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International Journal of Sustainable Engineering Volume 3, 2010 - Issue 3
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Original Articles

Properties of alkali-activated fly ash: high performance to lightweight

Robert Brooks Department of Civil and Environmental Engineering, Temple University, Philadelphia, PA, 19122, USACorrespondence[email protected]
,
Mozhgan Bahadory Resource Engine, Bala Cynwyd, PA, 19004, USAView further author information
,
Fernando Tovia Department of Science and Health, Philadelphia University, Philadelphia, PA, 19144, USAView further author information
&
Hossein Rostami Department of Science and Health, Philadelphia University, Philadelphia, PA, 19144, USAView further author information
Pages 211-218 | Received 08 Dec 2009, Accepted 16 Apr 2010, Published online: 14 Jul 2010

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Salmabanu Luhar, Ismail Luhar & Rishi Gupta. (2022) Durability performance evaluation of green geopolymer concrete. European Journal of Environmental and Civil Engineering 26:10, pages 4297-4345.
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Articles from other publishers (42)

Yongxiang Qiu, Qingxin Zhao, Huimin Pan & Weichao Guo. (2023) Freeze-thaw resistance performance of alkaline residue-blast slag based low carbon binder material: Supplementary study. Construction and Building Materials 409, pages 133950.
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Morteza Nikravan, Rafia Firdous & Dietmar Stephan. (2023) Life cycle assessment of alkali-activated materials: a systematic literature review. Low-carbon Materials and Green Construction 1:1.
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Mo Zhang, Chen Zhang, Junfei Zhang, Ling Wang & Fang Wang. (2023) Effect of composition and curing on alkali activated fly ash-slag binders: Machine learning prediction with a random forest-genetic algorithm hybrid model. Construction and Building Materials 366, pages 129940.
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Priyanka Pradhan, Saswat Dwibedy, Monalin Pradhan, Soumyaranjan Panda & Saubhagya Kumar Panigrahi. (2022) Durability characteristics of geopolymer concrete - Progress and perspectives. Journal of Building Engineering 59, pages 105100.
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Madina Salamanova, Sayd-Alvi Murtazaev, Magomed Saidumov, Arbi Alaskhanov, Tamara Murtazaeva & Roman Fediuk. (2022) Recycling of Cement Industry Waste for Alkali-Activated Materials Production. Materials 15:19, pages 6660.
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Magomed Mintsaev, Sayd-Alvi Murtazaev, Madina Salamanova, Dena Bataev, Magomed Saidumov, Imran Murtazaev & Roman Fediuk. (2022) Structural Formation of Alkali-Activated Materials Based on Thermally Treated Marl and Na2SiO3. Materials 15:19, pages 6576.
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Ismail Luhar & Salmabanu Luhar. (2022) A Comprehensive Review on Fly Ash-Based Geopolymer. Journal of Composites Science 6:8, pages 219.
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Faping Li, Defeng Chen, Yiyan Lu, Haojun Zhang & Shan Li. (2022) Influence of mixed fibers on fly ash based geopolymer resistance against freeze-thaw cycles. Journal of Non-Crystalline Solids 584, pages 121517.
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Ayad A. H. Faisal, Dooraid N. Ahmed, B. Saleh, Asif Afzal & Gaurav Sharma. (2021) Elimination of Hazard Cadmium Ions from Simulated Groundwater Using Hydroxyapatite Coated Filter Cake Made of Sewage Sludge and Cement Kiln Dust. Journal of Polymers and the Environment 30:4, pages 1478-1490.
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Luca Tefa, Marco Bassani, Bartolomeo Coppola & Paola Palmero. (2022) Effect of Degradation on Mechanical Strengths of Alkali-Activated Fines in Stabilized Construction and Demolition Waste Aggregates. Journal of Materials in Civil Engineering 34:2.
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Şinasi BİNGÖL, Cahit BİLİM, Cengiz ATİŞ & Uğur DURAK. (2022) Freeze-thaw resistance of blast furnace slag alkali activated mortars. Turkish Journal of Engineering 6:1, pages 63-66.
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Mehmet Burhan Karakoç & Ahmet Özcan. 2022. Handbook of Advances in Alkali-Activated Concrete. Handbook of Advances in Alkali-Activated Concrete 471 487 .
Piyathida Yoosuk, Cherdsak Suksiripattanapong, Piti Sukontasukkul & Prinya Chindaprasirt. (2021) Properties of polypropylene fiber reinforced cellular lightweight high calcium fly ash geopolymer mortar. Case Studies in Construction Materials 15, pages e00730.
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Mugahed Amran, Amin Al-Fakih, S.H. Chu, Roman Fediuk, Sani Haruna, Afonso Azevedo & Nikolai Vatin. (2021) Long-term durability properties of geopolymer concrete: An in-depth review. Case Studies in Construction Materials 15, pages e00661.
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Mugahed Amran, Solomon Debbarma & Togay Ozbakkaloglu. (2021) Fly ash-based eco-friendly geopolymer concrete: A critical review of the long-term durability properties. Construction and Building Materials 270, pages 121857.
