In: Proceedings of the symposium: sea-dredged aggregates for concrete, sand and gravel association Great Britain Buckinghamshire, UK. Google Scholar Sun W, Liu J, Dai Y, Yan J (2016) Study on the influence of chloride ions content on the sea sand concrete performance. American Journal of Civil Engineering 4(2):50–54
Previous studies have shown that partially replacing river sand with laterite produces concrete with competitive strength properties.
International Research Journal of Engineering and Technology (IRJET) e-ISSN: 2395 -0056 Volume: 04 Issue: 01 | Jan -2017 p-ISSN: 2395-0072 Effect of Quarry Dust on High Performance Concrete S.Azhagarsamy1, A.M.Sumaiya Fathima2, K.Thilagavathi2 1Assistant Professor,2UG Student, Department of Civil Engineering …
The outcome of the study given in the chapter suggests the use of quarry dust as partial replacement of sand to augment the flowability of high performance concrete. : Physical Properties of Materials
3.3 Effect of gravel-sand (G/S) ratio on the depth of water penetration ... To study the effect of the gravel content on the mechanical performance and the porous structure of concrete, tests on concrete specimens were carried out, the following conclusions were obtained: ... Donza, H., Cabrera, O., Irassar, E.F. (2002). High …
This paper present a report on the possibility of developing high performance concrete (HPC) using quarry dust as part of fine aggregates. Quarry dust was used to replace 20% of sand in silica fume-quarry dust (SFQD) and silica fume (SF) concretes. Besides, silica fume was used as 10% replacement of cement in both SF and SFQD concretes.
The overall performance revealed that granite powder can be utilised as a partial replacement of natural sand in high-performance concrete. Download Free PDF View PDF. Properties of Self compacting concrete made with different types of aggregates ... (2005), conducted studies on the effect of quarry dust on the geotechnical properties of …
Globally, studies on the impacts of quarry dust on concrete have been done. Saifuddin et al. [14] examined the effect of partial sand and cement replacement on concrete compressive strength. Galetakis and Raka [15] investigated the effects of replacing sand with quarry dust (20, 30 and 40%) on the characteristics of fresh and …
This study investigated the effects of substituting waste tire rubber particles for natural sand on high-performance concrete (HPC) properties.
1. Introduction. High performance concrete (HPC) has been widely used in modern engineering structures attributed to its excellent mechanical properties, good workability and outstanding durability [1], [2], [3], [4].However, HPC usually has a low water to cement ratio (w/c), which may result in volume changes at an early stage due to the …
The dolomite crushed sand concrete compressive strength was found 38.1, 39.0, 41.3, 43.3, and 44.9 (MPa), respectively, at 0%, 5%, 10%, 15%, and 20% crushed dolomite as a partial substitute of natural sand. They reported that the main reason behind the increase in strength was the filler ability of crushed dolomite sand in concrete.
The outcome of the study given in the chapter suggests the use of quarry dust as partial replacement of sand to augment the flowability of high performance …
It has been shown that increasing the proportion of quarry dust in concrete may increase its workability by as much as thirty percent for M40 grade concrete. It has …
2.1 Physical Properties of Coarse Aggregates 2.1.1 Gradation. Particle size distribution of aggregates significantly affect the packing density and void content in concrete. According to Neville [], the gradation of aggregate has the main role in establishing the workability of mixtures.Gradation can influence workability, segregation, …
Sureshchandra et al. [7] replaced sand with quarry dust for the production of hollow concrete blocks. e blocks with replacement of 50% of sand by quarry dust had better performance than those with ...
This article summarizes the characteristics, properties, and applications of high performance concrete (HPC), a type of concrete with improved mechanical and …
sand with quarry dust in fly ash/silica fume based concrete and concrete having 20% sand replaced with quarry dust and 10% weight replacement of cement with flyash and same 10% weight replacement of cement with silica fume by consideration. It was found that quarry dust as fine
Strength Characteristics of Quarry Dust in Replacement of Sand. In Materials Science and Engineering Conference Series (Vol. 225, No. 1, p. 012074). looked into the effects of replacing varying percentages of river sand with granite cutting waste (GCW) in high-strength concrete.
