Bibliographic citations
Corrales, M., (2015). Evaluación de la fisura en losas de concreto en laboratorio y en losas aligeradas de las obras “Residencial Micaela“ y “Residencial Leonardo Da Vinci“ utilizando acero de temperatura y fibra de polipropileno. [Tesis, Universidad Andina del Cusco]. https://hdl.handle.net/20.500.12557/84
Corrales, M., Evaluación de la fisura en losas de concreto en laboratorio y en losas aligeradas de las obras “Residencial Micaela“ y “Residencial Leonardo Da Vinci“ utilizando acero de temperatura y fibra de polipropileno. [Tesis]. : Universidad Andina del Cusco; 2015. https://hdl.handle.net/20.500.12557/84
@misc{renati/24401,
title = "Evaluación de la fisura en losas de concreto en laboratorio y en losas aligeradas de las obras “Residencial Micaela“ y “Residencial Leonardo Da Vinci“ utilizando acero de temperatura y fibra de polipropileno.",
author = "Corrales Enríquez, Mirsha Teresa",
publisher = "Universidad Andina del Cusco",
year = "2015"
}
The present study aims to determine the differences seen in the cracking of concrete slabs produced in the laboratory and on site, using steel and polypropylene fiber temperature in different proportions. Firstly in the laboratory, the physical and mechanical properties were determined aggregates used for the preparation of concrete f’c=210 kg/cm2, was used portland cement IP, multifilament polypropylene fiber presenting 600 kg. Fiber placement different proportions to the same concrete was determined in 3; concrete with 600 gr / m3 (polypropylene fiber weight in grams per cubic meter of concrete), concrete with 900 gr / m3 and concrete with 1200 gr / m3, for making molds of study; plus an additional group corresponding to concrete pattern (concrete without fiber). Concrete each group of 10 samples were prepared dimensions 0.55x0.55x0.05 m, making a total of 40 samples by observation techniques and the appearance of cracks and development was determined from 24 hours after placement, corresponding to state plastic concrete. Also for testing cylindrical compressive strength of concrete for each group (concrete without fiber, with 1 bag, bag with 1½ and 2 bags of fiber) specimens were prepared; three witnesses were prepared for each sample, totaling 240 samples to be tested at 7 and 28 days, also slump test was performed for each case. Analysis of the results of laboratory samples it is concluded that the samples with 1200 g / m3 provide better results regarding controlling the occurrence of cracks; polypropylene fibers by incorporating into the concrete does not increase and does not decrease the compressive strength, but significantly influences the workability of concrete. The polypropylene fiber may replace the mesh temperature is intended to absorb the stresses that occur during setting of the concrete; however it will not replace major steel reinforcements obtained from a calculation.
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