The Effects of Tragacanth Addition on the Thermal and Mechanical Properties of Lightweight Concretes Mixed with Expanded Clay

Devecioğlu, Atilla G.; Bíçer, Yaşar

doi:10.3311/ppci.7984

Cited by 21 publications

(14 citation statements)

References 18 publications

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“…Samples with high pumice content (60% and 80%) had lower thermal conductivity than various plaster materials (Table 5), mainly due to the porous nature of the pumice and the resin added to the plaster. The samples had the same thermal conductivity values as those in Ref [5] and lower thermal conductivity values than those in Ref [2,4,15,20,21] (Table 6). The aggregate ratio and resin addition gave the plaster samples sound and thermal insulation.…”

Section: Resultsmentioning

confidence: 74%

“…Bicer [4] mixed fly ash aggregate and gypsum (a binder agent) at ratios of up to 90% to produce plaster with thermal conductivity of 0.248 W/mK. Devecioglu and Bicer [5] added 80% EC and 1% tragacanth resin to produce concretes with thermal conductivity of 0.140 W/mK. Many other researchers have conducted similar studies on EC aggregate concretes [6][7][8][9][10][11][12][13].…”

Section: Introductionmentioning

confidence: 99%

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Effect of pine resin on the thermal and mechanical properties of plaster with pumice

BİÇER¹

2021

DÜMF Mühendislik Dergisi

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This study investigated the effect of pine resin on the thermal and mechanical properties of gypsum plasters with pumice aggregate. Pumice rock was crushed and sieved into three grain sizes (2-5 mm, 5-8 mm, and 8-12 mm). Each group was mixed separately with non-resinous and resinous gypsum in the proportions of 20%, 40%, 60%, and 80%. The resin was added to the gypsum at 2% of its total weight (gypsum + pumice) to generate artificial pores and improve the binding power of the gypsum. Twenty-four samples were produced in different combinations. The test results showed that resin reduced the thermal conductivity and improved the compressive stress of the plasters. They had a water absorption of greater than 30%, suggesting that they can be used in interior plasters and painted with any paint. In conclusion, they can be used as interior plasters for both insulation and strength.

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Section: Resultsmentioning

confidence: 74%

Section: Introductionmentioning

confidence: 99%

Effect of pine resin on the thermal and mechanical properties of plaster with pumice

BİÇER¹

2021

DÜMF Mühendislik Dergisi

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“…Table 4 shows that compressive strength values (samples [16][17][18] are greater than those obtained by Babu et al, 26 Li et al 19 (density: 1.150 g/cm 3 ), Kaya and Kar 33 (EPS (80%) þ cement (20%)), Khedari et al, 41 and Devecioglu and Bicer. 43 In the abrasion test performed on the samples, as PP ratio increased, abrasion ratio decreased from 1.90% to 0.5% with a ratio of 73.68% ( Figure 5). Figure 6 shows that as the production temperature increased (275 C), water absorption ratio decreased.…”

Section: Compressive and Tensile Strengthmentioning

confidence: 96%

Effect of production temperature on thermal and mechanical properties of polystyrene–fly ash composites

BİÇER

2020

Advanced Composites Letters

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This study was conducted to produce a novel construction material by using two different types of waste material consisting of fly ash and fragmented polypropylene (PP). These two materials were mixed on various ratios, and samples with smooth surface were obtained by compressing with 50 kg of weight after each mixture is heated on temperatures of 225 C, 250 C, and 275 C and poured into the molds. Thermal and mechanical tests were performed on the prepared samples. As a result, with the evaluation of two waste materials such as fly ash and PP, (i) the contamination caused by the waste materials will be prevented; (ii) as the fly ash rate increases, the thermal properties of samples produced under 225 C of temperature will be enhanced; (iii) as the fly ash rate increases, the thermal properties of samples produced under 225 C of temperature will be enhanced, and PP ratio and production temperature must be high in order to improve mechanical properties; (iv) the produced composite materials bear the low-cost heat, acoustics, and water insulation, while it will also be possible for the same to be used as coating materials on the walls and tiling in the buildings.

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“…Not every clay that can be found in nature expands. Early sintering clay, sand clay and clay schist are the raw materials used for producing growing clays [17][18][19][20][21][22][23]. Expanded clays are immediately processed in rotary furnaces heated to over 1000 C at high temperatures.…”

Section: Artificial Porous Aggregatesmentioning

confidence: 99%

“…Xue et al [14], Gnip et al [15], Demirboga and Kan [16] can be cited as examples of studies on the reuse of waste EPS for thermal recycling in a modified form and its physical properties. Devecioglu and Bicer [17], Bouvard et al [18] and Chen and Liu [19] studied on thermal and mechanical properties of concrete with expanded clay aggregate Bartolini et al [20] mixed the expanded clays and epoxy resin which was used as a binder. Rossignolo et al [21] studied production of sturdy prefabricated constructional components by means of using the expanded clay aggregates, Vasina et al [22] mixed expanded clays of various diameters with cement, fuel ash and plasticizer additive, while also carrying out a research on the acoustics performance of the samples.…”

Section: Introductionmentioning

confidence: 99%

Gözenekli Agregalı Betonların Isıl ve Mekanik Özellikleri

BİÇER

2021

International Journal of Innovative Engineering Applications

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Original scientific paperThe results of an experimental study on the thermal and mechanical properties of concretes using porous aggregates instead of conventional aggregates are presented in this study. Oriented at this purpose, eleven concrete samples containing organic sediment stones, volcanic stones and artificial porous aggregates were prepared as porous aggregates. The concrete samples were subjected to certain tests at the end of 28 days of drying period and their thermal and mechanical properties were determined accordingly. With this study, the following values were obtained: i) The lowest heat transfer coefficient for concrete with expanded polystyrene aggregates from the group of artificial porous aggregates: 0.175 W/mK, ii) The highest compressive strength value is basalt-type stone (Karaca dag) from the group of volcanic stones: 117 MPa.

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The Effects of Tragacanth Addition on the Thermal and Mechanical Properties of Lightweight Concretes Mixed with Expanded Clay

Abstract: Abstract

Cited by 21 publications

References 18 publications

Effect of pine resin on the thermal and mechanical properties of plaster with pumice

Effect of pine resin on the thermal and mechanical properties of plaster with pumice

Effect of production temperature on thermal and mechanical properties of polystyrene–fly ash composites

Gözenekli Agregalı Betonların Isıl ve Mekanik Özellikleri

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