Q2687222 (Q2687222): Difference between revisions
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(Created claim: summary (P836): SA 42799(2015/X) The aim of the project is to develop compositions and production technology on a laboratory scale and to start the production of a new, own product – i.e. a material with reduced lead content and lead-free material with a value that weakens X-radiation in variants equivalent to lead layers from 0.125 mm to 0.5 mmPb (according to. PN-EN 61331-1:2015). The final product will be a prototype of a protective elastomeric composite wit...) |
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SA 42799(2015/X) The aim of the project is to develop compositions and production technology on a laboratory scale and to start the production of a new, own product – i.e. a material with reduced lead content and lead-free material with a value that weakens X-radiation in variants equivalent to lead layers from 0.125 mm to 0.5 mmPb (according to. PN-EN 61331-1:2015). The final product will be a prototype of a protective elastomeric composite with reduced lead and lead-free content. This prototype will be produced with the participation of an external company, based on the material composition proposed in the project on the basis of conducted simulations and experimental studies. The new product will be able to be offered as the main raw material to companies in Poland and abroad, which deal with the packaging of personal shields, which will translate into the possibility of developing final products and improving the safety of patients and the work of medical staff by reducing exposure to X-rays. The new product will take into account the conclusions and comments of existing users – examination of needs in the form of a survey and evaluation of the prototype. The new protective material will be characterised by appropriate strength properties, improved resistance to ageing processes, the possibility of thermal decontamination, improved bacteriostatic properties, and the characteristic rubber smell will be eliminated/neutralised. The result of the project will be technical documentation and prototype series of protective materials tested in accordance with standards PN-EN 61331-1:2015, 61331-3:2015, PN-ISO-37, PN-ISO-34. The development of a new material will contribute to the reduction and elimination of lead, which will directly improve the safety of use and will have a beneficial impact on the environment. The new product will also be the basis for the start of production/packaging of personal protective clothing and patient covers by the Applicant. (English) | |||||||||||||||
| Property / summary: SA 42799(2015/X) The aim of the project is to develop compositions and production technology on a laboratory scale and to start the production of a new, own product – i.e. a material with reduced lead content and lead-free material with a value that weakens X-radiation in variants equivalent to lead layers from 0.125 mm to 0.5 mmPb (according to. PN-EN 61331-1:2015). The final product will be a prototype of a protective elastomeric composite with reduced lead and lead-free content. This prototype will be produced with the participation of an external company, based on the material composition proposed in the project on the basis of conducted simulations and experimental studies. The new product will be able to be offered as the main raw material to companies in Poland and abroad, which deal with the packaging of personal shields, which will translate into the possibility of developing final products and improving the safety of patients and the work of medical staff by reducing exposure to X-rays. The new product will take into account the conclusions and comments of existing users – examination of needs in the form of a survey and evaluation of the prototype. The new protective material will be characterised by appropriate strength properties, improved resistance to ageing processes, the possibility of thermal decontamination, improved bacteriostatic properties, and the characteristic rubber smell will be eliminated/neutralised. The result of the project will be technical documentation and prototype series of protective materials tested in accordance with standards PN-EN 61331-1:2015, 61331-3:2015, PN-ISO-37, PN-ISO-34. The development of a new material will contribute to the reduction and elimination of lead, which will directly improve the safety of use and will have a beneficial impact on the environment. The new product will also be the basis for the start of production/packaging of personal protective clothing and patient covers by the Applicant. (English) / rank | |||||||||||||||
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| Property / summary: SA 42799(2015/X) The aim of the project is to develop compositions and production technology on a laboratory scale and to start the production of a new, own product – i.e. a material with reduced lead content and lead-free material with a value that weakens X-radiation in variants equivalent to lead layers from 0.125 mm to 0.5 mmPb (according to. PN-EN 61331-1:2015). The final product will be a prototype of a protective elastomeric composite with reduced lead and lead-free content. This prototype will be produced with the participation of an external company, based on the material composition proposed in the project on the basis of conducted simulations and experimental studies. The new product will be able to be offered as the main raw material to companies in Poland and abroad, which deal with the packaging of personal shields, which will translate into the possibility of developing final products and improving the safety of patients and the work of medical staff by reducing exposure to X-rays. The new product will take into account the conclusions and comments of existing users – examination of