A5091456721- Concrete and Cement Materials Research
- Recycled Aggregate Concrete Performance
- Innovative concrete reinforcement materials
- Innovations in Concrete and Construction Materials
- BIM and Construction Integration
- Recycling and utilization of industrial and municipal waste in materials production
- Lymphoma Diagnosis and Treatment
- CNS Lymphoma Diagnosis and Treatment
- Advanced Energy Technologies and Civil Engineering Innovations
- Microbial Applications in Construction Materials
- Skin Diseases and Diabetes
- Sustainable Building Design and Assessment
- Building materials and conservation
- Architecture and Computational Design
- Oral Health Pathology and Treatment
- Magnesium Oxide Properties and Applications
- Cutaneous lymphoproliferative disorders research
- Eosinophilic Disorders and Syndromes
- Chronic Lymphocytic Leukemia Research
- Geotechnical and construction materials studies
- Genetic and rare skin diseases.
- Construction Engineering and Safety
- Vascular Tumors and Angiosarcomas
Hacettepe University
2020-2024
Cliniques Universitaires Saint-Luc
2024
Université Libre de Bruxelles
2024
Centre Hospitalier Universitaire de Saint-Pierre
2023
As a viable option to upcycle construction and demolition waste (CDW) into value-added materials, geopolymer technology is emerging. Most studies investigate CDWs in separated form or combination with mainstream pozzolanic/cementitious materials focusing only on fundamental properties of pastes, not considering scale such the level their application forms structural mortars/concretes characterize long-term performance/durability. This study investigated development characterization...
Developing a fast, cost-effective, eco-friendly solution to recycle large amounts of construction and demolition waste (CDW) generated from industry-related activities natural disasters is crucial. The present investigation aims offer for repurposing CDW into building materials suitable accelerated housing in developing countries disaster-prone areas. Feasibility recycled concrete aggregate (RCA) inclusion geopolymer mortars constituted entirely (masonry elements) was investigated via an...
This paper consists of a life cycle assessment (LCA) analysis on an experimental study to produce recycled brick waste (RBW) and ceramic tile (RCT) based geopolymers. The LCA is done following ISO 14040 standards GaBi software for geopolymers produced with different ingredients ratios curing types/regimes. binary geopolymer comes from RBW + RCT (Phase I) as aluminosilicate sources alkaline solutions. ternary II) studied includes Class C Fly ash (FC) in addition the RCT. And finally, Phase...
This study performs a life cycle assessment (LCA) on novel process to produce geopolymer binders for 3-dimensional additive manufacturing (3D-AM). The method utilises construction and demolition waste (CDW) [hollow brick (HB), red clay (RCB), roof tile (RT), glass (G)] as sustainable resource geopolymers production replace Portland cement. is performed identify hotspots (relevant processes or raw material) improve the environmental performance of whole at an early stage development evaluate...
Construction and Demolition Waste (CDW)-based geopolymers are expected to lower the construction sector's environmental impacts by reducing use of ordinary cement reusing waste materials considered a substantial step toward circular economy sustainability in long run. However, due energy-intensive mechanical, thermal, chemical processes involved preparing CDW-based geopolymers, it is essential quantify their implications early stages development. The objective study analyze newly developed...
By replacing regular cement and recycling trash, construction demolition waste (CDW)-based geopolymers are anticipated to reduce the environmental consequences of sector. However, preparation CDW-based involves energy-intensive mechanical, thermal, chemical processes. Hence, it is critical quantify its effects in development phase suggest substitute sustainable energy options. This study performs ecological sustainability newly developed materials, identifies hotspots, analyses feasibility...
The exponential growth in demand for housing has resulted a greater focus on rapid construction methods that adhere to circular economy principles. 3D concrete printing is becoming powerful tool find solutions the common challenges of affordable more people, construction, and digitalization industry. However, coherent synthesis green digital initiatives not yet been achieved. For printable materials, recycling materials have reached end their service life should also be enabled supported,...