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European Journal of Environmental and Civil Engineering Volume 22, 2018 - Issue 8
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Articles

Chloride binding ability and the onset corrosion threat on alkali-activated GGBFS and binary blend pastes

M.S.H. KhanCentre for Infrastructure and Engineering Safety, School of Civil and Environmental Engineering, University of New South Wales, Sydney, AustraliaCorrespondence[email protected]
&
O. KayaliSchool of Engineering and Information Technology, University of New South Wales, Canberra, Australia
Pages 1023-1039 | Received 05 Feb 2016, Accepted 26 Aug 2016, Published online: 09 Sep 2016

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Muhammad Usama Salim & Mohammad Ali Mosaberpanah. (2022) The mechanism of alkali-aggregate reaction in concrete/mortar and its mitigation by using geopolymer materials and mineral admixtures: a comprehensive review. European Journal of Environmental and Civil Engineering 26:14, pages 6766-6806.
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Articles from other publishers (23)

Ziqing Huang, Menghuan Guo, Yingwu Zhou, Tiao Wang, Yuan Fang, Lili Sui & Guoqiang Gong. (2023) Chloride binding mechanism and free chloride reduction method of alkali-activated slag/fly ash mixed with seawater. Construction and Building Materials 409, pages 134079.
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Zhai Qi, Yibing Zuo, Kiyofumi Kurumisawa & Aoran Lang. (2023) Effect of curing temperatures and additional activators on chloride ingress and its induced mineralogical alteration of ground granulated blast furnace slag activated by Ca(OH)2. Cement and Concrete Composites 141, pages 105153.
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Xiaomei Wan, Yunzheng Cui, Zuquan Jin & Liyan Gao. (2023) Chloride Transport and Related Influencing Factors of Alkali-Activated Materials: A Review. Materials 16:11, pages 3979.
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D. Rezakhani, A. H. Jafari & M. Hajabassi. (2023) Influence of Graphene Oxide and Ground Granulated Blast Furnace Slag on Engineering Properties of High-Performance Concretes. Advances in Civil Engineering Materials 12:1, pages 20220010.
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D. Rezakhani, A.H. Jafari & M. Hajabassi. (2023) Durability, mechanical properties and rebar corrosion of slag-based cement concrete modified with graphene oxide. Structures 49, pages 678-697.
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Mohamed Elchalakani, Bo Yang, Kuanhong Mao & Thong Pham. 2023. Geopolymer Concrete Structures with Steel and FRP Reinforcements. Geopolymer Concrete Structures with Steel and FRP Reinforcements 1 74 .
Jihui Zhao, Binqi Long, Gangqiang Yang, Zirui Cheng & Qiang Liu. (2022) Characteristics of alkali-activated slag powder mixing with seawater: Workability, hydration reaction kinetics and mechanism. Case Studies in Construction Materials 17, pages e01381.
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Weixi Cai, Zhipeng Xu, Zhangmin Zhang, Jie Hu, Haoliang Huang, Yuwei Ma, Zuhua Zhang, Hao Wang, Suhong Yin, Jiangxiong Wei, Caijun Shi & Qijun Yu. (2022) Chloride binding behavior of synthesized reaction products in alkali-activated slag. Composites Part B: Engineering 238, pages 109919.
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G. Yang, J. Zhao & Y. Wang. (2022) Durability properties of sustainable alkali-activated cementitious materials as marine engineering material: A review. Materials Today Sustainability 17, pages 100099.
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Prang Subpa-Asa, Nobukatu Nito, Satoshi Fujiwara & Shigeyuki Date. (2022) The Study on Blast Furnace Slag on Different Conditions as Curing Condition and Blaine Value Ratio Influence Improving Strength Performance. Materials Science Forum 1053, pages 345-351.
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Xiang Hu & Chi Sun Poon. (2022) Chloride-related steel corrosion initiation in cement paste prepared with the incorporation of blast-furnace slag. Cement and Concrete Composites 126, pages 104349.
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Minhao Dong & Mohamed Elchalakani. 2022. Handbook of Advances in Alkali-Activated Concrete. Handbook of Advances in Alkali-Activated Concrete 257 303 .
Zengqing Sun. 2022. Handbook of Advances in Alkali-Activated Concrete. Handbook of Advances in Alkali-Activated Concrete 305 320 .
Hesong Jin, Fuhai Li & Xingye Li. (2021) Research on the Micro-Pore Structures of AAFAM. Arabian Journal for Science and Engineering 46:11, pages 10885-10900.
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P Kryvenko, I Rudenko, O Konstantynovskyi & O Boiko. (2021) Restriction of Cl - and SO 4 2- Ions Transport in Alkali Activated Slag Cement Concrete in Seawater . IOP Conference Series: Materials Science and Engineering 1164:1, pages 012066.
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Pavlo Krivenko, Igor Rudenko, Oleksandr Konstantynovskyi & Olha Boiko. (2021) Prevention of steel reinforcement corrosion in alkali-activated slag cement concrete mixed with seawater. E3S Web of Conferences 280, pages 07004.
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Ana María Aguirre-Guerrero, Rafael Andres Robayo-Salazar & Ruby Mejía de Gutiérrez. (2021) Corrosion resistance of alkali-activated binary reinforced concrete based on natural volcanic pozzolan exposed to chlorides. Journal of Building Engineering 33, pages 101593.
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Yuanzhan Wang, Chenxi Liu, Yi Tan, Yuchi Wang & Qingmei Li. (2020) Chloride binding capacity of green concrete mixed with fly ash or coal gangue in the marine environment. Construction and Building Materials 242, pages 118006.
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Jinjie Shi, Jing Ming & Miao Wu. (2020) Passivation and corrosion behavior of 2304 duplex stainless steel in alkali-activated slag materials. Cement and Concrete Composites 108, pages 103532.
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Xiang Hu, Caijun Shi, Deju Zhu & Geert de Schutter. (2020) Investigation on influential factors on chloride concentration index of cement-based materials by pore solution expression method. Construction and Building Materials 231, pages 117135.
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Di Shi, Yan Yao, Jiayuan Ye & Wensheng Zhang. (2019) Effects of seawater on mechanical properties, mineralogy and microstructure of calcium silicate slag-based alkali-activated materials. Construction and Building Materials 212, pages 569-577.
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Jinjie Shi, Jing Ming & Wei Sun. (2017) Passivation and chloride-induced corrosion of a duplex alloy steel in alkali-activated slag extract solutions. Construction and Building Materials 155, pages 992-1002.
Crossref
M.S.H. Khan, O. Kayali & U. Troitzsch. (2017) Effect of NaOH activation on sulphate resistance of GGBFS and binary blend pastes. Cement and Concrete Composites 81, pages 49-58.
Crossref

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