Global ETD Search

1	En jämförelsestudie mellan olika ljudisoleringsmaterial i träbjälklag ur ett miljöperspektiv / Comparative research between different sound insulation materials in timber floors from an environmental perspective Anwia Shlimon, Atrn, Al Jazar, Ahmed January 2019 (has links) Purpose: The building industry has a big environmental impact. The timber construction can reduce the impact of the industry because timber is an environmentally friendly material. One of the biggest problems with lightweight construction is sound insulation. The aim of this report is to study two floor construction with different sound insulation materials from an environmental perspective. The materials that will be studied in this report are sand and macadam. The aim of the report is to create a clear comparison between these floor layers and to suggest an improvement proposal. Method: The methods that have been used in the report are literature studies, life-cycle assessment, document analysis and interview. The LCA, document analysis and literature studies are the starting point, based on these methods, the first two questions in this paper will be answered. Using the interview was able to conduct information for the last question. Findings: This study has shown that sand has a less environmental impact than what macadam has. The improvement proposal that has been suggested in this study is using sawdust with sand as sound insulations layer. Decreasing the amount of sand in floors can have a positive effect on the environment. Implications: As a conclusion of this paper, it is proven that sand as a sound insulation material is more favorable for the environment than the macadam. The reason is caused by the process of extracting macadam. The process is more complicated and more energy demanding. Another conclusion is that reducing the amount of sand and replacing the missing amount with sawdust can reduce the environmental impact and increase the sound insulation ability. A recommendation for similar papers more abilities could be included in the analysis to provide a more including and fair result. Limitations: This paper is limited to investigate sound insulation materials combined with CLT-slabs exclusively. The methods which have been used provided relevant data to help this paper create conclusions. The goal was to create an all-around answer so that the result could be applicable in other analysis. Keywords: LCA, sand, macadam, lightweight construction, impact sound insulation, environment. LCA sand macadam lightweight construction impact sound insulation environment. LCA sand makadam träbyggnader stegljudsisolering miljö. Civil Engineering Samhällsbyggnadsteknik
2	Jämförelse av stegljudsisolering mellan tre olika bjälklagstyper / Comparison of the impact sound insulation between three different joist systems Wiktor Windblixt, Ida, Karlsson, Maria January 2019 (has links) I en byggnad kan ljud och vibrationer från steg spridas och dessa ljud kan störa de människor som vistas i byggnaden. Stegljudsisoleringsförmågan hos ett bjälklag beror på hur det är konstruerat och hur hög styvhet och massa bjälklaget har. I detta arbete undersöks stegljudsisoleringen hos tre bjälklagstyper. Dessa är monterade i befintliga byggnader, belägna i Växjö och ägda av fastighetsbolaget Videum. Syftet med arbetet var att undersöka vilket av de tre bjälklagstyperna som är bäst lämpat att ha i en kontors- eller universitetsbyggnad, med avseende på akustik. Vidare var syftet att undersöka vilket av dessa tre bjälklag som avskärmar stegljud i horisontalled mest effektivt. Målet med arbetet har varit att genomföra en standardiserad stegljudsmätning och en enkätundersökning för att kunna fastställa vilket av de undersökta bjälklagen som har bäst stegljudsisolering. Data från dessa undersökningar har analyserats och beräknats. Resultatet från stegljudsmätning och enkätundersökning visar att det bjälklag som avskärmar stegljud bäst är KL-träskiva med betongpågjutning. De undersökta bjälklagskonstruktionerna inklusive anslutningar till väggar är inte helt jämförbara och därför bör det nämnas att resultaten avser konstruktionslösningen som helhet och inte enbart själva bjälklaget. / Sound and vibration which originate from footsteps can spread in a building and may disturb the people who residence it. Ability to insulate impact sound varies depending on how the joists system is designed and how high its stiffness and mass are. In this thesis the impact sound insulation of three different joists systems will be examined. The joists systems are installed in existing buildings located in Växjö, Sweden and owned by the real estate company Videum. The purpose