Your search keyword '"Maalouf, Chadi"' showing total 6 results

1. Physicomechanical and Hygrothermal Characterization of a Sugarcane Waste / Spent Coffee Grounds Composite for Buildings

Author

Moussa, Tala, Maalouf, Chadi, Ghanem, Akram, Bliard, Christophe, Abbes, Boussad, Badouard, Céline, Lachi, Mohammed, Bufalino, Lina, Bogard, Fabien, and Polidori, Guillaume

Published

2024

2. Mechanical and hygrothermal characterisation of cork concrete composite: experimental and modelling study.

Author

Boussetoua, Hocine, Maalouf, Chadi, Lachi, Mohammed, Belhamri, Azzedine, and Moussa, Tala

Subjects

*HYGROTHERMOELASTICITY, *CORK, *INSULATING materials, *FLEXURAL strength, *THERMAL conductivity, *COMPRESSIVE strength

Abstract

The paper aims to present a new insulating material based on cork aggregates and cement designed for building applications. Samples are prepared by mixing natural cork aggregates, sand, cement and water. Four cork volume dosages are considered, 0, 25, 50 and 75% (relative to the sand). Samples are characterised in terms of hardened density, compressive and flexural strength, as well as thermal conductivity and hydric properties (moisture content, vapour permeability, moisture buffering value and absorption by partial immersion). Results show that increasing cork granule amount tends to increase moisture retention and buffering value but decreases density, thermal conductivity and mechanical properties. Depending on the cork content, cork concrete mixture can be used as thermal insulator or as a structural component. [ABSTRACT FROM AUTHOR]

Published

2020

3. Characterization of beet-pulp fiber reinforced potato starch biopolymer composites for building applications.

Author

Karaky, Hamzé, Maalouf, Chadi, Bliard, Christophe, Gacoin, Alexandre, Lachi, Mohammed, El Wakil, Nadim, and Polidori, Guillaume

Subjects

*POLYMERIC composites, *STARCH, *FIBER-reinforced plastics, *MECHANICAL behavior of materials, *STRENGTH of materials

Abstract

Highlights • This study shows the mechanical performance of the beet pulp composite materials. • The binding strength of the beet pulp composite depends on the material density. • The beet pulp composite shows a good thermal and acoustical properties. • The beet pulp material is classified as an excellent hygric regulator. Abstract This work deals with the making of a new renewable green material for building insulation from sugar beet pulp and potato starch. The material is both lightweight and ecofriendly. The influence of starch/extruded sugar beet pulp mass ratio (S/EBP) is studied. Four mass ratios are considered, 10, 20, 30 and 40% (relative to the starch). Samples are characterized in terms of absolute and bulk density, sound absorption coefficient, compressive and flexural strength, as well as and hygrothermal properties (the moisture buffering value and thermal conductivity). The sound absorption coefficient shows that this material is a good sound absorber, especially in medium and high frequencies. The sound absorption capacity depends on the fiber content and the humidity content. The best values are between 0.6 and 0.8. The compressive strength increases linearly with the S/EBP weight ratio to reach 0.52 MPa and the compressive strain is 30%. The elasticity modulus and the Poisson's ratios were also studied. The transversal and vertical strain were measured using ARAMIS optical system. The moisture buffering value was measured according to Nordtest Protocol. The recorded moisture buffering value was between 2.6 and 2.8 g/(%RH.m2) and shows that the sugar beet pulp-starch composite is an excellent hygric regulator. The thermal conductivity is to around 0.070 W/(m·K). The results obtained shows that increasing starch amount tends to decrease composite porosity but increases thermal conductivity and mechanical properties. Depending on the starch content, beet pulp composites have a good thermal and acoustical performance and can be used as building materials. [ABSTRACT FROM AUTHOR]

Published

2019

4. Spent Coffee Grounds as Building Material for Non-Load-Bearing Structures.

Author

Moussa, Tala, Maalouf, Chadi, Bliard, Christophe, Abbes, Boussad, Badouard, Céline, Lachi, Mohammed, do Socorro Veloso Sodré, Silvana, Bufalino, Lina, Bogard, Fabien, Beaumont, Fabien, and Polidori, Guillaume

Subjects

*COFFEE grounds, *CONSTRUCTION materials, *COFFEE waste, *STARCH, *INSULATING materials, *THERMAL insulation, *BRICKS