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Vlastimil Bilek, Oldrich Sucharda & David Bujdos. (2021) Frost Resistance of Alkali-Activated Concrete—An Important Pillar of Their Sustainability. Sustainability 13:2, pages 473.
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Rupali B. Kejkar & Swapnil P. Wanjari. (2021) Feasibility study of commercially viable sustainable aerated geopolymeric foam based block. Materials Today: Proceedings 45, pages 4398-4404.
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Andrzej Cwirzen. 2021. Carbon Nanotubes and Carbon Nanofibers in Concrete-Advantages and Potential Risks. Carbon Nanotubes and Carbon Nanofibers in Concrete-Advantages and Potential Risks 313 333 .
Wan Mastura Wan Ibrahim, Mohd Mustafa Al Bakri Abdullah, Kamarudin Hussin, Aeslina Abdul Kadir & Romisuhani Ahmad. 2021. Sustainable Waste Utilization in Bricks, Concrete, and Cementitious Materials. Sustainable Waste Utilization in Bricks, Concrete, and Cementitious Materials 25 50 .
David Castañeda, Guido Silva, Jorge Salirrosas, Suyeon Kim, Bruno Bertolotti, Javier Nakamatsu & Rafael Aguilar. (2020) Production of a lightweight masonry block using alkaline activated natural pozzolana and natural fibers. Construction and Building Materials 253, pages 119143.
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Yuan Yuan, Renda Zhao, Rui Li, Yongbao Wang, Zhengqing Cheng, Fuhai Li & Zhongguo John Ma. (2020) Frost resistance of fiber-reinforced blended slag and Class F fly ash-based geopolymer concrete under the coupling effect of freeze-thaw cycling and axial compressive loading. Construction and Building Materials 250, pages 118831.
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Cherdsak Suksiripattanapong, Kitsada Krosoongnern, Jaksada Thumrongvut, Piti Sukontasukkul, Suksun Horpibulsuk & Prinya Chindaprasirt. (2020) Properties of cellular lightweight high calcium bottom ash-portland cement geopolymer mortar. Case Studies in Construction Materials 12, pages e00337.
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Ali Allahverdi & Mostafa Mahinroosta. 2020. Encyclopedia of Renewable and Sustainable Materials. Encyclopedia of Renewable and Sustainable Materials 490 507 .
Renda Zhao, Yuan Yuan, Zhengqing Cheng, Tian Wen, Jian Li, Fuhai Li & Zhongguo John Ma. (2019) Freeze-thaw resistance of Class F fly ash-based geopolymer concrete. Construction and Building Materials 222, pages 474-483.
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Dong Dao, Son Trinh, Hai-Bang Ly & Binh Pham. (2019) Prediction of Compressive Strength of Geopolymer Concrete Using Entirely Steel Slag Aggregates: Novel Hybrid Artificial Intelligence Approaches. Applied Sciences 9:6, pages 1113.
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E. Muthu Kumar & K. Ramamurthy. (2017) Influence of production on the strength, density and water absorption of aerated geopolymer paste and mortar using Class F fly ash. Construction and Building Materials 156, pages 1137-1149.
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F.Nurhayat Degirmenci. (2017) FREEZE-THAW AND FIRE RESISTANCE OF GEOPOLYMER MORTAR BASED ON NATURAL AND WASTE POZZOLANS. Ceramics - Silikaty, pages 41-49.
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J. Aliques-Granero, T. M. Tognonvi & A. Tagnit-Hamou. (2016) Durability test methods and their application to AAMs: case of sulfuric-acid resistance. Materials and Structures 50:1.
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E. Papa, V. Medri, D. Kpogbemabou, V. Morinière, J. Laumonier, A. Vaccari & S. Rossignol. (2016) Porosity and insulating properties of silica-fume based foams. Energy and Buildings 131, pages 223-232.
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Xiao Yu Zhuang, Liang Chen, Sridhar Komarneni, Chun Hui Zhou, Dong Shen Tong, Hui Min Yang, Wei Hua Yu & Hao Wang. (2016) Fly ash-based geopolymer: clean production, properties and applications. Journal of Cleaner Production 125, pages 253-267.
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M.B. Mohd Salahuddin, M. Norkhairunnisa & F. Mustapha. (2015) A review on thermophysical evaluation of alkali-activated geopolymers. Ceramics International 41:3, pages 4273-4281.
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Jay G. Sanjayan, Ali Nazari, Lei Chen & Giang Hoang Nguyen. (2015) Physical and mechanical properties of lightweight aerated geopolymer. Construction and Building Materials 79, pages 236-244.
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K.J.D. MacKenzie. 2015. Handbook of Alkali-Activated Cements, Mortars and Concretes. Handbook of Alkali-Activated Cements, Mortars and Concretes 777 805 .
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K.J.D. Mackenzie & M. Welter. 2014. Advances in Ceramic Matrix Composites. Advances in Ceramic Matrix Composites 445 470 .
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F. Pacheco-Torgal, Z. Abdollahnejad, A.F. Camões, M. Jamshidi & Y. Ding. (2012) Durability of alkali-activated binders: A clear advantage over Portland cement or an unproven issue?. Construction and Building Materials 30, pages 400-405.
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