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S. Mateo, M. Cuevas, M. D. La Rubia & D. Eliche-Quesada. (2017) Preliminary study of the use of spent diatomaceous earth from the brewing industry in clay matrix bricks. Advances in Applied Ceramics 116:2, pages 77-84.
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W. Acchar, K. A. Avelino & A. M. Segadães. (2016) Granite waste and coffee husk ash synergistic effect on clay-based ceramics. Advances in Applied Ceramics 115:4, pages 236-242.
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Mst. Shanjida Sultana, Aninda Nafis Ahmed, Mohammad Nazim Zaman, Md. Aminur Rahman, Pradip Kumar Biswas & Pranab Kumar Nandy. (2015) Utilization of hard rock dust with red clay to produce roof tiles. Journal of Asian Ceramic Societies 3:1, pages 22-26.
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W. Acchar, J. E. Silva & A. M. Segadães. (2013) Increased added value reuse of construction waste in clay based building ceramics. Advances in Applied Ceramics 112:8, pages 487-493.
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S R H Mello-Castanho, M C Ferreira, W Acchar & A M Segadães. (2011) Assessment of reuse potential of high alumina industrial waste as devitrification aid in common alumina–lime–silica glasses. Advances in Applied Ceramics 110:7, pages 426-432.
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E Bernardo, L Esposito, E Rambaldi & A Tucci. (2011) Sintered glass ceramic articles from plasma vitrified asbestos containing waste. Advances in Applied Ceramics 110:6, pages 346-352.
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A. Karamanov. (2009) Granite like materials from hazardous wastes obtained by sintercrystallisation of glass frits. Advances in Applied Ceramics 108:1, pages 14-21.
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E. Bou, M. F. Quereda, D. Lever, A. R. Boccaccini & C. R. Cheeseman. (2009) Production of pulverised fuel ash tiles using conventional ceramic production processes. Advances in Applied Ceramics 108:1, pages 44-49.
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Y. Pontikes & G. N. Angelopoulos. (2009) Effect of firing atmosphere and soaking time on heavy clay ceramics with addition of Bayer's process bauxite residue. Advances in Applied Ceramics 108:1, pages 50-56.
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K. C. Vasilopoulos, D. U. Tulyaganov, S. Agathopoulos, M. A. Karakassides, M. Ribeiro, J. M. F. Ferreira & D. Tsipas. (2009) Vitrification of low silica fly ash: suitability of resulting glass ceramics for architectural or electrical insulator applications. Advances in Applied Ceramics 108:1, pages 27-32.
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Articles from other publishers (49)
Jingcen Zhang, Zhi Guo, Yazheng Zhu, Haifeng Zhang, Mengjie Yan, Dong Liu & Junjie Hao. (2024) Preparation and characterization of novel low-cost sensible heat storage materials with steel slag. Journal of Energy Storage 76, pages 109643.
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Crossref
Dilshat U. Tulyaganov, Konstantinos Dimitriadis, Simeon Agathopoulos & Hugo R. Fernandes. (2023) Glasses and glass-ceramics in the CaO–MgO–SiO2 system: Diopside containing compositions - A brief review. Journal of Non-Crystalline Solids 612, pages 122351.
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Blasius Ngayakamo, Abdulhakeem Bello & Azikiwe Peter Onwualu. (2022) Valorization of granite waste powder as a secondary flux material for sustainable production of ceramic tiles. Cleaner Materials 4, pages 100055.
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Biljana Angjusheva, Vilma Ducman & Emilija Fidanchevski. (2022) The effect of the addition of construction & demolition waste on the properties of clay-based ceramics. Science of Sintering 54:3, pages 359-371.
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N.M. Khalil & Yousif Algamal. (2021) Extraction of barium oxide nanoparticles from petroleum waste sludge wastes. Main Group Chemistry 20:4, pages 539-545.
