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Transactions of the Indian Ceramic Society Volume 73, 2014 - Issue 2: Special Issue of ICS on 77th Annual Session
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Original Articles

Strength Characteristics of Open Air Cured Geopolymer Concrete

G. S. ManjunathaDepartment of Civil EngineeringR. V. College of Engineering, Bangalore, India;Department of Civil Engineering, Gogte Institute of Technology, Belgaum, India
,
RadhakrishnaDepartment of Civil EngineeringR. V. College of Engineering, Bangalore, IndiaCorrespondence[email protected] [email protected]
,
K. VenugopalDepartment of Civil EngineeringR. V. College of Engineering, Bangalore, India;Department of Civil Engineering, SEA College of Engineering, Bangalore, India
&
Sasalatti Vinod MaruthiDepartment of Civil EngineeringR. V. College of Engineering, Bangalore, India;Design Section, Head Quarters, Jodhpur Zone, India
Pages 149-156 | Received 30 Nov 2013, Accepted 07 Feb 2014, Published online: 07 Jul 2014

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Rachit Ghosh, Sunil Kumar Gupta, Anil Kumar & Sanjay Kumar. (2019) Durability and Mechanical Behavior of Fly Ash-GGBFS Geopolymer Concrete Utilizing Bottom Ash as Fine Aggregate. Transactions of the Indian Ceramic Society 78:1, pages 24-33.
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Faiz Uddin Ahmed Shaikh. (2018) Effects of slag content on the residual mechanical properties of ambient air-cured geopolymers exposed to elevated temperatures. Journal of Asian Ceramic Societies 6:4, pages 342-358.
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Bharat Bhushan Jindal, Parveen, Dhirendra Singhal & Ajay Goyal. (2017) Predicting Relationship between Mechanical Properties of Low Calcium Fly Ash-Based Geopolymer Concrete. Transactions of the Indian Ceramic Society 76:4, pages 258-265.
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Articles from other publishers (24)

