Litcius/Paper detail

Improvement in Bending Performance of Reinforced Concrete Beams Produced with Waste Lathe Scraps

Memduh Karalar, Yasin Onuralp Özkılıç, Ahmed Farouk Deifalla, Ceyhun Aksoylu, Musa Hakan Arslan, Mahmood Ahmad, Mohanad Muayad Sabri Sabri

2022Sustainability68 citationsDOIOpen Access PDF

Abstract

In this study, the impacts of different proportions of tension reinforcement and waste lathe scraps on the failure and bending behavior of reinforced concrete beams (RCBs) are clearly detected considering empirical tests. Firstly, material strength and consistency test and then ½ scaled beam test have been carried out. For this purpose, a total of 12 specimens were produced in the laboratory and then tested to examine the failure mechanism under flexure. Two variables have been selected in creating text matrix. These are the longitudinal tension reinforcement ratio in beams (three different level) and volumetric ratio of waste lathe scraps (four different level: 0%, 1%, 2% and 3%). The produced simply supported beams were subjected to a two-point bending test. To prevent shear failure, sufficient stirrups have been used. Thus, a change in the bending behavior was observed during each test. With the addition of 1%, 2% and 3% waste lathe scraps, compressive strength escalated by 11.2%, 21.7% and 32.5%, respectively, compared to concrete without waste. According to slump test results, as the waste lathe scraps proportion in the concrete mixture is increased, the concrete consistency diminishes. Apart from the material tests, the following results were obtained from the tests performed on the beams. It is detected that with the addition of lathe waste, the mechanical features of beams improved. It is observed that different proportions of tension reinforcement and waste lathe scraps had different failure and bending impacts on the RCBs. While there was no significant change in stiffness and strength, ductility increased considerably with the addition of lathe waste.

Topics & Concepts

BendingBeam (structure)ReinforcementStructural engineeringTension (geology)Ductility (Earth science)SlumpMaterials scienceConsistency (knowledge bases)ShrinkageFlexural strengthStiffnessComposite materialCompressive strengthEngineeringUltimate tensile strengthCreepMathematicsGeometryStructural Behavior of Reinforced ConcreteInnovative concrete reinforcement materialsRecycled Aggregate Concrete Performance