Abstract

The gradual development of government policies for ecological transition in the modern construction sector leads researchers to explore new alternative and low environmental impact materials with a particular focus on bio-sourced materials. In this perspective, the mechanical, thermal insulation, and the sound absorption performances of a spent coffee grounds/potato starch bio-based composite were analyzed for potential application in buildings. Based on thermal conductivity and diffusivity tests, the coffee grounds waste biocomposite was characterized as an insulating material comparable with conventional thermal insulation materials of plant origin. Acoustical tests revealed absorption coefficients in the same range as other conventional materials used in building acoustical comfort. This bio-sourced material presented a sufficient compressive mechanical behavior for non-load-bearing structures and a sufficient mechanical capacity to be shaped into building bricks. Mechanical, thermal, and acoustic performances depend on the moisture environment. The groundwork was laid for an initial reflection on how this composite would behave in two opposite climates: the continental climate of Reims in France and the tropical climate of Belém in Brazil. [ABSTRACT FROM AUTHOR]

Published

2022

5. Characterization of a hemp-based agro-material: Influence of starch ratio and hemp shive size on physical, mechanical, and hygrothermal properties.

Author

Bourdot, Alexandra, Moussa, Tala, Gacoin, Alexandre, Maalouf, Chadi, Lachi, Mohammed, Polidori, Guillaume, Karaky, Hamzé, Vazquez, Patricia, Thomachot-Schneider, Céline, Bliard, Christophe, Merabtine, Abdelatif, and Douzane, Omar

Subjects

*HEMP, *HYGROTHERMOELASTICITY, *POROSITY, *THERMAL conductivity, *ADSORPTION isotherms, *ENERGY consumption of buildings

Abstract

Hemp shives is a lightweight material known for its insulating properties. Associating these bio-fibers with plant-based matrix instead of a mineral binder in insulation applications is of ecological interest. This article describes the study of a low environmental impact 100% plant-based material made solely from wheat starch and hemp shives. The hemp/starch ratio (H/S) influence and hemp shive size are studied. Samples are evaluated in terms of physical properties, mechanical behaviour and hygrothermal properties through an experimental approach. Results show that increasing 0–5 mm hemp shive proportion from 15% to 30% leads to a significant enhancement of the mechanical and hygric characteristics due to the load transfer and porosity. However, when the H/S ratio increases, mechanical and hygrothermal characteristics decrease slightly. Finally, the hemp-starch agro-material with H/S equal to 8 and 30% of 0–5 mm hemp shive seems to be the optimal composition between the studied samples. [ABSTRACT FROM AUTHOR]

Published

2017

6. Experimental characterization of starch/beet-pulp bricks for building applications: Drying kinetics and mechanical behavior.

Author

Costantine, Georges, Harb, Elias, Bliard, Christophe, Maalouf, Chadi, Kinab, Elias, Abbès, Boussad, Beaumont, Fabien, and Polidori, Guillaume

Subjects

*BEETS, *THERMAL insulation, *HYGROTHERMOELASTICITY, *BRICKS, *ENERGY consumption, *WASTE products, *ANALYTICAL mechanics, *BUILT environment

Abstract

• Two types of beet-pulp/starch bricks are investigated: full and hollowed bricks. • The preparation of the mixture and bricks manufacturing are described in details. • The microstructure of the mixture constituents are described and analyzed. • The drying kinetics of the bricks are compared and predicted via mathematical models. • The mechanical behavior of the bricks is studied via compressive tests on each type. Buildings account for a large share of the primary energy and materials use in Europe. Therefore, the EU has set several energy and materials targets for the built environment and other sectors. Novel low-carbon materials can play a major role in the transition towards meeting those targets. Moreover, agriculture produces by- or waste products that could be used as constituent of innovative agro-materials for construction. Recently, beet pulp based-material is being investigated on the material scale and promising results are pointed out regarding its interesting mechanical, hygrothermal and acoustical properties for building insulation use. In this context, the paper aims to study experimentally two types of beet-pulp starch composites: whole bricks and hollowed bricks. The manufacturing of the two types of bricks is detailed. A comparative study is then achieved regarding the drying kinetics, mechanical properties as well as internal structure composition. [ABSTRACT FROM AUTHOR]

Published

2020