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Pedro A.S. Araújo, Rivaildo M. Andrade, Allan J.M. Araújo, Rafael A. Raimundo, João P.F. Grilo, Ricardo P.S. Dutra, Daniel A. Macedo & Rubens M. Nascimento. (2021) Cordierite-based ceramics with coffee husk ash addition: I –microstructure and physical properties. Journal of Materials Research and Technology 15, pages 2471-2483.
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Chiara Zanelli, Sonia Conte, Chiara Molinari, Roberto Soldati & Michele Dondi. (2021) Waste recycling in ceramic tiles: a technological outlook. Resources, Conservation and Recycling 168, pages 105289.
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Nilofar Asim, Marzieh Badiei, Mohammad Torkashvand, Masita Mohammad, Mohammad A. Alghoul, Shawkat S. Gasaymeh & Kamaruzzaman Sopian. (2021) Wastes from the petroleum industries as sustainable resource materials in construction sectors: Opportunities, limitations, and directions. Journal of Cleaner Production 284, pages 125459.
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N.M. Khalil & Yousif Algamal. (2021) Utilization of petroleum sludge wastes for increasing productivity of ordinary portland cement. Main Group Chemistry 19:4, pages 315-328.
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Sanrı Karapınar Işil & Biricik Hasan. (2021) Assessment of Reusing Ferrochrome Slag Wastes in Mortar as SCMs. Journal of Wuhan University of Technology-Mater. Sci. Ed. 35:6, pages 1043-1052.
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Jenny Andrea García Barrero, Mery Carolina Pazos Zarama, Javier Ramiro Chaparro Barajas, Deisy Alejandra Fonseca Martínez, Esperanza Pavón González & María Dolores Alba Carranza. (2020) Síntesis De Zβ A Partir de Cenizas Volantes, Utilizadas En Liberación Controlada De Nitratos. Ciencia en Desarrollo 11:2, pages 159-175.
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Wanna C. Fontes, José M. Franco de Carvalho, Luana C.R. Andrade, Ana M. Segadães & Ricardo A.F. Peixoto. (2019) Assessment of the use potential of iron ore tailings in the manufacture of ceramic tiles: From tailings-dams to “brown porcelain”. Construction and Building Materials 206, pages 111-121.
Crossref
Crossref
J. N. F. Holanda. 2019. Handbook of Ecomaterials. Handbook of Ecomaterials
2371
2388
.
Mst. Shanjida Sultana, Aninda Nafis Ahmed, Mohammad Nazim Zaman & Md. Aminur Rahman. (2018) Utilization of Hard Rock Dust in Ceramic Glaze Formulation. IOP Conference Series: Materials Science and Engineering 438, pages 012018.
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Antonio S. Araujo, Ana C.F. Coriolano, Rafaely A.F. Bandeira & Regina C.O.B. Delgado. (2018) Preparation and Compressive Strength Evaluation of Concrete Containing Oil Sludge as Additive. Materials Science Forum 930, pages 148-152.
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Lara Rodrigues & José De Holanda. (2018) Valorization of Municipal Waterworks Sludge to Produce Ceramic Floor Tiles. Recycling 3:1, pages 10.
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Crossref
D. Eliche-QuesadaM. A. Felipe-SeséS. Martínez-MartínezL. Pérez-Villarejo. (2017) Comparative Study of the Use of Different Biomass Bottom Ash in the Manufacture of Ceramic Bricks. Journal of Materials in Civil Engineering 29:12.
Crossref
Crossref
A.N. Adazabra, G. Viruthagiri & P. Kannan. (2017) Influence of spent shea waste addition on the technological properties of fired clay bricks. Journal of Building Engineering 11, pages 166-177.
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Crossref
D. Eliche-Quesada, M.A. Felipe-Sesé, A.J. Moreno-Molina, F. Franco & A. Infantes-Molina. (2017) Investigation of using bottom or fly pine-olive pruning ash to produce environmental friendly ceramic materials. Applied Clay Science 135, pages 333-346.
Crossref
Crossref
Lisiane N.L. Santana, Josileido Gomes, Romualdo R. Menezes, Gelmires A. Neves, Helio L. Lira & Ana M. Segadães. (2017) Microstructure development in clays upon heat treatment: Kinetics and equilibrium. Applied Clay Science 135, pages 325-332.
