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Full-Text Articles in Civil Engineering
Mat-744: Assessment Of Performance Of Bio Self-Healing Mortar Using Diatomaceous Earth And Silica Fume, Ahmed J. Al Bughdadi, Mohamed N. Abou-Zeid
Mat-744: Assessment Of Performance Of Bio Self-Healing Mortar Using Diatomaceous Earth And Silica Fume, Ahmed J. Al Bughdadi, Mohamed N. Abou-Zeid
Canadian Society for Civil Engineering
Cracking represents a major threat for the integrity and performance of structures. Self-healing concept was introduced to construction materials in order to enhance their performance and extend their service life with less repair. This study aims at assessing the performance of Portland cement mortar incorporating self-healing Bacillus Pseudofirmus bacteria using Diatomaceous earth (DE) to immobilize precursor and bacteria in mortar and lowering the pH level of mortar by using silica fume to provide a suitable growth environment for bacteria to generate limestone. The specimens were prepared at three different bacteria dosages and three DE dosages. Cracking of specimens was induced …
Mat-758: Constructability Benefits Of The Use Of Lightweight Foamed Concrete Fill (Lfcf) In Pavement Applications, Michael L. J. Maher, John B. Hagan
Mat-758: Constructability Benefits Of The Use Of Lightweight Foamed Concrete Fill (Lfcf) In Pavement Applications, Michael L. J. Maher, John B. Hagan
Canadian Society for Civil Engineering
Lightweight Foamed Concrete Fill (LFCF), also known as cellular concrete, has been growing in use in transportation infrastructure projects over recent years. LFCF is a versatile construction material that has now been in use for over 30 years. A number of recent road rehabilitation projects have demonstrated some of the benefits of use. With a greater emphasis on sustainability on all provincial and municipal road projects, new solutions are being sought to minimize the generation of waste and deliver better performing pavements that require less maintenance interventions. Roads over peat and organic deposits pose challenges for road agencies. They are …
Mat-763: Assessment Of Ultra-High Performance Fibre Reinforced Concrete- Normal Strength Concrete Or High Strength Concrete Composite Members In Chloride Environment, Luaay Hussein, Lamya Amleh
Mat-763: Assessment Of Ultra-High Performance Fibre Reinforced Concrete- Normal Strength Concrete Or High Strength Concrete Composite Members In Chloride Environment, Luaay Hussein, Lamya Amleh
Canadian Society for Civil Engineering
The purpose of this study was to investigate the performance of composite members of ultra-high performance fibre-reinforced concrete (UHPFRC) and normal strength or high strength concrete (NSC/HSC) in chloride environments. Experimental studies were carried out on UHPFRC-NSC/HSC prisms in order to investigate the effect of dry and wet cycles on the flexural capacity of those composite members. Each prism specimen was designed with the UHPFRC layer in tension and the NSC/HSC layer in compression. Three fibre volume contents (1%, 1.5%, and 2%) were investigated. The test results revealed that the degradation in the flexural capacity of UHPFRC-NSC/HSC specimens after exposure …
Mat-762: Building Sustainable Continuously Reinforced Concrete Pavement Using Gfrp Bars: Case Study-Highway 40 West-Montreal, Canada, Abdoulaye Sanni B., Hamdy M. Mohamed, Denis Thébeau, Brahim Benmokrane
Mat-762: Building Sustainable Continuously Reinforced Concrete Pavement Using Gfrp Bars: Case Study-Highway 40 West-Montreal, Canada, Abdoulaye Sanni B., Hamdy M. Mohamed, Denis Thébeau, Brahim Benmokrane
Canadian Society for Civil Engineering
Continuously reinforced concrete pavement designs (CRCP) are premium pavement designs that are often used on heavily-trafficked roadways and urban corridors. Although CRCP typically is an effective, long-lasting pavement design, it can develop performance problems when the aggregate-interlock load transfer at the transverse cracks is degraded. The prevalence of wide cracks in CRCP has frequently been associated with ruptured steel and significant levels of corrosion. Because of that, there has been recent interest in identifying new reinforcing materials that can prevent or minimize corrosion-related issues in CRCP. Glass fibre-reinforced polymer (GFRP) bars are one product being investigated for use in CRCP …
Mat-761: The Effect Of Temperature On The Lateral Response Of Unbonded Fiber-Reinforced Elastomeric Isolators, Alexander N. Sciascetti, Yasser M. Al-Anany, Michael J. Tait
Mat-761: The Effect Of Temperature On The Lateral Response Of Unbonded Fiber-Reinforced Elastomeric Isolators, Alexander N. Sciascetti, Yasser M. Al-Anany, Michael J. Tait
Canadian Society for Civil Engineering
