Effect of the treatment of wood shavings on the physico-mechanical characteristics of wood sand concretes

Bédérina, Madani; Laidoudi, Boubker; Goullieux, Adeline; Khenfer, M.M.; Bali, Abderrahim; Quéneudec, M.

doi:10.1016/j.conbuildmat.2008.07.029

Cited by 74 publications

(52 citation statements)

References 7 publications

Supporting

Mentioning

Contrasting

Unclassified

Order By: Relevance

“…Ce qu'il faut noter, est que le traitement a considérablement allégé les problèmes posés pour le béton de sable à base de bois [3]. L'absorption d'eau, quant à elle, est considérablement réduite.…”

Section: -P5unclassified

“…By subjecting the material to a series of accelerated "wet -dry cycling", a slight decrease in compressive strength was recorded. Moreover, the treatment of wood shavings before their use [3] had greatly improved the resistance with respect to these series of "wet-dry cycling". Similarly, the absorption of water, by immersion and by capillarity, has been greatly reduced.…”

mentioning

confidence: 99%

See 1 more Smart Citation

Absorption de l’eau et son effet sur la durabilité des bétons de sable allégés par ajout de copeaux de bois

Bédérina

Bouziani

Khenfer

et al. 2012

MATEC Web of Conferences

Self Cite

View full text Add to dashboard Cite

Abstract. The main objective of this work is to study the effect of water on lightweight sand concrete based on local materials and wastes The materials used are dune sand and river sand and the wastes are limestone fillers (aggregates crushing waste) and wood shavings (wood work activities wastes) [1,2]. It was generally noted that in the case of untreated wood shavings, the higher the wood content, more important the water absorption, whether by immersion or by capillarity. By subjecting the material to a series of accelerated "wet -dry cycling", a slight decrease in compressive strength was recorded. Moreover, the treatment of wood shavings before their use [3] had greatly improved the resistance with respect to these series of "wet-dry cycling". Similarly, the absorption of water, by immersion and by capillarity, has been greatly reduced. Finally, it should be noted that these results confirm the possibility of the use of this material in construction demonstrated by the encouraging results found in previous studies, such as mechanical and thermal properties.Résumé. L'objectif principal de ce travail est d'étudier l'effet de l'eau sur les bétons de sable léger à base de matériaux et de déchets locaux. Les matériaux utilisés sont un sable de dune et un sable d'oued et les déchets sont des fillers calcaires (déchets de concassage) et des copeaux de bois (déchets de la menuiserie) [1,2]. En général, on a remarqué que dans le cas de copeaux de bois non traités, plus le taux de bois est élevé, plus l'absorption d'eau est importante, que ce soit par immersion ou par capillarité. En soumettant le matériau à une série de cycles "mouillage -séchage" accélérés, une légère diminution dans la résistance à la compression a été enregistrée. Par ailleurs, le traitement des copeaux de bois avant leur utilisation [3] a considérablement amélioré la résistance vis à vis de ces cycles "mouillage-séchage". De même, l'absorption d'eau, par immersion et par capillarité, a été considérablement diminuée. Il convient de noter enfin, que ces résultats viennent confirmer la possibilité d'utilisation de ce matériau montrée par les résultats encourageants trouvés dans les travaux précédents, telles que les propriétés mécaniques et thermiques.

show abstract

Section: -P5unclassified

mentioning

confidence: 99%

Absorption de l’eau et son effet sur la durabilité des bétons de sable allégés par ajout de copeaux de bois

Bédérina

Bouziani

Khenfer

et al. 2012

MATEC Web of Conferences

Self Cite

View full text Add to dashboard Cite

show abstract

“…There are a number of publications related to the replacement of natural aggregate with the wastes from wood processing activity [60][61][62][63][64][65]. The research conducted by Becchio et al focuses on the possibility of the mineralized wood concrete production by incorporating wooden waste, which was pre-treated with silica fume [65].…”

Section: Increase In the Use Of Recycled Materials In Place Of Naturamentioning

confidence: 99%

Sustainable Non-Metallic Building Materials

2010

View full text Add to dashboard Cite

Buildings are the largest energy consumers and greenhouse gases emitters, both in the developed and developing countries. In continental Europe, the energy use in buildings alone is responsible for up to 50% of carbon dioxide emission. Urgent changes are, therefore, required relating to energy saving, emissions control, production and application of materials, use of renewable resources, and to recycling and reuse of building materials. In addition, the development of new eco-friendly building materials and practices is of prime importance owing to the growing environmental concerns. This review reflects the key tendencies in the sector of sustainable building materials of a non-metallic nature that have occurred over the past decade or so

show abstract

“…They demonstrated that this incorporation decreases thermal conductivity, diffusivity, as well as compressive strength which makes is this material compatible as lightweight concrete [7]. Bederina et al (2009) presented a study on the influence of the treatment of wood chips by the cement paste on the physico-mechanical properties of sand concrete. They found an increase in the mechanical strength without influence on the thermal conductivity, the shrinkage was reduced and adhesion was improved [8].…”

Section: Introductionmentioning

confidence: 99%

“…Bederina et al (2009) presented a study on the influence of the treatment of wood chips by the cement paste on the physico-mechanical properties of sand concrete. They found an increase in the mechanical strength without influence on the thermal conductivity, the shrinkage was reduced and adhesion was improved [8]. In the same sense, Sellami et al (2013) studied green concrete reinforced with Diss fibres treated with boiling water to extract sugars; they have shown that this type of treatment leads to a considerable improvement in the mechanical properties of the studied composites [9].…”

Section: Introductionmentioning

confidence: 99%

Valorization of Waste in Sand Concrete Based on Plant Fibres

Rihia

Hebhoub

Kherraf

et al. 2019

Civil and Environmental Engineering Reports

View full text Add to dashboard Cite

The introduction of treated plant fibres into sand concretes leads to a reduction in density, improved ductility and thermal conductivity, and makes sand concrete an environmentally friendly and ecological material. The recovery of waste in this type of material allows the production of new ecological and sustainable materials used either in the new construction or in the rehabilitation of old buildings. In this context, a comparative study was based on the valorisation of marble and ceramic waste as sand in sand concrete made from straw fibres. To carry out this study, we introduced these wastes at substitution rates of 10% and 20%, separated and mixed, and studied the development of the properties of these concretes (density, workability, air content, compressive strength and bending tensile strength) and their behaviour with respect to durability (capillary and immersion absorption and chloride penetration). The study shows that the recovery of this waste as sand in sand concrete based on straw fibres gives satisfactory results. The chemical resistance, thermal conductivity and microstructure are under study, the results of which will be the subject of another publication.

show abstract

Effect of the treatment of wood shavings on the physico-mechanical characteristics of wood sand concretes

Cited by 74 publications

References 7 publications

Absorption de l’eau et son effet sur la durabilité des bétons de sable allégés par ajout de copeaux de bois

Absorption de l’eau et son effet sur la durabilité des bétons de sable allégés par ajout de copeaux de bois

Sustainable Non-Metallic Building Materials

Valorization of Waste in Sand Concrete Based on Plant Fibres

Contact Info

Product

Resources

About