Novel insulation technology for sound flooring (Q83946): Difference between revisions
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(Removed claim: summary (P836): This research project is a response to the need to ensure that housing and public amenities for impact sound sound sound pressure and vibrations from both internal and transport vibrations are used in housing construction.A common solution to reduce noise from impact sound noise or to promote lower levels of impact on higher levels and to limit the impact of vibration on people receiving vibration in buildings passively is an insulating and vi...) |
(Created claim: summary (P836): This research project responds to the need to ensure comfort of room use in housing and public utility facilities in the field of shock sound acoustics and vibrations from both internal sources and transport vibrations. A common solution for reducing noise from shock sounds or propagating from lower floors to higher levels and limiting the impact of vibrations on people who receive vibrations in buildings in a passive way is a floor isolating bo...) |
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This research project responds to the need to ensure comfort of room use in housing and public utility facilities in the field of shock sound acoustics and vibrations from both internal sources and transport vibrations. A common solution for reducing noise from shock sounds or propagating from lower floors to higher levels and limiting the impact of vibrations on people who receive vibrations in buildings in a passive way is a floor isolating both acoustically and vibrately. The floor system should therefore be capable of dampening vibrations in the range of up to 100 Hz and be characterised by acoustic isolation of min. deltaLw=25dB. The basic element of the system will be TINES materials already operating on the market as subtrack Wibroizolation mats. The composition of the insulation materials from TINES and their material parameters will be selected in such a way that acoustic and vibration protection can be optimised. At the same time, the soundproofing and vibrating flooring system should have all functional features, which have an ordinary floor, e.g. ease of installation and appropriate rigidity The result of the project will be to propose to a potential customer a system of floors that can be applied on wooden and reinforced concrete ceilings. Depending on the type of floor, a floor variant will be proposed, together with guidelines for its applicability. The objective will be achieved by: laboratory measurements of material properties of basic system components, numerical analysis of floor systems selected in laboratory measurements, polygon testing of selected floor systems for a specially designed test bench, testing „in-situ” (cooperation agreement with the school concerned). (English) | |||||||||||||||
Property / summary: This research project responds to the need to ensure comfort of room use in housing and public utility facilities in the field of shock sound acoustics and vibrations from both internal sources and transport vibrations. A common solution for reducing noise from shock sounds or propagating from lower floors to higher levels and limiting the impact of vibrations on people who receive vibrations in buildings in a passive way is a floor isolating both acoustically and vibrately. The floor system should therefore be capable of dampening vibrations in the range of up to 100 Hz and be characterised by acoustic isolation of min. deltaLw=25dB. The basic element of the system will be TINES materials already operating on the market as subtrack Wibroizolation mats. The composition of the insulation materials from TINES and their material parameters will be selected in such a way that acoustic and vibration protection can be optimised. At the same time, the soundproofing and vibrating flooring system should have all functional features, which have an ordinary floor, e.g. ease of installation and appropriate rigidity The result of the project will be to propose to a potential customer a system of floors that can be applied on wooden and reinforced concrete ceilings. Depending on the type of floor, a floor variant will be proposed, together with guidelines for its applicability. The objective will be achieved by: laboratory measurements of material properties of basic system components, numerical analysis of floor systems selected in laboratory measurements, polygon testing of selected floor systems for a specially designed test bench, testing „in-situ” (cooperation agreement with the school concerned). (English) / rank | |||||||||||||||
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Property / summary: This research project responds to the need to ensure comfort of room use in housing and public utility facilities in the field of shock sound acoustics and vibrations from both internal sources and transport vibrations. A common solution for reducing noise from shock sounds or propagating from lower floors to higher levels and limiting the impact of vibrations on people who receive vibrations in buildings in a passive way is a floor isolating both acoustically and vibrately. The floor system should therefore be capable of dampening vibrations in the range of up to 100 Hz and be characterised by acoustic isolation of min. deltaLw=25dB. The basic element of the system will be TINES materials already operating on the market as subtrack Wibroizolation mats. The composition of the insulation materials from TINES and their material