Building Research Journal, Volume 52SAP, 2004 - Building |
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Page 78
... factor of the panel with material shows higher loss factor 125 Frequency ( Hz ) Fig . 6. Measured loss factor of Gypcrete panel and panel with absorptive material ( □ internal loss factor of Gypcrete panel , △ cavity panel with ...
... factor of the panel with material shows higher loss factor 125 Frequency ( Hz ) Fig . 6. Measured loss factor of Gypcrete panel and panel with absorptive material ( □ internal loss factor of Gypcrete panel , △ cavity panel with ...
Page 167
... factor is derived by using the first two terms of the series solution . For two particular variations of the shear modulus , we apply the analysis presented to compute the stress intensity factor numerically . The analysis can be used ...
... factor is derived by using the first two terms of the series solution . For two particular variations of the shear modulus , we apply the analysis presented to compute the stress intensity factor numerically . The analysis can be used ...
Page 177
Table 1. Normalized stress intensity factors Sources Murakami's Handbook 400 nodes LBIE 900 nodes Stress intensity factor fi Relative errors [ % ] 1.32 1.290 1.309 2.27 0.8 = V12 were fixed and the Young's modulus were evaluated as a ...
Table 1. Normalized stress intensity factors Sources Murakami's Handbook 400 nodes LBIE 900 nodes Stress intensity factor fi Relative errors [ % ] 1.32 1.290 1.309 2.27 0.8 = V12 were fixed and the Young's modulus were evaluated as a ...
Contents
CONTENTS | 1 |
T Kambezidis H D Katsoulis B D Muneer T Bartzokas | 19 |
CONTENTS | 137 |
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Academy of Sciences aerated concrete aeroelastic air change rate air flow analysis Beskos BIE system boundary conditions Boundary Element Methods boundary integral equations Bratislava Bratislava 5-mi data Building Research Journal calculated cavity coefficients computational considered crack DARULA daylight deflection deformations distribution domain Dv/Ev ratios dynamic elastic formulation frequency function girder heat and moisture hygro-thermal indoor air relative indoor air temperature insulation system integral equations kernel Kittler Laplace transform layer lintels long-term load Lz/Dv material mechanical meshless modulus moisture transfer Moving Least Square nodes normalized stresses overcast skies overheating index overheating of indoor panel parameters partial differential equations partly cloudy plaster polystyrene prisms problems relative humidity Selected data recorded shear shear modulus simply supported simulation sky standards sky type Sladek Slovak Academy Solar altitude solution sticking mortar structures tension clamp Tesár thermal total number values vapour viscoelastic Young modulus Әп მყ