Effects of Ethanolic Extract of Raphanus Sativus Seeds on Fertility Hormone and Sperm Parameters in Male Wistar Rats

a b s t r a c tThe presence of deleterious substances and their transport are among the most important factors controlling the durability of cementitious composites. The present paper studies the relationship among the applied mechanical deterioration in terms of splitting tensile deformation, curing conditions and chloride ion permeability of Engineered Cementitious Composites (ECCs) that contain different supplementary cementitious materials (SCMs). Three SCMs, representing a wide range of compositions, were used in the study. The splitting tensile deformations are introduced to generate microcracks in ECC specimens, where cylindrical specimens were pre-loaded to different deformation levels. After that, the mechanically pre-cracked and pristine ECC specimens were exposed to three different curing conditions (continuous wet, continuous air, and freeze-thaw cycle) for up to 2 months. Rapid chloride permeability test (RCPT), microscopic observation and microstructural analysis were used to assess the rate and extent of selfhealing. Test results indicate that the SCM type greatly affects the self-healing capability of cementitious composites as measured by chloride ion permeability. Although ECC samples with fly ash have more unhydrated cementitious materials, and therefore, expectedly, a higher capacity for self-healing, more evident self-healing product was observed from the ECC mixture incorporating slag. Therefore, in addition to the crack width distribution and curing condition, the reaction products associated with SCMs have a great impact on the self-healing capability of cementitious composites.

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Electrical percolation threshold of cementitious composites possessing self-sensing functionality incorporating different carbon-based materials

Al-Dahawi

Sarwary

Öztürk

et al. 2016

Smart Mater. Struct.

157

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An experimental study was carried out to understand the electrical percolation thresholds of different carbon-based nano-and micro-scale materials in cementitious composites. Multi-walled carbon nanotubes (CNTs), graphene nanoplatelets (GNPs) and carbon black (CB) were selected as the nano-scale materials, while 6 and 12 mm long carbon fibers (CF6 and CF12) were used as the micro-scale carbon-based materials. After determining the percolation thresholds of different electrical conductive materials, mechanical properties and piezoresistive properties of specimens produced with the abovementioned conductive materials at percolation threshold were investigated under uniaxial compressive loading. Results demonstrate that regardless of initial curing age, the percolation thresholds of CNT, GNP, CB and CFs in ECC mortar specimens were around 0.55%, 2.00%, 2.00% and 1.00%, respectively. Including different carbon-based conductive materials did not harm compressive strength results; on the contrary, it improved overall values. All cementitious composites produced with carbon-based materials, with the exception of the control mixtures, exhibited piezoresistive behavior under compression, which is crucial for sensing capability. It is believed that incorporating the sensing attribute into cementitious composites will enhance benefits for sustainable civil infrastructures.

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Effect of mixing methods on the electrical properties of cementitious composites incorporating different carbon-based materials

Al-Dahawi

Öztürk

Emami

et al. 2016

Construction and Building Materials

177

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Deflection-hardening hybrid fiber reinforced concrete: The effect of aggregate content

Banyhussan

Yıldırım

Bayraktar

et al. 2016

Construction and Building Materials

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Nano-modification to improve the ductility of cementitious composites

Yeşilmen

Al-Najjar

Balav

et al. 2015

Cement and Concrete Research

105

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Assessment of self-sensing capability of Engineered Cementitious Composites within the elastic and plastic ranges of cyclic flexural loading

Al-Dahawi

Yıldırım

Öztürk

et al. 2017

Construction and Building Materials

123

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Influence of Hydrated Lime Addition on the Self-Healing Capability of High-Volume Fly Ash Incorporated Cementitious Composites

Yıldırım

Şahmaran

Ahmed

2015

J. Mater. Civ. Eng.

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Properties of geopolymers sourced from construction and demolition waste: A review

Alhawat

Ashour

Yıldırım

et al. 2022

Journal of Building Engineering

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Self-healing capability of cementitious composites incorporating different supplementary cementitious materials

Electrical percolation threshold of cementitious composites possessing self-sensing functionality incorporating different carbon-based materials

Effect of mixing methods on the electrical properties of cementitious composites incorporating different carbon-based materials

Deflection-hardening hybrid fiber reinforced concrete: The effect of aggregate content

Nano-modification to improve the ductility of cementitious composites

Assessment of self-sensing capability of Engineered Cementitious Composites within the elastic and plastic ranges of cyclic flexural loading

Influence of Hydrated Lime Addition on the Self-Healing Capability of High-Volume Fly Ash Incorporated Cementitious Composites

Properties of geopolymers sourced from construction and demolition waste: A review

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