Special Issue “Mineral Composite Materials Produced with Waste/Recycled Components”—Editorial Note and Critical Review of the Problems
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[1] B. Han,et al. Lightweight ultra-high-performance concrete (UHPC) with expanded glass aggregate: Development, characterization, and life-cycle assessment , 2023, Construction and Building Materials.
[2] Changqing Wang,et al. Chloride diffusion and binding capacity of sustainable cementitious materials with construction waste powder as cement replacement , 2023, Construction and Building Materials.
[3] Changqing Wang,et al. Microstructural and Macroperformance of Recycled Mortar with High-Quality Recycled Aggregate and Powder from High-Performance Concrete Waste , 2023, Journal of Materials in Civil Engineering.
[4] Faiz Shaikh,et al. The Effect of Recycled Waste Glass as a Coarse Aggregate on the Properties of Portland Cement Concrete and Geopolymer Concrete , 2023, Buildings.
[5] M. Stefanidou,et al. Investigating the Suitability of Waste Glass as a Supplementary Binder and Aggregate for Cement and Concrete , 2023, Sustainability.
[6] Q. B. A. I. Latif,et al. A Systematic Review of the Concrete Durability Incorporating Recycled Glass , 2023, Sustainability.
[7] S. Maiti,et al. Investigation of agro-forestry and construction demolition wastes in alkali-activated fly ash bricks as sustainable building materials. , 2023, Waste management.
[8] Se-Jin Choi,et al. Mechanical Properties of Cement Mortar Containing Ground Waste Newspaper as Cementitious Material , 2023, Materials.
[9] Ahmed M. Tahwia,et al. Development and characterization of sustainable concrete incorporating a high volume of industrial waste materials , 2023, Construction and Building Materials.
[10] J. Šrámek,et al. The Influence of Recycled Materials on Cold Mix with Foamed Bitumen Properties , 2023, Materials.
[11] S. M. Hama,et al. Structural behavior of reinforced concrete incorporating glass waste as coarse aggregate , 2023, Journal of Structural Integrity and Maintenance.
[12] Baoshan Huang,et al. Influence of size effect on the properties of slag and waste glass-based geopolymer paste , 2023, Journal of Cleaner Production.
[13] Gamze Bilgen,et al. Sustainable re-use of waste glass, cement and lime treated dredged material as pavement material , 2023, Case Studies in Construction Materials.
[14] T. Gawenda,et al. Low-Energy Clay–Cement Slurries Find Application as Waterproofing Membranes for Limiting the Migration of Contaminants—Case Studies in Poland , 2022, Energies.
[15] P. Izak,et al. Use of Post-Flotation Solidified Tailings from Copper Production for Ceramic Tile Production , 2022, Materials.
[16] O. Gencel,et al. Assessment of Mineralogical Characteristics of Clays and the Effect of Waste Materials on Their Index Properties for the Production of Bricks , 2022, Materials.
[17] T. Gawenda,et al. Effect of Granite Powder Grain Size and Grinding Time of the Properties of Cementitious Composites , 2022, Materials.
[18] P. Aziz,et al. Mechanical Properties and Flexural Strength of Reinforced Concrete Beams Containing Waste Material as Partial Replacement for Coarse Aggregates , 2022, International Journal of Concrete Structures and Materials.
[19] Chunbo Zhang,et al. Life cycle assessment of material footprint in recycling: A case of concrete recycling. , 2022, Waste management.
[20] Lilliana Abarca-Guerrero,et al. Zero Waste Systems: Barriers and Measures to Recycling of Construction and Demolition Waste , 2022, Sustainability.
[21] Syed Safdar Raza,et al. Enhancing the Performance of Recycled Aggregate Concrete Using Micro-Carbon Fiber and Secondary Binding Material , 2022, Sustainability.
[22] S. M. Binesh,et al. Application of recycled concrete aggregates for stabilization of clay reinforced with recycled tire polymer fibers and glass fibers , 2022, Construction and Building Materials.
[23] R. Fediuk,et al. Recycling of Cement Industry Waste for Alkali-Activated Materials Production , 2022, Materials.
[24] M. Petrou,et al. Development of a High Strength Geopolymer Incorporating Quarry Waste Diabase Mud (DM) and Ground Granulated Blast-Furnace Slag (GGBS) , 2022, Materials.
[25] S. Chaiyaput,et al. Utilization of Waste Dust from Asphalt Concrete Manufacturing as a Sustainable Subbase Course Material in Pavement Structures , 2022, Sustainability.
[26] N. Vatin,et al. Development of Environmentally Clean Construction Materials Using Industrial Waste , 2022, Materials.
[27] Muhammad Bilal,et al. Exploration of solid waste materials for sustainable manufacturing of cementitious composites , 2022, Environmental Science and Pollution Research.
[28] S. Pfister,et al. Mine waste as a sustainable resource for facing bricks , 2022, Journal of Cleaner Production.
[29] D. Buddhi,et al. Comparative Analysis of Waste Materials for Their Potential Utilization in Green Concrete Applications , 2022, Materials.
[30] N. Baldo,et al. Foamed Bitumen Mixtures for Road Construction Made with 100% Waste Materials: A Laboratory Study , 2022, Sustainability.
[31] V. V.,et al. Potential utilization of waste glass powder as a precursor material in synthesizing ecofriendly ternary blended geopolymer matrix , 2022, Journal of Cleaner Production.
[32] Rajesh Deoliya,et al. Recycled cement and recycled fine aggregates as alternative resources of raw materials for sustainable cellular light weight flowable material , 2022, Construction and Building Materials.
[33] F. Salah,et al. Development of fibrous materials applied in timber-framed construction using recycled fibers from textile waste , 2022, Journal of Cleaner Production.
[34] A. Briga-Sá,et al. Thermal performance characterization of cement-based lightweight blocks incorporating textile waste , 2022, Construction and Building Materials.
[35] A. Behnood,et al. Experimental investigation of stone matrix asphalt mixtures containing steel slag , 2012 .