Bibliographic citations
Apaza, J., Lucana, J. (2023). Análisis comparativo de la conductividad térmica, absorción acústica y propiedades mecánicas de las placas Tectan en base a residuos reciclados de Tetrabrik y placas de yeso, de 9.5 mm y 12.7 mm de espesor utilizadas en tabiquería interior: estudio realizado en la ciudad del Cusco, 2023 [Universidad Andina del Cusco]. https://hdl.handle.net/20.500.12557/5870
Apaza, J., Lucana, J. Análisis comparativo de la conductividad térmica, absorción acústica y propiedades mecánicas de las placas Tectan en base a residuos reciclados de Tetrabrik y placas de yeso, de 9.5 mm y 12.7 mm de espesor utilizadas en tabiquería interior: estudio realizado en la ciudad del Cusco, 2023 []. PE: Universidad Andina del Cusco; 2023. https://hdl.handle.net/20.500.12557/5870
@misc{renati/958866,
title = "Análisis comparativo de la conductividad térmica, absorción acústica y propiedades mecánicas de las placas Tectan en base a residuos reciclados de Tetrabrik y placas de yeso, de 9.5 mm y 12.7 mm de espesor utilizadas en tabiquería interior: estudio realizado en la ciudad del Cusco, 2023",
author = "Lucana Riquelme, Jean David",
publisher = "Universidad Andina del Cusco",
year = "2023"
}
The research is called “Comparative analysis of the thermal conductivity, acoustic absorption and mechanical properties of Tectan plates based on recycled Tetrabrik waste and plasterboard, 9.5 mm and 12.7 mm thick used in interior partitioning: study carried out in the city of cusco, 2023”. Taking into account the growing use of the Drywall construction system, which is composed of fiber cement and plaster, being widely applied for its high durability, thermal insulation and ease of installation, this work seeks an alternative partitioning made from recycling inorganic waste, with the aim of developing a material that has similar or even superior characteristics to the previously mentioned system. In this research work, the use of Tetrabrik containers, which is an inorganic waste, as a material for the manufacture of partition walls, is proposed, taking advantage of the recycling of inorganic waste with construction fines, for which the physical properties (acoustic absorption and thermal conductivity) and mechanical properties (MOR and thickness variation under the action of a compression load) of the Tectan plates, which were obtained through various processes. The research methodology used was: Hypothetical Deductive, quantitative approach, descriptive research level, according to the experimental design. The plates were handcrafted with two specific thickness measurements, 9.5mm and 12.7 mm thick. Specific molds were used during the manufacturing process of the Tectan plates. The plates were evaluated through tests to analyze the conductivity properties. . thermal, acoustic absorption, modulus of rupture and thickness variation under the action of a compression load. To carry out the tests, German (DIN) and American (ASTM) standards were used. The tests on the corresponding samples will be those mentioned below: thermal conductivity (ASTM C177-13), modulus of rupture (DIN – 52362) and thickness variation under the action of a compression load (DIN – 53291). Ultimately, comparisons were made of the results of the aforementioned tests between Tectan boards and gypsum boards, the results demonstrated favorably that the performance of Tectan boards made from recycling inorganic waste, in the Various tests carried out outperformed the traditional gypsum boards used in the Drywall system, complying with the parameters established in the referenced standard.
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