Kong Sih Ying scite author profile

Kong Sih Ying

4Publications

0Citation Statements Received

20Citation Statements Given

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Affiliations

Monash University Malaysia, University of Wollongong, ORCID

Publications

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Numerical Investigation of the Response of Protective Barrier under Blast Loading

Ying

Remennikov

2014

AMM

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Non-composite steel-concrete-steel panels develop high load-carrying capacity through the tensile membrane resistance of the steel faceplates at large displacement. The response of a full-scale barrier structure composed of the non-composite SCS panels and steel posts under various blast loading scenarios was investigated using non-linear finite element software LS-Dyna. The simulation results showed that the barrier was able to withstand very large blast energy. It can be concluded that non-composite SCS panels can provide an attractive solution to expedite construction of high-performance protective barriers to resist extreme blast loadings.

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Static and Dynamic Behaviour of Non-Composite Steel-Concrete-Steel Protective Panels under Large Deformation

Remennikov¹,

Ying²,

Uy³

2010

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Computational and Experimental Analysis of Reinforced Aerated Concrete Beam Concrete Containing Rice Husk Ash

Lakhiar¹,

Ali²,

Ying³

et al. 2020

Preprint

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Aerated concrete, which is manufactured from binding material, sand, foaming agent and water, is currently being utilized in the construction industry because of its lightweight and durability. The binding material, cement, along with other materials used in the concrete produces huge carbon footprints during its fabrication. The utilization of natural aggregates name as coarse aggregates depletes the natural resources of the country. Therefore, huge amounts of agricultural wastes have led scholars to investigate the effectiveness of replacing conventional materials used in concrete with agricultural wastes. In the current study, rice husk ash (RHA) was used as supplementary cementing material, thereby reducing the amount of cement used in aerated concrete (AC) mixture will reduce carbon footprints. The experimental and numerical analysis were conducted to investigate structural behavior of reinforced RAC- B beams subjected to flexural load. Parametric study on structural performance of RAC- B beam under flexure were conducted using finite element analysis (FEA). From the experiment and FEA. Results from the parametric study showed that RAC-10%RHA-B with higher depth structurally performed better compared to RAC-B under flexure with greater load carrying capacity, lesser maximum deflection, and less cracks developing in the tension area.

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Waste iron powder as aggregate and binder in mortar production

Jihad

Shamim

Chandra

et al. 2021

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Kong Sih Ying

Numerical Investigation of the Response of Protective Barrier under Blast Loading

Static and Dynamic Behaviour of Non-Composite Steel-Concrete-Steel Protective Panels under Large Deformation

Computational and Experimental Analysis of Reinforced Aerated Concrete Beam Concrete Containing Rice Husk Ash

Waste iron powder as aggregate and binder in mortar production

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