artis bidayuh pernah sex - Durability design and performance of self consolidating lightweight concrete
Afterward, statistical models were developed for prediction of these properties.
In phase III, the developed statistical models were used to derive optimized industrial class ESH–LWSCCs.
The developed statistical models can be used as tools for practical production of ESH–LWSCCs.
The study demonstrated that fixed aggregate contents can be used effectively in volumetric method to design LWSCC mixtures.
An increase in the paste content of the mix increased the flow velocity but reduced resistance to segregation. () studied the semi-lightweight SCC characteristics using two types of coarse aggregates with different densities.
Nine mixes were evaluated in terms of flowability, segregation resistance and filling capacity of fresh concrete.
The mechanical properties of hardened LWSCC, such as compressive strength, splitting tensile strength, elastic modulus and density were assessed.
These benefits add to those of LWSCC to further support sustainable development and contribute to projects becoming Leadership in Energy and Environmental Design (LEED) certified (ESCSI ).