Esmaeel Mansouri scite author profile

Rheological, mechanical, and transport properties of high-performance self-compacting concrete (HPSCC) mixes with different cement contents and fly ash percentages are studied in this research. Different HPSCC mixtures were investigated with cement contents of 400, 450, and 500 kg/m 3 and fly ash percentages of 5 % , 10 % , and 15 % . In order to achieve an enhanced durability, the aggregate grading curve was modified and improved based on power 0.45 grading curve. For a better understanding of fly ash effect and comparison purposes, a constant water to binder ratio (w/b = 0.38) was used. The rheological properties were observed through slump flow time and diameter and V-funnel flow time. Mechanical properties including compressive and splitting tensile strength were determined at 7, 28, and 90 days. A comprehensive transport investigation was carried out using water absorption, capillary absorption, chloride ion percentage, and resistivity tests. The results showed a desirable improvement in rheological properties, and the compressive strength improved by about 10 % for 15 % fly ash at 90 days. A relatively significant improvement was also considered in all transport properties by increasing the fly ash percentage and cement content, especially at higher ages.

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Thermal and mechanical characteristics of cement nanocomposites

Jalal¹,

Mansouri²

2016

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Thermal and mechanical characteristics of cement nanocomposites

Jalal

Mansouri

2013

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Widespread applications and advantages of different types of composite materials have drawn researchers ' attention toward the science and techno logy of composites. Among these materials, cementitious composites have a special place, as they have many applications in various fields of structural and civil engineering. Due to the importance of cementitious composites and their behavior, investigation of their properties is of great importance. Thus in the present study, thermal and mechanical properties of the self-compacting cementitious composites containing different fractions of nano TiO 2 have been investigated. Mechanical properties were assessed through compressive, split tensile and flexural tests. The thermal properties were assessed through thermogravimetric analysis (TGA) and conduction calorimetry tests. Accelerated peak appearance in conduction calorimetry tests and more weight loss in thermogravimetric analysis could indicate that TiO 2 nanoparticles could lead to strength development at earlier ages and improve the properties of the self-compacting cementitious composites.

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Effects of fly ash and cement content on rheological, mechanical, and transport properties of high-performance self-compacting concrete

Mostafa

Mansouri

2021

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