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Compressive Strength Properties of Geopolymers from Pond Ash and Possibility of Utilization as Synthetic Basalt
Byoungkwan Kim, Bokyeong Lee, Chul-Min Chon, Sujeong Lee
J. Korean Ceram. Soc.. 2019;56(4):365-373.   Published online 2019 July 25    DOI: https://doi.org/10.4191/kcers.2019.56.4.03

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Compressive Strength Properties of Geopolymers from Pond Ash and Possibility of Utilization as Synthetic Basalt
Journal of the Korean Ceramic Society. 2019;56(4):365-373   Crossref logo
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RETRACTED: The effects of nanoparticles on early age compressive strength of ash-based geopolymers
Ceramics International. 2012;38(6):4467-4476   Crossref logo
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Effects of Activators on Compressive Strength of Fly Ash-Based Geopolymers
Advanced Materials Research. 2011;197-198:830-836   Crossref logo
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RETRACTED ARTICLE: Predicting the effects of nanoparticles on compressive strength of ash-based geopolymers by gene expression programming
Neural Computing and Applications. 2012;23(6):1677-1685   Crossref logo
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Benefits of Sealed-Curing on Compressive Strength of Fly Ash-Based Geopolymers
Materials. 2016;9(7):598   Crossref logo
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Retraction notice to “The effects of nanoparticles on early age compressive strength of ash-based geopolymers” [Ceramics International (2012) 4467–4476]
Ceramics International. 2021;47(8):11825   Crossref logo
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Effects of Microwave Energy on Fast Compressive Strength Development of Coal Bottom Ash-Based Geopolymers
Scientific Reports. 2019;9(1):   Crossref logo
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Effect of Silica to Alumina Ratio on the Compressive Strength of Class C Fly Ash-Based Geopolymers
Key Engineering Materials. 2015;659:80-84   Crossref logo
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Optimization of compressive strength of fly ash-based geopolymers using central composite design
Bulletin of Materials Science. 2021;44(2):   Crossref logo
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Compressive strength of ash-based geopolymers at early ages designed by Taguchi method
Materials & Design. 2012;37:443-449   Crossref logo
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