jung, The effect of material and structure differences on the walking sensitivity of wood deck, Journal of the Korean institute of garden design, Vol.4(1), 41-47, 2018
6 Kyoung-jung Kim, Won-jae Lee, Hee-jin Kim, Seog-goo Kang, Study on Durability of Wood Deck according to Species, Korean journal of furniture, Vol.28(2), 111-117, 2017
7 Ki-joon Yoo, Woo Cho, Tae-ho Kwon, Keun-sik Cho, Users' Attitudes for the Trail Structures in Hallasan National Park, Korea -In the Case Study of Eorimok-, Korean journal of environment and ecology, Vol.21(2),168-175, 2007
8 Ki-joon Yoo, Woo Cho, Keun-sik Cho, Users' Evaluation for the Trail Structures in the Dobong District of Bukhansan National Park, Korea, Korean journal of environment and ecology, Vol.22(2), 145-151, 2008
9 Planning, Property and Development Department, Winnipeg. Wood deck: Zoning and construction requirements for open non-sheltered wood decks for residential dwellings. 2012
10 Terry L. Amburgey and Kevin W. Treated Wood-Decks. Mississippi State University, 2008
11 Yeon-jung Han, Ju-hee Lee, Yong-gun Park, Yun-ho Choi, Hwan-myeong Yeo, Journal of Korean Wood Science & Technology, Vol.40(6), 397-405, 2012   DOI
12 Won-jae Lee, Sung-min Yang, Hee-jin Kim, Keun-hye Oh, Seog-goo Kang, Korean Wood Science & Technology, 2017(1), 91, 2017
13 KS F 2212. 2004. Hardness test method of wood, General method, Korea Standard.
14 KS F ISO 9087. 2004. Test method for resistance to drawing nails or screws of wood, General method, Korea Standard.
15 Seiji Hirata, Masamitsu Ohta, Yasuo Honma. Hardness distribution on wood surface, J Wood Sci 47, 1-7, 2001.   DOI