Add to ORKGWe investigate on the strength and ductility properties of recycled PET fiber-reinforced concretes (RPETFRCs) showing different mix-designs and PET filaments with variable mechanical and geometric properties. Available literature results of compression tests and four-point bending tests on such materials are reviewed comparing laboratory results in terms of compressive strength, first crack strength and ductility indices. The examined tests highlight that most relevant effects of the recycled PET fiber reinforcement are concerned with material toughness and ductility. In the case of low-strength concretes, significant compression and flexural strength enhancements due to the addition of recycled PET fibers are also observed.</p
Plastic solid waste generation increases every year with the current consumption habit prevalent in ...
In this study the performance of concrete reinforced with fibres produced from waste non-biodegradab...
This paper deals with an experimental study on the mechanical properties of recycled polyethylene te...
We investigate on the strength and ductility properties of recycled PET fiber-reinforced concretes (...
We investigate on the strength and ductility properties of recycled PET fiber-reinforced ...
This work presents an experimental study of thermal conductivity, compressive strength, first crack ...
This paper deals with the first results of an extensive experimental analysis on the mechanical prop...
Fiber-reinforced concrete represents the current tendency to apply more efficient crack-resistant co...
Discarded polyethylene terephthalate (PET) bottles have damaged our ecosystem. Problems of marine fa...
Concrete is strong in compression however weak in tension. The tensile strength as well as ductile p...
This paper deals with an experimental study on the mechanical properties of recycled polyethylene te...
Plastic solid waste generation increases every year with the current consumption habit prevalent in ...
In this study the performance of concrete reinforced with fibres produced from waste non-biodegradab...
This paper deals with an experimental study on the mechanical properties of recycled polyethylene te...
We investigate on the strength and ductility properties of recycled PET fiber-reinforced concretes (...
We investigate on the strength and ductility properties of recycled PET fiber-reinforced ...
This work presents an experimental study of thermal conductivity, compressive strength, first crack ...
This paper deals with the first results of an extensive experimental analysis on the mechanical prop...
Fiber-reinforced concrete represents the current tendency to apply more efficient crack-resistant co...
Discarded polyethylene terephthalate (PET) bottles have damaged our ecosystem. Problems of marine fa...
Concrete is strong in compression however weak in tension. The tensile strength as well as ductile p...
This paper deals with an experimental study on the mechanical properties of recycled polyethylene te...
Plastic solid waste generation increases every year with the current consumption habit prevalent in ...
In this study the performance of concrete reinforced with fibres produced from waste non-biodegradab...
This paper deals with an experimental study on the mechanical properties of recycled polyethylene te...