Balamurali Kanagaraj, Nammalvar Anand, Diana Andrushia & Venkatesh Kodur. (2023) Residual Properties of Geopolymer Concrete for Post-Fire Evaluation of Structures. Materials 16:17, pages 6065.
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V Chanakya Varma, T V Nagaraju, JNSSN Raju, Shaik Subhan Alisha & MSK Chaitanya. (2023) Understanding the potential role of precursor content in the geopolymer concrete strength development. Materials Today: Proceedings.
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N Anuja, P Jeganmurugan, A Sree Rameswari & Mohammed Yasar. (2022) Performance of Lightweight Self Cured Geopolymer Tiles. IOP Conference Series: Earth and Environmental Science 1125:1, pages 012016.
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Balamurali Kanagaraj, N. Anand, R. Samuvel Raj & Eva Lubloy. (2022) Performance evaluation on engineering properties of sodium silicate binder as a precursor material for the development of cement-free concrete. Developments in the Built Environment 12, pages 100092.
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Sagar Paruthi, Asif Husain, Pervez Alam, Afzal Husain Khan, Mohd Abul Hasan & Hassan M. Magbool. (2022) A review on material mix proportion and strength influence parameters of geopolymer concrete: Application of ANN model for GPC strength prediction. Construction and Building Materials 356, pages 129253.
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Jie Mi, Zhongtao Luo, Xiaohai Liu, Meixiang Zhang, Yuandong Mu, Chongfei Tian, Meng Zhang & Jinyang Guo. (2022) For the improvement of toughness and volume stability of alkali-activated slag with styrene-acrylic emulsion. Journal of Building Engineering 58, pages 105040.
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Kiran Kumar Poloju & Kota. Srinivasu. (2022) Influence of GGBS and concentration of sodium hydroxide on strength behavior of geopolymer mortar. Materials Today: Proceedings 65, pages 702-706.
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Jingchong Fan & Bo Zhang. (2021) Repair of ordinary Portland cement concrete using alkali activated slag/fly ash: Freeze-thaw resistance and pore size evolution of adhesive interface. Construction and Building Materials 300, pages 124334.
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Sulaem Musaddiq Laskar & Sudip Talukdar. (2021) Slag-Based Geopolymer Concrete as Reinforced Concrete Jacketing Agent. Journal of Materials in Civil Engineering 33:7.
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Vemundla Ramesh & Koniki Srikanth. (2021) Comparison of Mechanical properties of flyash-GGBS based GPC and flyash-alccofine based GPC with different concentrations of alkaline activators. IOP Conference Series: Materials Science and Engineering 1116:1, pages 012172.
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Vemundla Ramesh & Srikanth Koniki. Comparison of mechanical properties of flyash-GGBS based GPC and flyash-alccofine based GPC with different concentrations of alkaline activators. Comparison of mechanical properties of flyash-GGBS based GPC and flyash-alccofine based GPC with different concentrations of alkaline activators.
Jingchong Fan, Hongguang Zhu, Jing Shi, Zonghui Li & Sen Yang. (2020) Influence of slag content on the bond strength, chloride penetration resistance, and interface phase evolution of concrete repaired with alkali activated slag/fly ash. Construction and Building Materials 263, pages 120639.
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Radhakrishna. (2020) Strength Assessment in Portland Cement and Geopolymer Composites with Abrams’ Law as Basis. Journal of Advanced Concrete Technology 18:6, pages 320-327.
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Daniela Eugenia Angulo-Ramírez, William Gustavo Valencia-Saavedra & Ruby Mejía de Gutiérrez. (2020) Alkali-activated concretes based on fly ash and blast furnace slag: Compressive strength, water absorption and chloride permeability. Ingeniería e Investigación 40:2.
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Navid Ranjbar & Mingzhong Zhang. (2020) Fiber-reinforced geopolymer composites: A review. Cement and Concrete Composites 107, pages 103498.
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Vemundla Ramesh & Dr.Koniki Srikanth. (2020) Mechanical Properties and Mix Design of Geopolymer concrete – A review. E3S Web of Conferences 184, pages 01091.
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Saloni, Abhishek Singh, Vaibhav Sandhu, Jatin & Parveen. (2020) Effects of alccofine and curing conditions on properties of low calcium fly ash-based geopolymer concrete. Materials Today: Proceedings 32, pages 620-625.
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Rohan Jethwani, Mohit Singh Thakur & Satadru Das Adhikary. 2020. Advances in Sustainable Construction Materials and Geotechnical Engineering. Advances in Sustainable Construction Materials and Geotechnical Engineering 1 14 .
Rakesh Kumar, Sanjay Kumar, T. C. Alex & Rashmi Singla. (2018) Mapping of calorimetric response for the geopolymerisation of mechanically activated fly ash. Journal of Thermal Analysis and Calorimetry 136:3, pages 1117-1133.
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Xiao Chen, Mingkai Zhou, Weiguo Shen, Guorui Zhu & Xuexiang Ge. (2018) Mechanical properties and microstructure of metakaolin-based geopolymer compound-modified by polyacrylic emulsion and polypropylene fibers. Construction and Building Materials 190, pages 680-690.
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Parveen, Dhirendra Singhal, M. Talha Junaid, Bharat Bhushan Jindal & Ankur Mehta. (2018) Mechanical and microstructural properties of fly ash based geopolymer concrete incorporating alccofine at ambient curing. Construction and Building Materials 180, pages 298-307.
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Sulaem Musaddiq Laskar & Sudip Talukdar. (2017) Preparation and tests for workability, compressive and bond strength of ultra-fine slag based geopolymer as concrete repairing agent. Construction and Building Materials 154, pages 176-190.
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Gökhan Görhan, Rıdvan Aslaner & Osman Şinik. (2016) The effect of curing on the properties of metakaolin and fly ash-based geopolymer paste. Composites Part B: Engineering 97, pages 329-335.
Crossref
M F Nuruddin, A B Malkawi, A Fauzi, B S Mohammed & H M Almattarneh. (2016) Geopolymer concrete for structural use: Recent findings and limitations. IOP Conference Series: Materials Science and Engineering 133, pages 012021.
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