正題名/作者 : Experimental and numerical study of glass facade breakage behavior under fire conditions/ by Yu Wang.
其他題名 : fire safety engineering /
作者 : Wang, Yu.
出版者 : Singapore :Springer Singapore :2019.
面頁冊數 : xviii, 137 p. :ill. (some col.), digital ;24 cm.
Contained By : Springer eBooks
標題 : Glass construction - Fires and fire prevention. -
電子資源 : 線上閱讀(Springer)
ISBN : 9789811364846$q(electronic bk.)
ISBN : 9789811364839$q(paper)
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100 1 $aWang, Yu.$3435560
245 10$aExperimental and numerical study of glass facade breakage behavior under fire conditions$h[electronic resource] :$bfire safety engineering /$cby Yu Wang.
260 $aSingapore :$bSpringer Singapore :$bImprint: Springer,$c2019.
300 $axviii, 137 p. :$bill. (some col.), digital ;$c24 cm.
490 1 $aSpringer theses,$x2190-5053
505 0 $aIntroduction -- Experimental and numerical methods -- Breakage of framing glass facades in fire -- Breakage of point supported glass facades in fire -- Influence of fire location on breakage behavior -- Breakage mechanism and heat transfer -- Conclusion.
520 $aThis book presents the comprehensive results of experimental and numerical investigations of glass facade breakage behavior under fire conditions. First of all, full-scale frame and point-supported glass facades, incorporating single, double and coated glazing, were tested under pool fire conductions. The results determined the effects of different glass frames, types of glass, and thermal shocks on breakage behavior. Small-scale tests, using the Material Testing System (MTS) 810, Netzsch Dilatometer and FE-SEM, were also performed at different temperatures to determine the basic mechanical properties of glazing. In addition, a three-dimensional dynamic model was developed to predict stress distribution, crack initiation and propagation, and has since been employed to identify the breakage mechanisms of different types of glass facade. The numerical results showed very good agreement with the experimental results and verified the model's ability to accurately predict breakage. Lastly, a theoretical model based on incident heat flux was developed to predict the breakage time and heat transfer in glazing, which served to reveal the nature of interactions between fire and glass.
650 0$aGlass construction$xFires and fire prevention.$3541685
650 14$aFire Science, Hazard Control, Building Safety.$3465788
650 24$aQuality Control, Reliability, Safety and Risk.$3402060
650 24$aSimulation and Modeling.$3402073
650 24$aBuilding Construction and Design.$3450379
650 24$aBuilding Materials.$3402022
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950 $aEngineering (Springer-11647)