Crossref
Crossref
J. N. F. Holanda. 2017. Handbook of Ecomaterials. Handbook of Ecomaterials
1
18
.
Abdel Monem Mohamed Soltan, Katharina Pöhler, Florian Fuchs, Fawzia Abd EL-Raoof, Baher Abdel-Hamid El-Kaliouby, Andreas Koenig & Herbert Pöllmann. (2016) Clay-bricks from recycled rock tailings. Ceramics International 42:15, pages 16685-16696.
Crossref
Crossref
Sérgio G. Echeverrigaray, José V. Emiliano, Ana M. Segadães & Robinson C.D. Cruz. (2016) Low-valued raw materials challenge the common eligibility criteria for triaxial ceramics. Ceramics International 42:9, pages 10671-10681.
Crossref
Crossref
Aaron N. Adazabra, G. Viruthagiri & R. Ravisankar. (2016) Cleaner production in the Shea industry via the recovery of Spent Shea Waste for reuse in the construction sector. Journal of Cleaner Production 122, pages 335-344.
Crossref
Crossref
M. Coronado, A. Andrés & C.R. Cheeseman. (2016) Acid gas emissions from structural clay products containing secondary resources: foundry sand dust and Waelz slag. Journal of Cleaner Production 115, pages 191-202.
Crossref
Crossref
Soudeh Salehi, Oskar Hasdinor Hassan & Rusmadiah Anwar. 2016. Proceedings of the 2nd International Colloquium of Art and Design Education Research (i-CADER 2015). Proceedings of the 2nd International Colloquium of Art and Design Education Research (i-CADER 2015)
131
143
.
M. Coronado, A.M. Segadães & A. Andrés. (2015) Using mixture design of experiments to assess the environmental impact of clay-based structural ceramics containing foundry wastes. Journal of Hazardous Materials 299, pages 529-539.
Crossref
Crossref
D. Eliche-Quesada, R. Azevedo-Da Cunha & F.A. Corpas-Iglesias. (2015) Effect of sludge from oil refining industry or sludge from pomace oil extraction industry addition to clay ceramics. Applied Clay Science 114, pages 202-211.
Crossref
Crossref
M. Coronado, T. Blanco, N. Quijorna, R. Alonso-Santurde & A. Andrés. 2015. Eco-Efficient Masonry Bricks and Blocks. Eco-Efficient Masonry Bricks and Blocks
129
188
.
Wilson Acchar & Eduardo J. V. DultraWilson Acchar & Eduardo J. V. Dultra. 2015. Ceramic Materials from Coffee Bagasse Ash Waste. Ceramic Materials from Coffee Bagasse Ash Waste
79
91
.
Wilson Acchar & Eduardo J. V. DultraWilson Acchar & Eduardo J. V. Dultra. 2015. Ceramic Materials from Coffee Bagasse Ash Waste. Ceramic Materials from Coffee Bagasse Ash Waste
53
58
.
Wilson Acchar & Eduardo J. V. DultraWilson Acchar & Eduardo J. V. Dultra. 2015. Ceramic Materials from Coffee Bagasse Ash Waste. Ceramic Materials from Coffee Bagasse Ash Waste
17
21
.
D. Eliche-Quesada & F.A. Corpas-Iglesias. (2014) Utilisation of spent filtration earth or spent bleaching earth from the oil refinery industry in clay products. Ceramics International 40:10, pages 16677-16687.
Crossref
Crossref
M. Coronado, A.M. Segadães & A. Andrés. (2014) Combining mixture design of experiments with phase diagrams in the evaluation of structural ceramics containing foundry by-products. Applied Clay Science 101, pages 390-400.
Crossref
Crossref
Mucahit Sutcu, Juan José del Coz Díaz, Felipe Pedro Álvarez Rabanal, Osman Gencel & Sedat Akkurt. (2014) Thermal performance optimization of hollow clay bricks made up of paper waste. Energy and Buildings 75, pages 96-108.
