Your search keyword '"Katou, Nobuo"' showing total 2 results

1. Force transfer mechanism on fastener section of mechanically anchored waterproofing membrane roofs under wind pressure during typhoons

Author

Miyauchi, Hiroyuki, Katou, Nobuo, and Tanaka, Kyoji

Subjects

*FORCE & energy, *WATERPROOFING, *WIND pressure, *AERODYNAMICS, *ROOFS, *PRESSURE transducers, *TYPHOONS

Abstract

Abstract: The wind pressure, billow of a PVC sheet, and fastener load of a mechanically anchored waterproofing membrane system on a building rooftop were measured during a typhoon. The results showed that the waterproof sheet billowed upward, and the height of the billow was greater on the windward side that was under higher negative pressure. The axial and lateral forces acting on the fastener of the waterproof sheet were measured by a six-component force transducer, and it was found that the lateral force acting on the windward side of the fastener was larger. The tensile force acting on the fastener section was calculated using an equation for rooftop wind pressure. Finally, the method used to determine the fastener''s position and the types of materials best-suited to cope with wind pressure on the roof were proposed, and the safety of this waterproof system was evaluated. [Copyright &y& Elsevier]

Published

2011

2. Behavior of a mechanically anchored waterproofing membrane system under wind suction and uniform Pressure.

Author

Miyauchi, Hiroyuki, Katou, Nobuo, and Tanaka, Kyoji

Subjects

WATERPROOFING, WIND resistant design, FORCE & energy, TEST methods, POLYVINYL chloride, POLYESTER fibers, TESTING of wind tunnels, SURFACE area, ROOFS

Abstract

Abstract: A pressure and wind tunnel test was conducted to obtain the basic data for wind resistance design of a mechanically anchored waterproofing membrane system. The test specimen was a flat roof with the following dimensions: 2.4 m in width, 3 m in length and 0.29 m in height. The waterproofing material was polyvinyl chloride sheet reinforced with polyester fiber (PVC sheets). In the pressure test, because the applied pressure was equivalent to the pressure on the entire surface area of the roof, the billowing heights of the PVC sheet around the fastener had almost the same maximum values; therefore, the axial force at the fastener was also similar to the pressure induced by a compressor, and no lateral forces were measured. On the other hand, in the wind tunnel test, the strain of the PVC sheet around the fastener at windward side was larger than that of the leeward side. The lateral force was 70% of the axial force at a mean wind speed of 38.6 m/s. Therefore, it was clear that the characteristics of the mechanically anchored waterproofing membrane system in the pressure test and the wind tunnel test were different. [ABSTRACT FROM AUTHOR]

Published

2011