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Journal of Sustainable Cement-Based Materials Volume 10, 2021 - Issue 2
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Effects of the combined usage of micro and nano-silica on the drying shrinkage and compressive strength of the self-compacting concrete

M. Almohammad-albakkarDepartment of Civil Engineering, Isfahan University of Technology, Isfahan, IranCorrespondence[email protected]
&
K. BehfarniaDepartment of Civil Engineering, Isfahan University of Technology, Isfahan, Iran
Pages 92-110 | Published online: 20 Apr 2020

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Read on this site (2)

Himanshu Sharma & Deepankar Kumar Ashish. (2023) Nano CaCO3 for enhancing properties of cement-based materials: a comprehensive review. Journal of Sustainable Cement-Based Materials 12:12, pages 1475-1494.
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Hussein Hamada, Jinyan Shi, Salim T. Yousif, Mohammed Al Jawahery, Bassam Tayeh & Gul Jokhio. (2023) Use of nano-silica in cement-based materials – a comprehensive review. Journal of Sustainable Cement-Based Materials 12:10, pages 1286-1306.
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Articles from other publishers (13)

Hassan Baloch, Steffen Grünewald & Stijn Matthys. (2023) Assessment of shrinkage and bond behaviour of high performance cement-based composites as a repair mortar. Developments in the Built Environment 15, pages 100203.
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Jiangjiang Wang, Yusen Yang, Jiayin Chu, Kim Hung Mo & Pow‐Seng Yap. (2023) Recent developments in utilization of nano silica in self‐compacting concrete: A review. Structural Concrete.
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Mohy S. Fattouh, Bassam A. Tayeh, Ibrahim Saad Agwa & Elsayed K. Elsayed. (2023) Improvement in the flexural behaviour of road pavement slab concrete containing steel fibre and silica fume. Case Studies in Construction Materials 18, pages e01720.
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Tan‐Hung Nguyen, Andrian H. Limongan, May Huu Nguyen, Chao‐Lung Hwang & Trong‐Phuoc Huynh. (2023) Densified mixture design algorithm: A novel mix design concept and its application for green concretes incorporating industrial by‐products . Environmental Progress & Sustainable Energy 42:4.
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Rabar H. Faraj, Azad A. Mohammed & Khalid M. Omer. (2023) Microstructure characteristics, stress–strain behaviour, fresh properties, and mechanical performance of recycled plastic aggregate self-compacting concrete modified with nano-silica. Construction and Building Materials 383, pages 131371.
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Ibrahim Y. Hakeem, Mohamed Amin, Abdullah M. Zeyad, Bassam A. Tayeh, Ibrahim Saad Agwa & Khaled Abu el‐hassan. (2023) Properties and durability of self‐compacting concrete incorporated with nanosilica, fly ash, and limestone powder. Structural Concrete.
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M. Almohammad-albakkar, K. Behfarnia & H. Mousavi. (2022) Estimation of drying shrinkage in self-compacting concrete containing micro- and nano-silica using appropriate models. Innovative Infrastructure Solutions 7:5.
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Rabar H. Faraj, Azad A. Mohammed, Ahmed Mohammed, Khalid M. Omer & Hemn Unis Ahmed. (2021) Systematic multiscale models to predict the compressive strength of self-compacting concretes modified with nanosilica at different curing ages. Engineering with Computers 38:S3, pages 2365-2388.
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Rabar H. Faraj, Azad A. Mohammed & Khalid M. Omer. (2022) Self-compacting concrete composites modified with nanoparticles: A comprehensive review, analysis and modeling. Journal of Building Engineering 50, pages 104170.
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Ibrahim Mohammed Nasser, Mohd Haziman Wan Ibrahim, Sharifah Salwa Mohd Zuki, Hassan Amer Algaifi & Abdullah Faisal Alshalif. (2022) The effect of nanosilica incorporation on the mechanical properties of concrete exposed to elevated temperature: a review. Environmental Science and Pollution Research 29:11, pages 15318-15336.
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Nurul Izzati Rahim, Bashar S. Mohammed, Isyaka Abdulkadir & Mohammed Dahim. (2022) Effect of Crumb Rubber, Fly Ash, and Nanosilica on the Properties of Self-Compacting Concrete Using Response Surface Methodology. Materials 15:4, pages 1501.
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Chiya Y. Rahimzadeh, Ahmed Salih & Azeez A. Barzinjy. (2022) Systematic Multiscale Models to Predict the Compressive Strength of Cement Paste as a Function of Microsilica and Nanosilica Contents, Water/Cement Ratio, and Curing Ages. Sustainability 14:3, pages 1723.
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M. Almohammad-albakkar & K. Behfarnia. (2020) Water penetration resistance of the self-compacting concrete by the combined addition of micro and nano-silica. Asian Journal of Civil Engineering 22:1, pages 1-12.
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