parameters will be selected in such a way that acoustic and vibration protection can be optimised. At the same time, the soundproofing and vibrating flooring system should have all functional features, which have an ordinary floor, e.g. ease of installation and appropriate rigidity The result of the project will be to propose to a potential customer a system of floors that can be applied on wooden and reinforced concrete ceilings. Depending on the type of floor, a floor variant will be proposed, together with guidelines for its applicability. The objective will be achieved by: laboratory measurements of material properties of basic system components, numerical analysis of floor systems selected in laboratory measurements, polygon testing of selected floor systems for a specially designed test bench, testing „in-situ” (cooperation agreement with the school concerned). (English) / qualifier | |||||||||||||||
point in time: 14 October 2020
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Revision as of 14:25, 14 October 2020
Project in Poland financed by DG Regio
Language | Label | Description | Also known as |
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English | Novel insulation technology for sound flooring |
Project in Poland financed by DG Regio |
Statements
2,487,778.44 zloty
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3,336,300.15 zloty
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74.57 percent
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1 January 2018
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30 November 2020
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POLITECHNIKA KRAKOWSKA IM. TADEUSZA KOŚCIUSZKI - AKADEMICKI INKUBATOR PRZEDSIĘBIORCZOŚCI
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Niniejszy projekt badawczy jest odpowiedzią na potrzebę zapewnienia w budownictwie mieszkaniowym oraz w obiektach użyteczności publicznej komfortu użytkowania pomieszczeń w zakresie akustyki dźwięków uderzeniowych oraz w zakresie drgań pochodzących zarówno od źródeł wewnętrznych jak i od drgań transportowych. Wspólnym rozwiązaniem ograniczenia hałasu pochodzącego od dźwięków uderzeniowych lub propagującego się z niższych kondygnacji na wyższe oraz ograniczenia wpływu drgań na ludzi odbierających drgania w budynkach w sposób bierny jest system podłogowy izolujący zarówno akustycznie jak i wibracyjnie. System podłogowy powinien zatem posiadać możliwość tłumienia drgań w zakresie do 100 Hz oraz odznaczać się izolacyjnościa akustyczną min. deltaLw=25dB. Podstawowym elementem systemu będą materiały firmy TINES funkcjonujące już na rynku jako maty wibroizolacyjne podtorowe. Skład materiałów wibroizolacyjnych firmy TINES oraz ich parametry materiałowe zostaną, tak dobrane aby możliwe było zoptymalizowanie ochrony akustycznej i przeciw drganiowej. Jednocześnie system podłóg izolujących akustycznie i wibracyjnie powinien posiadać wszelkie cechy funkcjonalne, które posiada zwykła podłoga m.in. łatwość montażu i odpowiednią sztywność Efektem projektu będzie zaproponowanie potencjalnemu odbiorcy systemu podłóg możliwego do aplikacji na stropach drewnianych oraz żelbetowych. W zależności od rodzaju stropu zostanie zaproponowany wariant podłogi wraz z wytycznymi jej stosowalności. Cel zostanie osiągnięty poprzez: pomiary laboratoryjne własności materiałowych podstawowych elementów systemu, analizę numeryczną wyselekcjonowanych w pomiarach laboratoryjnych systemów podłóg, badania poligonowe wybranych systemów podłóg na specjalnie do tego celu przeznaczonym stanowisku badawczym, badania „in-situ” (umowa o współpracy z zainteresowaną szkołą). (Polish)
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This research project responds to the need to ensure comfort of room use in housing and public utility facilities in the field of shock sound acoustics and vibrations from both internal sources and transport vibrations. A common solution for reducing noise from shock sounds or propagating from lower floors to higher levels and limiting the impact of vibrations on people who receive vibrations in buildings in a passive way is a floor isolating both acoustically and vibrately. The floor system should therefore be capable of dampening vibrations in the range of up to 100 Hz and be characterised by acoustic isolation of min. deltaLw=25dB. The basic element of the system will be TINES materials already operating on the market as subtrack Wibroizolation mats. The composition of the insulation materials from TINES and their material parameters will be selected in such a way that acoustic and vibration protection can be optimised. At the same time, the soundproofing and vibrating flooring system should have all functional features, which have an ordinary floor, e.g. ease of installation and appropriate rigidity The result of the project will be to propose to a potential customer a system of floors that can be applied on wooden and reinforced concrete ceilings. Depending on the type of floor, a floor variant will be proposed, together with guidelines for its applicability. The objective will be achieved by: laboratory measurements of material properties of basic system components, numerical analysis of floor systems selected in laboratory measurements, polygon testing of selected floor systems for a specially designed test bench, testing „in-situ” (cooperation agreement with the school concerned). (English)
14 October 2020
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Identifiers
POIR.04.01.02-00-0016/17
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