DEVELOPMENT OF ONE-STEP FORM-FORMING TECHNOLOGY FOR SUBSTANTIALLY INCREASED SAFETY ASPECTS OF USE (Q83958): Difference between revisions
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(Removed claim: summary (P836): The aim of the project is to provide an innovative solution for the development of a technology for the anatomical production of tailored ballistic panels of fibrous materials, including different processing parameters, in a one-step thermal formation process.The project pathway will be carried out in three areas:(1) modelling of the shape of ballistic panels that minimise the physiological effects of the stroke & rest;product area (product ty...) |
(Created claim: summary (P836): The aim of the project is to provide an innovative solution in the development of technology for the production of anatomically matched hybrid ballistic plates from fibrous materials, including modified with different processing parameters, in a one-stage thermal forming process. The project path will be implemented in three areas: (1) Modeling the shape of ballistic plates to minimise the physiological effects of the stroke – product area...) |
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The aim of the project is to provide an innovative solution in the development of technology for the production of anatomically matched hybrid ballistic plates from fibrous materials, including modified with different processing parameters, in a one-stage thermal forming process. The project path will be implemented in three areas: (1) Modeling the shape of ballistic plates to minimise the physiological effects of the stroke – product area (product form concept); (2) ensure a permanent combination of fibrous ballistic materials characterised by different processing parameters responsible for the target performance in a one-step process (processing area), inter alia by: (a) The development, using atmospheric plasma, of nano or microlayers on the surface of fibrous ballistic materials (interlayers) and/or homogeneous ballistic composites, allowing for the permanent combination of different fibrous fibre materials and the formation of a variety of fibrous hybrid compositions, (b) designing and creating a demonstration process for the production of hybrid ballistic ballistic plates in fibrous fibrous fibres. (3) Raw material screening (raw material) consisting of the selection of fibrous ballistic materials. (English) | |||||||||||||||
| Property / summary: The aim of the project is to provide an innovative solution in the development of technology for the production of anatomically matched hybrid ballistic plates from fibrous materials, including modified with different processing parameters, in a one-stage thermal forming process. The project path will be implemented in three areas: (1) Modeling the shape of ballistic plates to minimise the physiological effects of the stroke – product area (product form concept); (2) ensure a permanent combination of fibrous ballistic materials characterised by different processing parameters responsible for the target performance in a one-step process (processing area), inter alia by: (a) The development, using atmospheric plasma, of nano or microlayers on the surface of fibrous ballistic materials (interlayers) and/or homogeneous ballistic composites, allowing for the permanent combination of different fibrous fibre materials and the formation of a variety of fibrous hybrid compositions, (b) designing and creating a demonstration process for the production of hybrid ballistic ballistic plates in fibrous fibrous fibres. (3) Raw material screening (raw material) consisting of the selection of fibrous ballistic materials. (English) / rank | |||||||||||||||
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| Property / summary: The aim of the project is to provide an innovative solution in the development of technology for the production of anatomically matched hybrid ballistic plates from fibrous materials, including modified with different processing parameters, in a one-stage thermal forming process. The project path will be implemented in three areas: (1) Modeling the shape of ballistic plates to minimise the physiological effects of the stroke – product area (product form concept); (2) ensure a permanent combination of fibrous ballistic materials characterised by different processing parameters responsible for the target performance in a one-step process (processing area), inter alia by: (a) The development, using atmospheric plasma, of nano or microlayers on the surface of fibrous ballistic materials (interlayers) and/or homogeneous ballistic composites, allowing for the permanent combination of different fibrous fibre materials and the formation of a variety of fibrous hybrid compositions, (b) designing and creating a demonstration process for the production of hybrid ballistic ballistic plates in fibrous fibrous fibres. (3) Raw material screening (raw material) consisting of the selection of fibrous ballistic materials. (English) / qualifier | |||||||||||||||
point in time: 14 October 2020
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Revision as of 14:26, 14 October 2020
Project in Poland financed by DG Regio
| Language | Label | Description | Also known as |
|---|---|---|---|
| English | DEVELOPMENT OF ONE-STEP FORM-FORMING TECHNOLOGY FOR SUBSTANTIALLY INCREASED SAFETY ASPECTS OF USE |
Project in Poland financed by DG Regio |
Statements
1,957,763.55 zloty
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2,396,237.55 zloty
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81.7 percent
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1 January 2018
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31 December 2020
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INSTYTUT TECHNOLOGII BEZPIECZEŃSTWA „MORATEX”
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Celem projektu jest dostarczenie, innowacyjnego rozwiązania w zakresie opracowania technologii wytwarzania anatomicznie dopasowanych hybrydowych płyt balistycznych z materiałów włóknistych, w tym modyfikowanych o różnych parametrach przetwórczych, w jednoetapowym procesie formowania termicznego. Ścieżka projektowa będzie realizowania w trzech obszarach: (1) modelowania kształtu płyt balistycznych minimalizujących fizjologiczne skutki udaru – obszar produktowy (koncepcja formy produktowej); (2) zapewnienia trwałego połączenia włóknistych materiałów balistycznych charakteryzujących się różnymi parametrami przetwórczymi odpowiedzialnymi za docelowe właściwości użytkowe, w jednoetapowym procesie (obszar procesowy), m. in. poprzez: (a) opracowanie, przy wykorzystaniu plazmy atmosferycznej typoszeregów nano- lub mikrowarstw na powierzchni włóknistych materiałów balistycznych (interwarstw) lub/i jednorodnych kompozytów balistycznych, pozwalających na trwałe łączenia różnych materiałów włóknistych oraz formowanie różnorodnych włóknistych kompozycji hybrydowych, (b) zaprojektowanie i wytworzenie demonstracyjnej linii technologicznej umożliwiającej wytwarzanie hybrydowych płyt balistycznych z włóknistych materiałów balistycznych o różnych parametrach przetwórczych, w jednoetapowym procesie formowania termicznego. (3) screeningu surowcowego (obszar surowcowy), polegającej na wytypowaniu włóknistych materiałów balistycznych. (Polish)
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The aim of the project is to provide an innovative solution in the development of technology for the production of anatomically matched hybrid ballistic plates from fibrous materials, including modified with different processing parameters, in a one-stage thermal forming process. The project path will be implemented in three areas: (1) Modeling the shape of ballistic plates to minimise the physiological effects of the stroke – product area (product form concept); (2) ensure a permanent combination of fibrous ballistic materials characterised by different processing parameters responsible for the target performance in a one-step process (processing area), inter alia by: (a) The development, using atmospheric plasma, of nano or microlayers on the surface of fibrous ballistic materials (interlayers) and/or homogeneous ballistic composites, allowing for the permanent combination of different fibrous fibre materials and the formation of a variety of fibrous hybrid compositions, (b) designing and creating a demonstration process for the production of hybrid ballistic ballistic plates in fibrous fibrous fibres. (3) Raw material screening (raw material) consisting of the selection of fibrous ballistic materials. (English)
14 October 2020
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Identifiers
POIR.04.01.02-00-0028/17
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