of the thesis was to examine which of the three different joists systems that is most suitable for office- and university buildings, concerning acoustics. Furthermore, the purpose was to examine which of the joists systems that has the best ability to sequester impact sound horizontally. The goal with the thesis was to perform a standardized impact sound insulation measurement and a survey to determine which of the joists systems that has the best impact sound insulation. All data was analyzed and calculated. The results show that the CLT board with a concrete layer reduces the impact sound most efficiently. However, it should be mentioned that the designs of the objects are not fully comparable and therefore the results relate to the entire design including the wall floor connection, rather than to the joists systems alone. Steel frame system of joists Prestressed hollow core slab CLT system of joists Impact sound insulation Stålregelsystem HD/f-bjälklag KL-träbjälklag Stegljudsisolering. Engineering and Technology Teknik och teknologier
3	Resíduos de poli (tereftalato de etileno) e de pneu na confecção de pisos flutuantes para o isolamento do ruído de impacto / Poly (ethylene-terephthalate) and tyre residues in floating floors for impact sound insulation CARVALHO, Maria Luiza de Ulhoa 21 August 2009 (has links) Made available in DSpace on 2014-07-29T15:01:51Z (GMT). No. of bitstreams: 1 dissertacao maria luiza.pdf: 3132447 bytes, checksum: e48de2cde6494677cafaf830a4ead4f5 (MD5) Previous issue date: 2009-08-21 / The demographic growth has created a gain in urban solid waste that deteriorates the citizen s quality of life. High buildings represent the main way for accommodations in big cities for these growing urban populations. However, impact sound insulation has shown itself quite poor. In order to propose an alternative way of minimization to the two problems, residue generation and impact noise, this study aimed to investigate the viability of using poly (ethylene-terephthalate) - PET and rubber tire residues for impact sound insulation in floating floors. Plates of 1 m² with thickness of 1.5 and 2.5 cm to 1:4 and 1:5 (ciment:residue) ratios were molded for the acoustic experiments, as well as portable mortar slabs covered with high and popular quality floor coverings. The main methods used were ISO 140-7 (1998) for measuring the standardized impact sound pressure level, L nT, in one-third-octave bands and ISO 717-2 (1996) to calculate the weighted standardized impact sound pressure level, L nT,w. Both residues presented high sound insulation in relation to their references. It was observed that the results for the PET specimen were superior to those of the rubber tires residue. However, the results among the residues presented different tendencies as their ratio changed. While the impact sound insulation of the rubber tires samples decreased with the increase of residue, PET samples presented more insulation with residue increase. Another observed factor was that the high quality floor covering presented a significant superior impact sound isolation compared to the popular floor covering. Considering all results, it is possible to conclude that the use of the studied residues in floating floors contributes to impact sound insulation / O crescimento demográfico mundial tem criado um aumento na geração de resíduos sólidos urbanos e deteriorado a qualidade de vida dos cidadãos. As edificações altas se apresentam como a principal forma de acomodação da crescente população nas cidades, no entanto, o conforto sonoro em relação ao ruído de impacto tem se mostrado precário. Com o intuito de propor uma alternativa de minimizar ambos os problemas, a geração de resíduos e o ruído de impacto, a presente pesquisa teve como principal objetivo estudar a viabilidade de uso dos resíduos de poli (tereftalato de etileno) - PET e do pneu inservível na confecção de pisos flutuantes no isolamento do ruído de impacto. Placas de 1 m² com traço 1:4 e 1:5 (cimento:resíduo) nas espessuras de 1,5 e 2,5 cm foram moldadas para realizar os ensaios acústicos, assim como placas de argamassa armada revestida com cerâmica popular e de alto padrão. As principais metodologias utilizadas foram a ISO 140-7 (1998) para obter o nível de pressão sonora de impacto padronizada por bandas de terças de oitavas, L nT, e a ISO 717-2 para ponderar o valor único do nível de pressão sonora de impacto padronizado e ponderado, L nT,w. Ambos resíduos apresentaram isolamento superior em relação às respectivas referências. Observou-se que o isolamento do ruído de impacto das amostras com PET foi superior às com pneu. No entanto, os resultados entre os resíduos apresentaram tendências diferentes com a mudança do traço. Enquanto que o isolamento das amostras do pneu decaiu com o acréscimo do resíduo, as amostras com PET tiveram um ganho maior com o aumento do resíduo. Outro fator observado foi que o contrapiso com cerâmica de alto padrão apresentou um efeito significativo do isolamento em relação à cerâmica popular. Em vista de todos os resultados pode se concluir que é viável a utilização dos resíduos estudados na confecção de pisos flutuantes para o isolamento do ruído de impacto resíduos PET pneu inservível isolamento do ruído de impacto edificações residues PET used tires impact sound insulation buildings
