Thermal Conductivity of Dune Sand Concrete Reinforced with Pneumatic Waste Metal Fibers

[1]  P. Mendis,et al.  Recycling of landfill wastes (tyres, plastics and glass) in construction - A review on global waste generation, performance, application and future opportunities , 2021 .

[2]  J. Canales,et al.  Thermal and mechanical properties of mortars reinforced with recycled brass fibres , 2021 .

[3]  Rafik Belarbi,et al.  Sustainable and Greener Self-Compacting Concrete incorporating Industrial By-Products: A Review , 2020 .

[4]  T. Dobrescu,et al.  Improvement of waste tyre recycling technology based on a new tyre markings , 2020 .

[5]  J. Parton,et al.  Build , 2019, Definitions.

[6]  M. Hassanzadeh-Aghdam,et al.  Effect of adding carbon nanotubes on the thermal conductivity of steel fiber-reinforced concrete , 2019, Composites Part B: Engineering.

[7]  Payam Shafigh,et al.  Thermal conductivity of concrete – A review , 2018, Journal of Building Engineering.

[8]  Chengqing Wu,et al.  Investigation on Thermal Conductivity of Steel Fiber Reinforced Concrete Using Mesoscale Modeling , 2018, International Journal of Thermophysics.

[9]  J. de Brito,et al.  Environmental life cycle assessment of coarse natural and recycled aggregates for concrete , 2018 .

[10]  Fang Wang,et al.  Theoretical and experimental study on multi-phase model of thermal conductivity for fiber reinforced concrete , 2017 .

[11]  Wei Wang,et al.  An investigation on thermal conductivity of fly ash concrete after elevated temperature exposure , 2017 .

[12]  Jorge de Brito,et al.  Thermal Performance of Concrete with Recycled Aggregates from CDW Plants , 2017 .

[13]  G. Charles Clifton,et al.  Effects of expanded polystyrene (EPS) particles on fire resistance, thermal conductivity and compressive strength of foamed concrete , 2016 .

[14]  S. Abboudi,et al.  Effect of granulometric correction of dune sand and pneumatic waste metal fibers on shrinkage of concrete in arid climates , 2016 .

[15]  Abdelaziz Mimet,et al.  Moisture content influence on the thermal conductivity and diffusivity of wood–concrete composite , 2013 .

[16]  A. Kriker,et al.  Improvement of the compressive strength of mortar in the arid climates by valorization of dune sand and pneumatic waste metal fibers , 2013 .

[17]  Dora Foti,et al.  USE OF RECYCLED WASTE PET BOTTLES FIBERS FOR THE REINFORCEMENT OF CONCRETE , 2013 .

[18]  Abdulkadir Kan,et al.  Thermal conductivity and shrinkage properties of modified waste polystyrene aggregate concretes , 2012 .

[19]  K. Manohar,et al.  Effects of Steel Fibers and Iron Filings on Thermal and Mechanical Properties of Concrete for Energy Storage Application , 2011 .

[20]  Filiz Karaosmanoglu,et al.  Effect of expanded perlite on the mechanical properties and thermal conductivity of lightweight conc , 2011 .

[21]  Y. Scudeller,et al.  Mechanical and thermal properties of lime and hemp concrete (“hempcrete”) manufactured by a projection process , 2008 .

[22]  J. Hirunlabh,et al.  New insulating particleboards from durian peel and coconut coir , 2003 .

[23]  J. Issi,et al.  The Effect of Fiber Concentration on the Thermal Conductivity of a Polycarbonate/Pitch-Based Carbon Fiber Composite , 1993 .

[24]  D. J. Cook,et al.  The thermal conductivity of fibre-reinforced concrete , 1974 .

[25]  Rainer Telle,et al.  Thermal Resistance of Grain Boundaries in Alumina Ceramics and Refractories , 2003 .

[26]  D.D.L. Chung,et al.  Effect of sand addition on the specific heat and thermal conductivity of cement , 2000 .

[27]  Barry Albert Haseltine,et al.  ENERGY TO BUILD , 1975 .