Effects of slag on the degradation mechanism of ordinary Portland cement-calcium aluminate cement-gypsum ternary binder under the multiple erosive ions-Reference-Cited by-同舟云学术

Effects of slag on the degradation mechanism of ordinary Portland cement-calcium aluminate cement-gypsum ternary binder under the multiple erosive ions

Published:2022-03 Issue: Volume:324 Page:126661
ISSN:0950-0618
Container-title:Construction and Building Materials
language:en
Short-container-title:Construction and Building Materials

Author:

Li Guoxin,Wang Wenzhao,Zhang Ge

Publisher

Elsevier BV

Subject

General Materials Science,Building and Construction,Civil and Structural Engineering

Reference44 articles.

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2. Effect of nano-CaCO3 and nano-SiO2 on improving the properties of carbon fibre-reinforced concrete and their pore-structure models;Liu;Construction and Building Materials,2020

3. Assessment of GFRP bond behaviour for the design of sustainable reinforced seawater concrete structures;Soares;Construction and Building Materials,2020

4. Enhancement of strength and durability of fly ash concrete in seawater environments: synergistic effect of nanoparticles;Uthaman;Construction and Building Materials,2018

5. Study on the influence of compound rust inhibitor on corrosion of steel bars in chloride concrete by electrical parameters;Wang;Construction and Building Materials,2020

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2. Concrete containing recycled concrete coarse aggregate and crushed glass sand: Mitigating the effect of alkali–silica reaction;Structural Concrete;2024-02-23

3. Enhanced mortar strength and resistance to seawater degradation in the presence of calcined coal-series kaolin;Construction and Building Materials;2023-11

4. Long-term (2 years) drying shrinkage evaluation of alkali-activated slag mortar: Experiments and partial factor analysis;Case Studies in Construction Materials;2023-07

5. Study on properties and degradation mechanism of calcium sulphoaluminate cement-ordinary Portland cement binary repair material under seawater erosion;Case Studies in Construction Materials;2022-12