Crossref Citations
This article has been cited by the following publications. This list is generated based on data provided by
Crossref.
Scorzelli, R. B.
Bertolino, L. C.
Luz, A. B.
Duttine, M.
Silva, F. A. N. G.
and
Munayco, P.
2008.
Spectroscopic studies of kaolin from different Brazilian regions.
Clay Minerals,
Vol. 43,
Issue. 1,
p.
129.
Mussel, W. N.
Murad, E.
Criscuolo, P. S. R.
Pinheiro, P. G.
and
Fabris, J. D.
2008.
Variation of mineralogy during the beneficiation of Capim kaolin from Pará, Brazil.
Clay Minerals,
Vol. 43,
Issue. 3,
p.
381.
Costa, Marcondes Lima da
Sousa, Daniel José Lima
and
Angélica, Rômulo Simões
2009.
The contribution of lateritization processes to the formation of the kaolin deposits from eastern Amazon.
Journal of South American Earth Sciences,
Vol. 27,
Issue. 2-3,
p.
219.
Murad, Enver
and
Fabris, José D
2010.
Kaolin mining and beneficiation: The role of iron.
Journal of Physics: Conference Series,
Vol. 217,
Issue. ,
p.
012066.
Christidis, George E.
2010.
Advances in the characterization of industrial minerals.
p.
341.
Maia, A. A. B.
Angélica, R. S.
and
Neves, R. F.
2011.
Use of industrial kaolin waste from the Brazilian Amazon region for synthesis of zeolite A.
Clay Minerals,
Vol. 46,
Issue. 1,
p.
127.
Santos, E. dos
Scorzelli, R.B.
Bertolino, L.C.
Alves, O.C.
and
Munayco, P.
2012.
Characterization of kaolin from the Capim River region — Brazil.
Applied Clay Science,
Vol. 55,
Issue. ,
p.
164.
Santos, S. C. A. dos
Rocha Junior, C. A. F.
Silva, L. N. da
Angélica, R. S.
and
Neves, R. F.
2013.
Caulins amazônicos: possíveis materiais de referência.
Cerâmica,
Vol. 59,
Issue. 351,
p.
431.
Zhou, Chunyu
Liang, Yujun
Gong, Yansheng
Zhou, Qi
Chen, Yuting
Qiu, Xiumei
Wang, Hongquan
Luo, Wenjun
and
Yan, Chunjie
2014.
Modes of occurrence of Fe in kaolin from Yunnan China.
Ceramics International,
Vol. 40,
Issue. 9,
p.
14579.
Maia, Ana Áurea Barreto
Angélica, Rômulo Simões
de Freitas Neves, Roberto
Pöllmann, Herbert
Straub, Chris
and
Saalwächter, Kay
2014.
Use of 29Si and 27Al MAS NMR to study thermal activation of kaolinites from Brazilian Amazon kaolin wastes.
Applied Clay Science,
Vol. 87,
Issue. ,
p.
189.
Lima, P.E.A.
Angélica, R.S.
and
Neves, R.F.
2014.
Dissolution kinetics of metakaolin in sulfuric acid: Comparison between heterogeneous and homogeneous reaction methods.
Applied Clay Science,
Vol. 88-89,
Issue. ,
p.
159.
Post, J.L.
and
Crawford, S.M.
2014.
Uses of near-infared spectra for the identification of clay minerals.
Applied Clay Science,
Vol. 95,
Issue. ,
p.
383.
Harvey, Colin C.
and
Merino, Enrique
2016.
Hydrochemical factors influencing the crystallinity and composition of kaolins and other silicates, revisited.
Applied Clay Science,
Vol. 131,
Issue. ,
p.
71.
Longhi, Márlon A.
Rodríguez, Erich D.
Bernal, Susan A.
Provis, John L.
and
Kirchheim, Ana Paula
2016.
Valorisation of a kaolin mining waste for the production of geopolymers.
Journal of Cleaner Production,
Vol. 115,
Issue. ,
p.
265.
Bernal, Susan A
Rodríguez, Erich D
Kirchheim, Ana Paula
and
Provis, John L
2016.
Management and valorisation of wastes through use in producing alkali‐activated cement materials.
Journal of Chemical Technology & Biotechnology,
Vol. 91,
Issue. 9,
p.
2365.
Pruett, Robert J.
2016.
Kaolin deposits and their uses: Northern Brazil and Georgia, USA.
Applied Clay Science,
Vol. 131,
Issue. ,
p.
3.
Zhong, Xiang-hua
Liu, Yu
Xu, Tao
and
Liu, Wen-yuan
2017.
Studies on the thermal behavior and decomposition mechanism of dickite–potassium acetate complexes.
Journal of Thermal Analysis and Calorimetry,
Vol. 129,
Issue. 2,
p.
1095.
Lima, Paula E.A.
Angélica, Rômulo S.
and
Neves, Roberto F.
2017.
Dissolution kinetics of Amazonian metakaolin in hydrochloric acid.
Clay Minerals,
Vol. 52,
Issue. 1,
p.
75.
El-Sherbiny, Samya
and
Ahmed, Nivin M.
2018.
Enhancing coated paper mechanical properties via doping kaolin with ammonium molybdate.
Journal of Coatings Technology and Research,
Vol. 15,
Issue. 6,
p.
1379.
Zhang, Quan
Yu, Gaobo
Zhou, Qichang
Li, Jiacheng
Feng, Yuhong
Wang, Longzheng
Tang, Yiyuan
and
Peng, Yang
2020.
Eco-friendly interpenetrating network hydrogels integrated with natural soil colloid as a green and sustainable modifier for slow release of agrochemicals.
Journal of Cleaner Production,
Vol. 269,
Issue. ,
p.
122060.