Effect of Quarry Dust on High Performance Concrete S.Azhagarsamy1, A.M.Sumaiya Fathima2, K.Thilagavathi2 ... natural sand i.e (quarry dust replaces 60% of natural sand) in concrete. Silica fume is added as mineral admixture by 15% of weight of cement and steel fiber used in different percentage (0.5%, 1.0%, and 1.5%) to increase the tensile ...
In presence of superplasticizer, silica fume provides better flow properties than fly ash. Besides, the incorporation of quarry dust improves the flowability of fresh mixes. The outcome of the study given in the chapter suggests the use of quarry dust as partial replacement of sand to augment the flowability of high performance concrete.
This study aims to investigate the limit up to which stone quarry can be replaced with sand for M35 grade of concrete and to investigate the combined effect of stone quarry dust (10%) and ...
PDF | On Jan 1, 2000, M.F.M. Zain and others published Partial replacement of sand by quarry dust and its effect on the physical properties of fresh high performance concrete (in Malay) | Find ...
This research work presents effect of nano silica (NS) and fly ash (FA) on properties of high performance has been addressed. Three High performance concrete (HPC) series has been designed having a total binder content of 550 kg/m 3 and at water to binder ratio (W/B) of 0.33 were adopted. This study evaluates addition of Nano silica …
Sustainable eco-friendly ultra-high-performance concrete (UHPC) is a remarkable innovation in construction technology. This research aims to develop sustainable UHPC by incorporating various supplementary materials, including silica fume (SF), glass powder (GLP), fly ash (FA), limestone powder (LP), and granite powder …
Effect of recycled waste glass on the properties of high-performance concrete: A critical review ... can be solved in many bene cial ways such as the re-utilisation of WG as cement/sand/gravel ...
The purpose of this research is to determine how well sand can stand in as a partial substitute for iron ore tailings without negatively impacting the microstructure, strength, or durability of concrete. The concrete mix is designed as 1:1.62:3.25 (cement: sand: coarse aggregate) with a water-to-cement ratio (W/C) of 0.48.
studies have shown that partially replacing river sand with laterite produces concrete with competitive strength properties. This research aims to validate and extend these …
These particular minerals are micaceous. Mica, along with clays, is part of the phyllosilicates class of minerals. The inclusion of mica has been found to have undesirable effects on the performance of concrete. However, the effect is primarily dependent on the type of mica rather than how much mica is present (Muller 1971)[13].
The article presents the progress and applications of ultra-high-performance concrete (UHPC), a revolutionary material in modern construction that offers unparalleled strength, durability, and sustainability. The overview includes the historical development of UHPC, covering its production and design aspects, including composition and design …
quarry dust ratio concrete mixes stands between 27% to 31% than conventional concrete mixes. It can be concluded that M20 – 0.41 and M20 – 0.42 QD concrete mixes can be used for industrial purposes as a replacement for conventional concrete mixes & using superplasticizer, M30 grade quarry dust concrete mixes and M40 – 0.41 quarry dust ...
Aggregates, comprising crushed stone, gravel, sand, and other granular materials, contribute to the overall strength, workability, and performance of concrete 8. In the realm of laterized concrete ...
The experimental test results have revealed that it is possible to obtain a normal and high strength concrete with acceptable compressive and flexural strengths values by using river sand...
The escalating demand for natural resources within the construction industry is progressing upward. At the same time, however, there is a great concern regarding the depletion of these resources. This review paper emphasizes the significance of utilizing alternative aggregate materials in concrete. Particularly, it aims to explore replacing …
The purpose of this research is to experimentally investigate the effect of M-Sand in structural concrete by replacing river sand and develop a high performance concrete. It …