User contributions

• 15:31, 25 November 2016 (diff | hist) m Engineered bamboo ‎ (Protected "Engineered bamboo" ([edit=author] (indefinite)))
• 15:30, 25 November 2016 (diff | hist) Engineered bamboo ‎
• 15:30, 25 November 2016 (diff | hist) N File:Equivalent C02 sequestration in bamboo and wood forest.jpg ‎ (Engineered bamboo products (EBPs) and engineered wood products (EWPs) possess an intrinsic carbon storage capability, as well as potentially lower embodied energy and carbon dioxide emissions from manufacturing than conventional construction products such) (top)
• 15:25, 25 November 2016 (diff | hist) Engineered bamboo ‎
• 15:20, 25 November 2016 (diff | hist) Engineered bamboo ‎
• 15:19, 25 November 2016 (diff | hist) Engineered bamboo ‎
• 15:15, 25 November 2016 (diff | hist) N File:Summary of the results obtained from the in-plane compression panel testing and the FE and predicted values previously obtained by -4-.jpg ‎ (The in-plane compression moduli of elasticity of CLT panels in the main direction (〖Ep〗_(C,0)) and transverse direction (〖Ep〗_(C,90)) were about half of that of G-XLam3 and G-XLam5 panels (three and five layers); e.g. 〖Ep〗_(C,0) was 7.57GPa an) (top)
• 15:11, 25 November 2016 (diff | hist) N File:G-XLam bamboo-Guadua panels for stiffness driven applications.jpg ‎ (Cross laminated Guadua-bamboo (G-XLam) panels (Figure 2) developed and tested at this university with the support of British firm Amphibia BASE showcased an approximate two-fold increase in density and MOE when compared to analogous cross laminated (CLT)) (top)
• 14:25, 25 November 2016 (diff | hist) Engineered bamboo ‎
• 14:22, 25 November 2016 (diff | hist) Engineered bamboo ‎
• 14:01, 25 November 2016 (diff | hist) N File:Equivalent C02 sequestration in bamboo and wood forest for different bamboo based products. Data from (J. G. Vogtländer et al., 2013).jpg ‎ (Overall, highly-processed bamboo products such as flattened bamboo and plybamboo, whose physical properties (e.g. density, durability, hardness) have been improved through industrial processes outperform conventional materials in terms of their contributi) (top)
• 13:53, 25 November 2016 (diff | hist) Engineered bamboo ‎
• 13:46, 25 November 2016 (diff | hist) Engineered bamboo ‎
• 13:45, 25 November 2016 (diff | hist) Engineered bamboo ‎
• 13:44, 25 November 2016 (diff | hist) Engineered bamboo ‎
• 13:41, 25 November 2016 (diff | hist) N Engineered bamboo ‎ (Created page with "Bamboo can be engineered to form products with improved and/or standardised mechanical, physical and aesthetic properties. As in the case for other lignocellulosic materials such...")
• 12:43, 25 November 2016 (diff | hist) N File:Equivalent C02 sequestration in bamboo and wood forest for different bamboo based products. Data from (J. G. Vogtländer et al., 2013)..png ‎ (Overall, highly-processed bamboo products such as flattened bamboo and plybamboo, whose physical properties (e.g. density, durability, hardness) have been improved through industrial processes outperform conventional materials in terms of their contributi) (top)
• 11:44, 25 November 2016 (diff | hist) User:Amphibio ‎ (top)