Crossref
Crossref
L.N.L. Santana, J. Gomes, G.A. Neves, H.L. Lira, R.R. Menezes & A.M. Segadães. (2014) Mullite formation from bentonites containing kaolinite: Effect of composition and synthesis parameters. Applied Clay Science 87, pages 28-33.
Crossref
Crossref
Marcelo Dal Bó & Dachamir Hotza. (2013) Using Recycled Ceramics to make new Triaxial Ceramics. Refractories and Industrial Ceramics 54:3, pages 243-250.
Crossref
Crossref
W. Acchar, E.J.V. Dultra & A.M. Segadães. (2013) Untreated coffee husk ashes used as flux in ceramic tiles. Applied Clay Science 75-76, pages 141-147.
Crossref
Crossref
G.U. Adie & O. Osibanjo. (2013) Reusability of Slag from Automobile Battery Manufacturing in Fired Clay Building Bricks: A Waste-to-Wealth Initiative. The Journal of Solid Waste Technology and Management 39:1, pages 35-42.
Crossref
Crossref
J.A. Junkes, P.B. Prates, D. Hotza & A.M. Segadães. (2012) Combining mineral and clay-based wastes to produce porcelain-like ceramics: An exploratory study. Applied Clay Science 69, pages 50-57.
Crossref
Crossref
D. Eliche-Quesada, F.A. Corpas-Iglesias, L. Pérez-Villarejo & F.J. Iglesias-Godino. (2012) Recycling of sawdust, spent earth from oil filtration, compost and marble residues for brick manufacturing. Construction and Building Materials 34, pages 275-284.
Crossref
Crossref
A. J. Souza, B. C. A. Pinheiro & J. N. F. Holanda. (2011) Valorization of Solid Petroleum Waste as a Potential Raw Material for Clay-Based Ceramics. Waste and Biomass Valorization 2:4, pages 381-388.
Crossref
Crossref
A.J. Souza, B.C.A. Pinheiro & J.N.F. Holanda. (2010) Processing of floor tiles bearing ornamental rock-cutting waste. Journal of Materials Processing Technology 210:14, pages 1898-1904.
Crossref
Crossref
A.J. Souza, B.C.A. Pinheiro & J.N.F. Holanda. (2010) Recycling of gneiss rock waste in the manufacture of vitrified floor tiles. Journal of Environmental Management 91:3, pages 685-689.
Crossref
Crossref
J. P. V. T. Manhães, J. M. S. Moreira & J. N. F. Holanda. (2009) Variação microestrutural de cerâmica vermelha incorporada com resíduo de rocha ornamental. Cerâmica 55:336, pages 371-378.
Crossref
Crossref
S.L. Correia, F.L. Souza, G. Dienstmann & A.M. Segadães. (2009) Assessment of the recycling potential of fresh concrete waste using a factorial design of experiments. Waste Management 29:11, pages 2886-2891.
Crossref
Crossref
Romualdo Rodrigues Menezes, Maria Isabel Brasileiro, Wherllyson Patricio Gonçalves, Lisiane Navarro de Lima Santana, Gelmires Araújo Neves, Heber Sivini Ferreira & Heber Carlos Ferreira. (2009) Statistical design for recycling kaolin processing waste in the manufacturing of mullite-based ceramics. Materials Research 12:2, pages 201-209.
Crossref
Crossref
Sivaldo L. Correia, Gracieli Dienstmann, Marilena V. Folgueras & Ana M. Segadaes. (2009) Effect of quartz sand replacement by agate rejects in triaxial porcelain. Journal of Hazardous Materials 163:1, pages 315-322.
Crossref
Crossref
R.R. Menezes, H.G. Malzac Neto, L.N.L. Santana, H.L. Lira, H.S. Ferreira & G.A. Neves. (2008) Optimization of wastes content in ceramic tiles using statistical design of mixture experiments. Journal of the European Ceramic Society 28:16, pages 3027-3039.
Crossref
Crossref