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A platform for research: civil engineering, architecture and urbanism
Experimental study on bamboo hygrothermal properties and the impact of bamboo-based panel process
Highlights9 test items based on building envelope HAM model are carried out on 6 typical bamboos.Correlations between hygrothermal and basic properties are quantitatively explained.Hygrothermal properties show stronger correlation with open porosity than with bulk density.Bamboo-based panel process improves homogeneity and broadens the properties spectrum.Bamboo-based panel process changes transport properties greater than storage properties.
AbstractTo obtain bamboos’ material parameters and clarify the modification impact of bamboo-based panel (BBP) process, nine test items are carried out on six typical bamboos for hygrothermal properties, based on the building envelope heat and moisture process model. Results show that macroscopically gaseous water and heat storage properties show insignificant correlation with basic properties. Both moisture and thermal transport properties show stronger correlation with open porosity than with bulk density and are affected by moisture content to varying degree. Comparison between five BBPs and flattened raw bamboo show that the BBP process improves homogeneity and broadens the material properties spectrum. The transport properties are changed greater than storage properties in terms of both hygric and thermal aspects.
Experimental study on bamboo hygrothermal properties and the impact of bamboo-based panel process
Highlights9 test items based on building envelope HAM model are carried out on 6 typical bamboos.Correlations between hygrothermal and basic properties are quantitatively explained.Hygrothermal properties show stronger correlation with open porosity than with bulk density.Bamboo-based panel process improves homogeneity and broadens the properties spectrum.Bamboo-based panel process changes transport properties greater than storage properties.
AbstractTo obtain bamboos’ material parameters and clarify the modification impact of bamboo-based panel (BBP) process, nine test items are carried out on six typical bamboos for hygrothermal properties, based on the building envelope heat and moisture process model. Results show that macroscopically gaseous water and heat storage properties show insignificant correlation with basic properties. Both moisture and thermal transport properties show stronger correlation with open porosity than with bulk density and are affected by moisture content to varying degree. Comparison between five BBPs and flattened raw bamboo show that the BBP process improves homogeneity and broadens the material properties spectrum. The transport properties are changed greater than storage properties in terms of both hygric and thermal aspects.
Experimental study on bamboo hygrothermal properties and the impact of bamboo-based panel process
Huang, Zujian (author) / Sun, Yimin (author) / Musso, Florian (author)
Construction and Building Materials ; 155 ; 1112-1125
2017-08-23
14 pages
Article (Journal)
Electronic Resource
English
Experimental study on bamboo hygrothermal properties and the impact of bamboo-based panel process
| British Library Online Contents | 2017
Experimental study on bamboo hygrothermal properties and the impact of bamboo-based panel process
| British Library Online Contents | 2017
Experimental study on bamboo hygrothermal properties and the impact of bamboo-based panel process
| British Library Online Contents | 2017
Experimental study on bamboo hygrothermal properties and the impact of bamboo-based panel process
| British Library Online Contents | 2017
Experimental study on bamboo hygrothermal properties and the impact of bamboo-based panel process
| Online Contents | 2017