Recycling of Polypropylene Fiber Reinforced Concrete

2nd International Conference on Civil, Structural and Transportation Engineering (ICCSTE'16), Ottawa, Kanada, 5 - 06 Mayıs 2016, ss.1-7

Yayın Türü: Bildiri / Tam Metin Bildiri
Basıldığı Şehir: Ottawa
Basıldığı Ülke: Kanada
Sayfa Sayıları: ss.1-7
Eskişehir Osmangazi Üniversitesi Adresli: Evet

Özet

Many studies are conducted on recycled aggregates. Besides, the use of fiber in concrete is getting more and more widespread. Recycling of fiber-reinforced concrete is important for the environment. This study deals with the recycling of polypropylene fiber-reinforced concrete. The objective of the study is to use recycled aggregates obtained from polypropylene fiber-reinforced concrete in new concrete applications. Since a large portion of the volume of concrete is composed of aggregates, first the aggregate characteristics were investigated. Eight types of fibers were used in the study. Each type of fiber was added into concrete mixtures at three different ratios. The fiber ratios were 600 g/m³, 1200 g/m³ and 1800 g/m³. So, 25 concrete mixtures were produced along with the mixture without fiber. All mixtures had the same water-cement ratio. Specimens had a diameter of 150 mm and a height of 300 mm. Their compressive strength ranged from 33.70 MPa to 45.17 MPa. Polypropylene fiber generally reduced the compressive strength of concrete. Specimens were crushed using a jaw crusher at the end of 120 days. From the crushing process, fiber-containing recycled aggregates were obtained with sizes of 0-4 mm, 7-15 mm and 16-22.4 mm. The sizes of pieces obtained from the crushing process declined as the amount of fiber increased. Fibers served as a bonding material, preventing the cement slurry from being scattered. Particularly, ribbed and hooked fibers were observed to have provided a better adherence with the cement slurry. Water absorption, freezing/thawing and impact strength properties of the aggregates were examined. The properties of aggregates used in the concrete mixture and of fiber-containing recycled aggregates were compared. Water absorption rate of fine aggregates ranged from 4.19% to 6.01%. As the size of fiber-containing recycled aggregates increased, their water absorption capacity increased as well. Weight losses after freezing and thawing varied between 7.1% and 8.2%. Weight losses after freezing and thawing increased. Impact strength of fiber-containing aggregates was approximately twice that of normal aggregates.