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Kim SD. The present and future of architectural fabrics. Architectural Institute of Korea. 2005 Oct;49(10):49-56.
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Park KG, Yoon SK. Tearing strength test of architectural membrane. Journal of the Korean Association for Spatial Structures. 2007 Apr;7(6):5-11.
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Sur SY, Jang MH, Park KG, Kim SD. Study for tensile properties of architectural membrane with different yarn. Journal of the Korean Association for Spatial Structures. 2010 Sep;10(3): 41-48.
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KS K 0521 Textiles-Tensile properties of fabrics-Determination of maximum force and elongation at maximum force using the strip method, Korea Standard Association (2011).
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KS F 2819 Testing method for incombustibility of thin materials for buildings, Korea Standard Association (2005).
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KS F ISO 5660-1 Fire Tests for Combustion (Cone Calorimeter Test), Korea Standard Association (2009).
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Park SY, Kim D, Im HS. The Experimental Study for the Combustion-Property of Sandwich Panels using ISO 5660 Cone Calorimeter. Fire Science and Engineering. 2006 Dec;20 (4):33-41.
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Kim JH, Song H, Shin HU. Flame resistance performance of architectural membranes using basalt woven fabric. Fire Science and Engineering. 2016 Apr;30(2):35-42
DOI
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9 |
Ko Y. Development of polytetrafluoroethylene(PTFE) coated architectural membrane of more than 3 meters wide and high endurance products membrane[master' thesis].[Kongju]: Kongju National University; 2015. 40p.
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Jang MH, Sur SY. Analysis on the construction cost of spatial structures. Journal of the Korean Association for Spatial Structures. 2007 Jun;7(3):133-140.
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Park KG, Yoon SH, Bae BH. Mechanical characteristic test of architectural ETFE film membrane. Journal of the Korean Association for Spatial Structures. 2009 Jun;9(2):77-82.
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Lee KW, Kim KE, Lee DH. Combustion characteristic of fiber reinforced plastic by cone calorimeter. Fire Science and Engineering. 2004 Jun;18(2):68-72
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Kim JH, Song H. Flame Resistance Performance of Glass Fiber and Polyester Fiber Architectural Membranes. Fire Science and Engineering. 2016 Feb;30(1):17-23
DOI
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