Base isolation is a method that can be employed to significantly reduce the demands on a structure during a seismic event. This method has shown considerable success in reducing the adverse effects of earthquakes, including damage and loss of life. The main concept of base isolation is to reduce the seismic demand on a structure by placing isolators beneath the superstructure at points where load is transferred to the foundation. One of the most commonly used types of isolator is the elastomeric isolator. These isolators are traditionally comprised of layers of elastomer and steel. More recently, research has been completed …
Mat-759: Particle Size Analysis As A Means To Better Understand The Influence Of Fly Ash Variability In Concrete, Yasar Abualrous, Daman K. Panesar, R. Doug Hooton, Bhupinder Singh
Mat-759: Particle Size Analysis As A Means To Better Understand The Influence Of Fly Ash Variability In Concrete, Yasar Abualrous, Daman K. Panesar, R. Doug Hooton, Bhupinder Singh
Canadian Society for Civil Engineering
Fly ash is generated from thermal power stations as an industrial by-product of coal combustion materials. Its particles are generally glassy, spherical in shape, and typically range in size from 0.5-300 µm. Coal fly ash is widely used as a partial cementitious material in concrete, which not only offers economic and environmental benefits but also improves concrete performance. However, variability of the physical description and chemical composition of fly ash has been considered to be a major barrier to its increased use in cement and concrete. In this study the variability and properties of fly ash are characterized with an …
Mat-760: Comparison Of Laboratory Performance Tests Used To Assess Alkali-Silica Reactivity, Farideh Golmakani, R. Douglas Hooton
Mat-760: Comparison Of Laboratory Performance Tests Used To Assess Alkali-Silica Reactivity, Farideh Golmakani, R. Douglas Hooton
Canadian Society for Civil Engineering
Alkali-silica reaction of certain concrete aggregates can lead to premature deterioration and maintenance problems in concrete structures. The CSA A23.1-14A/ASTM C1293 concrete prism test (CPT) and the CSA A23.2-25A/ASTM C1260/ASTM C1567 accelerated mortar bar test (AMBT) are the two main procedures used in CSA and ASTM standards for examining the potential alkali-silica reactivity (ASR) of aggregates and also for assessing the effectiveness of supplementary cementing materials (SCMs) in suppressing ASR. The long testing duration of the CPT and the unreliability of the rapid AMBT have led to development and evaluation of a third method, the accelerated concrete prism test (ACPT). …
Mat-712: Microstructural Investigations On The Self-Healing Ability Of Engineered Cementitious Composites Incorporating Different Mineral Admixtures, Ahmed Alyousif, Khandaker M. Anwar Hossain, Mohamed Lachemi, Mustafa Sahmaran
Mat-712: Microstructural Investigations On The Self-Healing Ability Of Engineered Cementitious Composites Incorporating Different Mineral Admixtures, Ahmed Alyousif, Khandaker M. Anwar Hossain, Mohamed Lachemi, Mustafa Sahmaran
Canadian Society for Civil Engineering
The present study investigates the impacts that self-healing has on the microstructure characteristics of microcracked Engineered Cementitious Composites (ECC). These have two contrasting maturity levels and, furthermore, they involve three varying mineral admixtures that have very different chemical constituents. The impact of self-healing on the transport characteristics was examined by employing rapid chloride permeability tests (RCPT). The findings indicated that, if the appropriate mineral admixture type and conditioning were chosen, it would be possible to enhance the majority of the chloride ion penetrability levels following a 30-day period of water curing. As a result, the majority of the findings were …
Mat-731: Mechanical & Durability Properties Of Engineered Cementitious Composites With Different Aggregates, Mohamed A. A. Sherir, Khandaker M. Anwar Hossain, Mohamed Lachemi
Mat-731: Mechanical & Durability Properties Of Engineered Cementitious Composites With Different Aggregates, Mohamed A. A. Sherir, Khandaker M. Anwar Hossain, Mohamed Lachemi
Canadian Society for Civil Engineering
This paper presents the outcome of a study conducted to exhibit the effect of micro-silica sand and mortar sand on fresh, mechanical and durability properties of Engineered Cementitious Composites (ECCs). ECC is a ductile concrete characterized by strain hardening and multiple-cracking behavior under tension and shear. This study used locally available aggregates instead of standard micro-silica sand to produce cost-effective, sustainable and green ECC mixtures to be used for construction applications. ECCs prepared by both types of sands exhibited almost similar behaviour in terms of fresh, mechanical and durability properties which indicated the viability of producing ECC mixtures with mortar …