A5036154208- Innovative concrete reinforcement materials
- Concrete and Cement Materials Research
- Innovations in Concrete and Construction Materials
- Recycled Aggregate Concrete Performance
- Structural Behavior of Reinforced Concrete
- BIM and Construction Integration
- Metal Forming Simulation Techniques
- Structural Load-Bearing Analysis
- Mechanical and Thermal Properties Analysis
- Graphite, nuclear technology, radiation studies
Inserm
2024
Mines Saint-Étienne
2023-2024
Université Claude Bernard Lyon 1
2023-2024
Établissement Français du Sang
2024
Centro Tecnológico del Mar
2021
Euskadiko Parke Teknologikoa
2020
The feasibility of manufacturing fiber-reinforced concretes high workability through additions volumes electric arc furnace steel slag is evaluated in this paper, using sustainable binders with ground granulated blast and ladle as a supplementary cementitious material. An extensive experimental plan developed to test four (self-compacting pumpable) concrete mixtures, some reinforced 0.5% vol. (metallic or synthetic) fibers, both the fresh hardened state. Very specific mechanical aspects are...
The environmental impact of the building sector is especially relevant during construction phase. Both materials and methods that are currently in use must be reconsidered, order to minimize concrete-based structures. This research therefore focused on achieving greener In this context, feasibility careful for concrete manufacture techniques can facilitate reduce energy consumption placement both studied. To do so, twelve sample beams were prepared using eight different sustainable...
Structural engineers have to address the climate change challenge by designing sustainable and resilient structures. At this juncture, Electric Arc Furnace Slags (EAFS), a steel-industry waste, are used in replacement of natural aggregates enhance concrete properties. Moreover, steel synthetic fibers added improve postcracking behavior while traditional bar reinforcement enhances tensile performance. This makes EAFS substantially ductile compared normal concrete, which contributes higher...
Some of the first-installed wind turbines will have to be replaced soon, as they are approaching end their life span. These wind-turbine blades must recycled, so suitability added into concrete mixes fibers is studied. Thus, a less-polluting fiber-reinforced can achieved, maintaining its mechanical behavior. To recycle numerous at an adequate rate, large amounts waste need concrete. This study aims find out adding high this material (0% vol., 5% and 10% vol.). Testing yielded slight decrease...
The use of waste in civil-engineering products, such as concrete and asphalt mixes, is a very effective strategy for reducing high consumption levels Natural Aggregates (NA) the construction sector. In this research, rejected precast elements compressive strength are studied,following their crushing quality Recycled Concrete Aggregate (RCA) manufacture Self-Compacting (SCC). High volumes stream employed mixture, completely replacing coarse fraction natural aggregate (100% replacement...
Steel production in electric arc furnaces generates a principal waste stream the form of Electric Arc Furnace Slag (EAFS), also known as "black slag".The well-researched and advantageous properties EAFS guarantee its successful use aggregate manufacture concrete (CEAFS).In contrast, fiber-reinforced is widely employed, especially pavements slabs, for improved cracking resistance "ductile" post-cracking behavior.In this research, toughness ductile behavior these CEAFS tested with various...