needs in the form of a survey and evaluation of the prototype. The new protective material will be characterised by appropriate strength properties, improved resistance to ageing processes, the possibility of thermal decontamination, improved bacteriostatic properties, and the characteristic rubber smell will be eliminated/neutralised. The result of the project will be technical documentation and prototype series of protective materials tested in accordance with standards PN-EN 61331-1:2015, 61331-3:2015, PN-ISO-37, PN-ISO-34. The development of a new material will contribute to the reduction and elimination of lead, which will directly improve the safety of use and will have a beneficial impact on the environment. The new product will also be the basis for the start of production/packaging of personal protective clothing and patient covers by the Applicant. (English) / qualifier | |||||||||||||||
point in time: 7 July 2021
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Revision as of 12:31, 7 July 2021
Project Q2687222 in Poland
| Language | Label | Description | Also known as |
|---|---|---|---|
| English | No label defined |
Project Q2687222 in Poland |
Statements
154,528.0 zloty
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320,000.0 zloty
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48.29 percent
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1 April 2021
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20 May 2022
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EMPIREUM PIOTR DOPIERALSKI
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52°22'36.1"N, 20°55'4.1"E
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SA 42799(2015/X) Celem realizacji projektu jest opracowanie składów oraz technologii wytwarzania w skali laboratoryjnej i rozpoczęcie wytwarzania nowego, własnego wyrobu - tj. materiału o obniżonej zawartości ołowiu oraz materiału bezołowiowego o wartości osłabiającej promieniowanie X w wariantach równoważnych warstwom ołowiu od 0,125 mm do 0,5 mmPb (wg. PN-EN 61331-1:2015). Produktem finalnym będzie prototyp ochronnego kompozytu elastomerowego o obniżonej zawartości ołowiu oraz bezołowiowego. Prototyp ten, zostanie wytworzony przy udziale firmy zewnętrznej, w oparciu o skład materiałowy zaproponowany w projekcie na podstawie przeprowadzonych symulacji i badań eksperymentalnych.Nowy produkt będzie mógł być oferowany jako główny surowiec firmom w kraju i zagranicą, które zajmują się konfekcjonowaniem osłon osobistych, co przełoży się na możliwość rozwoju produktów finalnych i poprawę bezpieczeństwa pacjentów i pracy personelu medycznego poprzez zmniejszenie ekspozycji na promieniowanie rentgenowskie. W nowym wyrobie będą uwzględnione wnioski i uwagi dotychczasowych użytkowników – badanie potrzeb w formie ankiety i ocena prototypu.Nowy materiał ochronny będzie charakteryzował odpowiednimi właściwościami wytrzymałościowymi, poprawioną odpornością na procesy starzeniowe, możliwością dekontaminacji termicznej, polepszoną właściwością bakteriostatyczną oraz wyeliminowany/zneutralizowany będzie charakterystyczny zapach gumowy. Rezultatem projektu będzie dokumentacja techniczna i seria prototypowa materiałów ochronnych przebadana zgodnie z normami PN-EN 61331-1:2015, 61331-3:2015, PN-ISO-37, PN-ISO-34. Opracowanie nowego materiału przyczyni się do zmniejszenia zawartości i wyeliminowania ołowiu co bezpośrednio przełoży się na poprawę bezpieczeństwa użytkowania i będzie miało korzystny wpływ na środowisko. Nowy produkt będzie również stanowił bazę do rozpoczęcia produkcji/konfekcjonowania własnych osłon osobistych - odzieży ochronnej i osłon pacjenta przez Wnioskodawcę. (Polish)
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SA 42799(2015/X) The aim of the project is to develop compositions and production technology on a laboratory scale and to start the production of a new, own product – i.e. a material with reduced lead content and lead-free material with a value that weakens X-radiation in variants equivalent to lead layers from 0.125 mm to 0.5 mmPb (according to. PN-EN 61331-1:2015). The final product will be a prototype of a protective elastomeric composite with reduced lead and lead-free content. This prototype will be produced with the participation of an external company, based on the material composition proposed in the project on the basis of conducted simulations and experimental studies. The new product will be able to be offered as the main raw material to companies in Poland and abroad, which deal with the packaging of personal shields, which will translate into the possibility of developing final products and improving the safety of patients and the work of medical staff by reducing exposure to X-rays. The new product will take into account the conclusions and comments of existing users – examination of needs in the form of a survey and evaluation of the prototype. The new protective material will be characterised by appropriate strength properties, improved resistance to ageing processes, the possibility of thermal decontamination, improved bacteriostatic properties, and the characteristic rubber smell will be eliminated/neutralised. The result of the project will be technical documentation and prototype series of protective materials tested in accordance with standards PN-EN 61331-1:2015, 61331-3:2015, PN-ISO-37, PN-ISO-34. The development of a new material will contribute to the reduction and elimination of lead, which will directly improve the safety of use and will have a beneficial impact on the environment. The new product will also be the basis for the start of production/packaging of personal protective clothing and patient covers by the Applicant. (English)
7 July 2021
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Identifiers
POIR.02.03.02-14-0173/20
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