Bibliographic citations
Cevallos, C., Ninancuro, M. (2021). Evaluación del comportamiento Físico-mecánico de las unidades de ladrillo de concreto para albañilería, elaboradas con árido de residuos de construcción y demolición (R.C.D.) y cemento Pórtland tipo IP, fabricadas en la ciudad de Cusco [Universidad Andina del Cusco]. https://hdl.handle.net/20.500.12557/5262
Cevallos, C., Ninancuro, M. Evaluación del comportamiento Físico-mecánico de las unidades de ladrillo de concreto para albañilería, elaboradas con árido de residuos de construcción y demolición (R.C.D.) y cemento Pórtland tipo IP, fabricadas en la ciudad de Cusco []. PE: Universidad Andina del Cusco; 2021. https://hdl.handle.net/20.500.12557/5262
@misc{renati/959522,
title = "Evaluación del comportamiento Físico-mecánico de las unidades de ladrillo de concreto para albañilería, elaboradas con árido de residuos de construcción y demolición (R.C.D.) y cemento Pórtland tipo IP, fabricadas en la ciudad de Cusco",
author = "Ninancuro Calluco, Margareth Shirly",
publisher = "Universidad Andina del Cusco",
year = "2021"
}
This research was oriented at evaluating the physical-mechanical behavior of masonry concrete units made from aggregate of construction and demolition waste (CDW) and Portland cement type IP manufactured in the city of Cusco, contrasting the results with what is required for the classification of masonry units by the R.N.E. Technical Standard E.070 Masonry, (2006) to determine the capacities and means in which these can be used. First, a survey was conducted to the public functionaries e material dispatchers whose functions were related to the management of the CDW, then CDW samples were classified by the European protocol and local Peruvian regulations (solid waste law, handling and management) both before and after being processed. Being that a mortar design was being used, it was decided to use the CDW aggregate as a replacement for the fine aggregate in the mixture, for which the CDW aggregate was tested for moisture content, granulometry, Atterberg limits, specific gravity and absorption percentage from the fine aggregate. The supplies and materials for the mortar (cement, water and aggregate) of the masonry units were studied and analyzed prior to the mix design. After the mix design, 18-hole block-type masonry units were made with approximate dimensions of 23.3, 13.6 and 8.6cm in length, width and height respectively, poured with the calculated dosage, a total of 53 units were made because 3 of them were damaged in the demolding process. Of these, half of the units were destined for destructive tests as follows: 12 units to be tested to compressive strength in units, 4 units for each age of 7, 14 and 28 days, 4 units to be tested to modulus of rupture for an age of 28 days and finally 9 to be tested in piles of 3 units for the age of 28 days to compressive strength in piles in a complementary way to this research. The other half was destined for the non-destructive tests of dimensional variation, warpage, weight, absorption, maximum absorption, suction and percentage of voids. The results of the surveys indicate that of the public functionaries 90.91% of the total have a basic level of knowledge regarding the CDW, while the material dispatchers have a level between null and minimum 73.33% and 26.67% of the total respectively. The results obtained from the unprocessed RCD material indicate that within the samples there was a higher incidence (100% - present in all samples) and presence (55.75% in average quantity from the total sample) from Group A, composed by concrete, bricks, tiles and ceramic materials according to the European protocol, therefore it was the material chosen to be used, which means that the samples obtained from the processed RCD were made up of concrete, bricks, tiles and ceramic materials. Subsequently, when testing the material obtained to granulometry, it was determined that there is a coarse aggregate to fine aggregate ratio of approximately 4 to 1 (80.13% to 19.8% exactly), of which the material considered fine aggregate is the chosen to be used because it is a mortar design. Finally, from the results of the qualifying tests for the CDW units, it is obtained that the units made with CDW aggregate and Portland cement type IP comply with everything indicated by the R.N.E. Technical Standard E.070 Masonry (2006), for Block type P( 1): For the dimensional variation test, the results: +0.30% and -0.30% for the length, +0.77% and -0.70% for the width, +1.17% and -1.15% for the height comply in all the dimensions with the Technical Standard that indicates a dimensional variation of less than 2.0% from the dimension being evaluated. For the warpage test, the following results are obtained: for convexity 3.00 mm and for concavity 1.50 mm, so it is considered that the maximum warpage is 3.00 mm, complying with the Technical Standard that indicates warping less than 4.00 mm. For the characteristic compressive strength test at 28 days, it is obtained a value of 148.01 kg/cm2 for a group of 08 samples, complying with the Technical Standard that indicates at least 50.00 kg/cm2
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