Bloating Mechanism of Lightweight Aggregate with the Size
Ki Gang Lee
J. Korean Ceram. Soc. 2016;53(2):241-245.   Published online 2016 Mar 31     DOI: https://doi.org/10.4191/kcers.2016.53.2.241
Citations to this article as recorded by Crossref logo
Feasibility Study of Expanded Clay Aggregate Lightweight Concrete for Nonstructural Applications
Shayan Ali Khan, Fazal Hussain, Rao Arsalan Khushnood, Hassan Amjad, Farhan Ahmad, Adewumi Babafemi
Advances in Civil Engineering.2024; 2024: 1.     CrossRef
Synthesis and characterization of bentonite-based lightweight ceramic aggregates using coal combustion residue and kerosene bloating agent
Fazal Hussain, Ahmed Omran, Nancy Soliman
Construction and Building Materials.2024; 425: 135916.     CrossRef
Clays to lightweight aggregates: Thermochemical modeling and industrial validation
Noha Abdel-Kader, Fawzia Abd EL-Raoof, Ahmed Sharaf-Eldin, Ayat Elmasry, Ahmed Yahya, Gerhard Zacher, Bastian Raab, AbdelMonem Soltan
Construction and Building Materials.2024; 432: 136580.     CrossRef
A scientometric review of the synthesis and application of expanded clay aggregate in cementitious composites
Shayan Ali Khan, Fazal Hussain, Hassan Amjad, Rao Arsalan Khushnood
Construction and Building Materials.2024; 437: 136654.     CrossRef
Effect of the addition of organic wastes (cork powder, nut shell, coffee grounds and paper sludge) in clays to obtain expanded lightweight aggregates
Carlos Javier Cobo-Ceacero, José Manuel Moreno-Maroto, Marta Guerrero-Martínez, Manuel Uceda-Rodríguez, Ana B. López, Carmen Martínez García, Teresa Cotes-Palomino
Boletín de la Sociedad Española de Cerámica y Vidrio.2023; 62(1): 88.     CrossRef
Study of physical and mechanical behavior of artificial lightweight aggregate made of Pakistani clays
Fazal Hussain, Fazal Rehman, Rao Arsalan Khushnood, Shayan Ali Khan, Ameer Hamza
Construction and Building Materials.2023; 378: 131103.     CrossRef
Manufacture of artificial lightweight aggregates recycled from anaerobic digested sewage sludge and process optimization by machine learning modeling techniques
Young Min Wie, Kang Hyuck Lee, Ki Gang Lee, Jaehyeoung Park, Taehoon Ko, Kang Hoon Lee
Construction and Building Materials.2023; 399: 132502.     CrossRef
Analyzing the Role of Fe0 and Fe3+ in the Formation of Expanded Clay Aggregates
José Manuel Moreno-Maroto, Beatriz González-Corrochano, Ana M. Martínez-Rodríguez, Antonio Conde-Sánchez, Carlos Javier Cobo-Ceacero, Jacinto Alonso-Azcárate, Manuel Uceda-Rodríguez, Ana B. López, Carmen Martínez-García, Teresa Cotes-Palomino
Materials.2023; 16(16): 5623.     CrossRef
Study of the synergistic impact of Fe3O4, Na2CO3 and organic C on kaolin-based lightweight aggregates by a DOE (Mixture Experiments) approach
José Manuel Moreno-Maroto, Carlos Javier Cobo-Ceacero, Ana M. Martínez-Rodríguez, Antonio Conde-Sánchez, Beatriz González-Corrochano, Jacinto Alonso-Azcárate, Manuel Uceda-Rodríguez, Ana B. López, Carmen Martínez-García, Teresa Cotes-Palomino
Construction and Building Materials.2023; 403: 133152.     CrossRef
Assessment of the mineral phase and properties of clay-Ca bentonite lightweight aggregates
Mohamed Mostafa Abdelfattah, Róbert Géber, Noha Ali Abdel-Kader, István Kocserha
Arabian Journal of Geosciences.2022;[Epub]     CrossRef
A Study on the Potential Use of Red Clay and Fly Ash in the Production of Lightweight Expanded Clay Aggregates for Concrete
Jay Gandhi, S. K. Chaudhury
Journal of Materials in Civil Engineering.2022;[Epub]     CrossRef
