Abstract
Occupancy, particularly in urban areas, requires more space than ever. Space constraints need erection of high rise buildings in place of short height buildings. This need demolishing of old structures which creates huge quantities of demolished concrete. One of its best disposals is its use in new concrete. Therefore, this research work uses 50% replacement of natural coarse aggregates with coarse aggregates from old concrete to study the flexural stress-strain behavior of reinforced concrete beams. Total of 12 reinforced concrete beams (900x150x150 mm) were cast with 2#4 bars in tension and 2#4 bars in compression zones. Ordinary Portland cement with hill sand and crush aggregate was used in 1:2:4 proportions. Water cement ratio used is 0.54. The beams were cast in two batches, one with 100% natural aggregates and another with 50% natural coarse aggregates replaced with coarse aggregates from old concrete. In each batch 3 beams were cured for 7 and 28 days respectively. After curing all beams were tested with central point load. The beams were monitored at regular intervals for load, displacement, strain and load until first crack. The beams under study were compared with the controlled specimen. The results were in good agreement with the normal concrete specimen. Maximum reduction in flexural stress is recorded as 8.8% for 7-day cured beams and 5.52% for 28-day cured specimen. Thus, the use of coarse aggregates from demolished concrete in new concrete is proved to be promising partial replacement of coarse aggregate in terms of flexural stress-strain relationship.
Highlights
Migration from rural areas to city centers due to attractive opportunities of jobs and living style has posed a serious problem of accommodation around the globe
Peak values of maximum load, deflection, flexural stress, strain and load at which first crack appeared are given in Table I for beams made with 50% RCA (7-day curing) and Table III presents the same for beams made with all-natural aggregates
This research paper presents experimental evaluation of reinforced concrete beams made with 50% replacement of natural coarse aggregates with coarse aggregates from old concrete
Summary
Migration from rural areas to city centers due to attractive opportunities of jobs and living style has posed a serious problem of accommodation around the globe. One way of dealing this waste is by making use of it in new construction as whole or partial replacement of ingredients of new concrete. This will reduce the problem of waste management and will help in saving the natural aggregates. Construction industry still has reservations on using recycled aggregates mainly due to doubts related to recycling methods, cost, machinery used in the process and the confidence in finished product It is improving with time as research provides good insight of the use of such materials from different angles. In this research paper, flexural stress-strain behavior of reinforced concrete beams made by using coarse aggregates from old concrete as partial replacement of coarse aggregates is studied. Obtained results are analyzed and presented in both tabular and graphical form
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