4	Correlation between measured and perceived impact sound in schools Burwall, Anton January 2022 (has links) This project investigated the correlation between measured impact sound insulation and perceived walking sound annoyance in schools. The correlation was tested by performing standardized impact sound insulation measurements for different floor structures and comparing the measurement results with subjective perception of recorded walking for the same floor structures. Subjective perception of walking sound was evaluated by performing listening tests based on the recorded walking sounds. Five structures were tested, four different CLT structures and one concrete structure. The objective was to determine the significance of the frequencies below 100 Hz for perceived walking sound annoyance and to investigate whether the inclusion of frequencies below 100 Hz in the evaluation of impact sound insulation would improv the correlation between measured and perceived impact sound. The results from the listening tests showed that the rated walking sound annoyance for the structures did not correlate to the structures’ measured impact sound insulation. For example, the structure with the worst impact sound insulation was not rated the worst from the listening tests. Improvements to the correlation between measured and perceived impact sound were seen when the impact sound insulation was evaluated from 25 Hz, but the correlation was still not fully satisfactory. Acoustics Impact sound Impact sound insulation Walking sound Walking sound annoyance Wood Cross-laminated timber CLT Schools Perception Civil Engineering Samhällsbyggnadsteknik Building Technologies Husbyggnad Materials Engineering Materialteknik Physical Sciences Fysik Mathematics Matematik
5	Predikce zvukoizolačních vlastností dělicích stavebních konstrukcí a zabezpečení akustické pohody v interiéru budov / PREDICTION SOUND INSULATION PROPERTIES DIVIDER BUILDING STRUCTURES AND SECURITY ACOUSTIC COMFORT INSIDE BUILDINGS Berková, Petra January 2013 (has links) This thesis deals with the properties of soundproof partition structures in the low-frequency sound at impact sound insulation and security of acoustic comfort inside buildings. The prediction of impact sound is a simulation laboratory measurements of impact sound. The work is based on the occurrence of frequent complaints of inhabitants of residential homes for subjectively poor impact sound insulation of horizontal dividing structures, whose top layer is formed laminate. Although these structures conform in terms of impact sound insulation in accordance with the requirements of CSN 73 0532: 2010, residents complain about the subjective perception of the sounds of lower frequencies. A noise with a distinctive character of sound at low frequencies has been proved by measuring the spectral analysis and evaluation of sound pressure levels caused by the movement of persons roof construction to the floor. On the measurement and evaluation carried out in accordance with the measurement and evaluation of noise in non-working environment can be related requirement under the Regulation No. 272/2011 Coll. "On the protection of health from the adverse effects of noise and vibration." Occupational noise limits for protected buildings interior space do not apply to noise from ordinary use of the apartment. Under current legislation, the problem is in the Czech Republic at present insoluble. Therefore, this work explores ways evaluation of impact sound and delivery is determined conclusions. With the low-frequency impact sound insulation is also related to the latter part of this dissertation, where the computing program ANSYS (version 14.0) is simulated laboratory measurements of impact sound insulation of the real structure. The paper presents the results of simulation, and the sound pressure level in the receiving room to třetinooktávového band 630 Hz. These results are compared with measured values modeled in the laboratory.

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