Use of bauxite tailing for the production of fine lightweight aggregates
Li Yang, Jianhui Liu, Xianwei Ma, Xiang Hu, Zemei Wu, Caijun Shi
Journal of Cleaner Production.2022; 372: 133603.     CrossRef
Thermochemical principles of the production of lightweight aggregates from waste coal bottom ash
Mohammad Balapour, Rathin Rao, Edward J. Garboczi, Sabrina Spatari, Y. Grace Hsuan, Pieter Billen, Yaghoob Farnam
Journal of the American Ceramic Society.2021; 104(1): 613.     CrossRef
Manufacturing and application of artificial lightweight aggregate from water treatment sludge
Kang Hoon Lee, Ki Gang Lee, Yong Soo Lee, Young Min Wie
Journal of Cleaner Production.2021; 307: 127260.     CrossRef
Analysis of the ratio between the plasticity of clay and the expansion capacity by changes in humidity and temperature
J R Cáceres, J R Pineda-Rodríguez, J P Rojas-Suárez
Journal of Physics: Conference Series.2021; 2139(1): 012010.     CrossRef
Kütahya Bölgesi Kırmızı Topraklarından Hızlı Sinterleme Yöntemi İle Hafif Agrega Üretilmesi
Mehmet Uğur TOPRAK, Canan MERCAN
Bilecik Şeyh Edebali Üniversitesi Fen Bilimleri Dergisi.2021; 8(2): 523.     CrossRef
Studying the feasibility of a selection of Southern European ceramic clays for the production of lightweight aggregates
José Manuel Moreno-Maroto, Manuel Uceda-Rodríguez, Carlos Javier Cobo-Ceacero, Teresa Cotes-Palomino, Carmen Martínez-García, Jacinto Alonso-Azcárate
Construction and Building Materials.2020; 237: 117583.     CrossRef
Chemical design of lightweight aggregate to prevent adhesion at bloating activation temperature
Young Min Wie, Ki Gang Lee, Kang Hoon Lee
Journal of Asian Ceramic Societies.2020; 8(2): 245.     CrossRef
Composition design of the optimum bloating activation condition for artificial lightweight aggregate using coal ash
Young Min Wie, Ki Gang Lee
Journal of the Korean Ceramic Society.2020; 57(2): 220.     CrossRef
Unraveling the expansion mechanism in lightweight aggregates: Demonstrating that bloating barely requires gas
José Manuel Moreno-Maroto, Carlos Javier Cobo-Ceacero, Manuel Uceda-Rodríguez, Teresa Cotes-Palomino, Carmen Martínez García, Jacinto Alonso-Azcárate
Construction and Building Materials.2020; 247: 118583.     CrossRef
Physicochemical effect of the aeration rate on bloating characterizations of artificial lightweight aggregate
Young Min Wie, Ki Gang Lee, Kang Hoon Lee
Construction and Building Materials.2020; 256: 119444.     CrossRef
Bloating mechanism in lightweight aggregates: Effect of processing variables and properties of the vitreous phase
Chiara Molinari, Chiara Zanelli, Guia Guarini, Michele Dondi
Construction and Building Materials.2020; 261: 119980.     CrossRef
The Experimental Process Design of Artificial Lightweight Aggregates Using an Orthogonal Array Table and Analysis by Machine Learning
Young Min Wie, Ki Gang Lee, Kang Hyuck Lee, Taehoon Ko, Kang Hoon Lee
Materials.2020; 13(23): 5570.     CrossRef
Optimum Bloating-Activation Zone of Artificial Lightweight Aggregate by Dynamic Parameters
Young Wie, Ki Lee
Materials.2019; 12(2): 267.     CrossRef
Bloating Mechanism of Lightweight Aggregates due to Ramping Rate
Kang Hoon Lee, Jae Hoon Lee, Young Min Wie, Ki Gang Lee
Advances in Materials Science and Engineering.2019; 2019: 1.     CrossRef
Optimum conditions for unit processing of artificial lightweight aggregates using the Taguchi method
Young Min Wie, Ki Gang Lee, Kang Hoon Lee
Journal of Asian Ceramic Societies.2019; 7(3): 331.     CrossRef