Search engine for discovering works of Art, research articles, and books related to Art and Culture
Javascript must be enabled to continue!
Multicriteria Optimization of Reinforced Concrete Floor Slabs
View through CrossRef
This paper focuses on the multicriteria software optimization of reinforced concrete floor slabs, especially in terms of environmental impacts and cost. The economic aspect is essential to ensure that the environmentally friendly design option is also cost effective. The durability of the structure is also considered as it significantly affects its overall environmental footprint. Increased durability reduces the frequency of repairs and extends the service life before demolition and reconstruction are required, thereby spreading the environmental impacts of the initial construction over a longer period. The software tool used for optimization was developed in previous work, and this paper extends its application to lightweight floor slabs and prestressed hollow core slabs. This extension aims to enhance the practical usability of the optimization algorithm. Lightweight floor slabs, particularly for large spans, can reduce both environmental burdens and construction cost. This paper describes the extension of an optimization algorithm to identify the most advantageous floor design in terms of environmental impact and cost. It also examines the benefits of floor slab lightweighting and provides general recommendations for optimizing reinforced concrete floor slabs.
Trans Tech Publications, Ltd.
Title: Multicriteria Optimization of Reinforced Concrete Floor Slabs
Description:
This paper focuses on the multicriteria software optimization of reinforced concrete floor slabs, especially in terms of environmental impacts and cost.
The economic aspect is essential to ensure that the environmentally friendly design option is also cost effective.
The durability of the structure is also considered as it significantly affects its overall environmental footprint.
Increased durability reduces the frequency of repairs and extends the service life before demolition and reconstruction are required, thereby spreading the environmental impacts of the initial construction over a longer period.
The software tool used for optimization was developed in previous work, and this paper extends its application to lightweight floor slabs and prestressed hollow core slabs.
This extension aims to enhance the practical usability of the optimization algorithm.
Lightweight floor slabs, particularly for large spans, can reduce both environmental burdens and construction cost.
This paper describes the extension of an optimization algorithm to identify the most advantageous floor design in terms of environmental impact and cost.
It also examines the benefits of floor slab lightweighting and provides general recommendations for optimizing reinforced concrete floor slabs.
Related Results
MECHANICAL BEHAVIOUR OF CONCRETE SLABS REINFORCED WITH STEEL AND GLASS FIBRE-REINFORCED POLYMER BARS UNDER STATIC AND CYCLIC LOADING
MECHANICAL BEHAVIOUR OF CONCRETE SLABS REINFORCED WITH STEEL AND GLASS FIBRE-REINFORCED POLYMER BARS UNDER STATIC AND CYCLIC LOADING
Steel is a fundamental material for reinforced concrete structures in construction, but it has a relatively low corrosion resistance. To overcome this drawback an alternative mater...
He found use for reinforced concrete where, it would seem, this material has no place
He found use for reinforced concrete where, it would seem, this material has no place
Introduction. The article is devoted to an employee of the Research Institute of Reinforced Concrete, Doctor of Technical Sciences, Professor I.G. Ludkovsky, a specialist in the fi...
Experimental Study on Flexural Capacity of Corroded RC Slabs Reinforced with Basalt Fiber Textile
Experimental Study on Flexural Capacity of Corroded RC Slabs Reinforced with Basalt Fiber Textile
This experimental study investigated the flexural performance of corroded reinforced concrete (RC) slabs strengthened with basalt textile-reinforced mortar (BTRM) and basalt fiber-...
Strengthening Klein’s floor slabs with the use of current norms
Strengthening Klein’s floor slabs with the use of current norms
The paper presents the effectivity of using the steel-concrete floor slabs in existing buildings. Steel-concrete slabs described in this paper consist of old steel beams which are ...
Modeling of joint work of steel beam constructions with reinforced concrete ribbed floor slabs
Modeling of joint work of steel beam constructions with reinforced concrete ribbed floor slabs
Traditional methods of calculation of beam constructions of floors and coverings of industrial buildings assume their consideration when calculating separately from the frame struc...
Study on the effect of seawater on making and curing of unreinforced concrete applications
Study on the effect of seawater on making and curing of unreinforced concrete applications
Concrete, an essential component of worldwide infrastructure, depends significantly on fresh water for its manufacturing, contributing to freshwater scarcity in many regions. As co...
Behaviour of reinforced concrete slabs strengthened by concrete overlays
Behaviour of reinforced concrete slabs strengthened by concrete overlays
This paper discusses the influence of three factors, the distribution of shear connectors, the concrete compressive strength, addition of new concrete thickness on the behavior of ...
Structural design and testing of material optimized ribbed RC slabs with 3D printed formwork
Structural design and testing of material optimized ribbed RC slabs with 3D printed formwork
Abstract
Most of the concrete volume in multistorey buildings is cast in solid slabs, which are frequently flat slabs supported on columns. By using two‐way spann...