DEVELOPMENT OF ONE-STEP FORM-FORMING TECHNOLOGY FOR SUBSTANTIALLY INCREASED SAFETY ASPECTS OF USE (Q83958): Difference between revisions

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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Identifiers

Polish Kohesio ID

POIR.04.01.02-00-0028/17

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Revision as of 00:33, 25 September 2020 DG Regio (talk \| contribs) (‎Changed an Item: Fixing rounding issue) ← Older edit		Revision as of 14:26, 14 October 2020 DG Regio (talk \| contribs) (‎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...) Newer edit →
Property / summary
	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 type concept);(2) ensuring a sustainable connection of ballistic fibrous materials with different processing parameters responsible for performance targets, in a one-step process (process area), including by:(a) to develop, with the use of the plasma of the atmospheric typology, the types of nanoparticles or micro-arrays being used on the surface of ballistic missile (interlayers) or/or of homogeneous ballistic composites, allowing for a permanent connection between different fibrous materials and the formation of a variety of hybrid fibrous compositions, (b) the design and production of a demonstration line of technology for the production of a range of material which is capable of producing a combination of ballistic based ballistic panels with different processing parameters, in a one-step thermal formation process.(3) Raw materials (raw materials), consisting of the designation of ballistic fibrous materials. (English)
Property / summary: 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 type concept);(2) ensuring a sustainable connection of ballistic fibrous materials with different processing parameters responsible for performance targets, in a one-step process (process area), including by:(a) to develop, with the use of the plasma of the atmospheric typology, the types of nanoparticles or micro-arrays being used on the surface of ballistic missile (interlayers) or/or of homogeneous ballistic composites, allowing for a permanent connection between different fibrous materials and the formation of a variety of hybrid fibrous compositions, (b) the design and production of a demonstration line of technology for the production of a range of material which is capable of producing a combination of ballistic based ballistic panels with different processing parameters, in a one-step thermal formation process.(3) Raw materials (raw materials), consisting of the designation of ballistic fibrous materials. (English) / rank
	~~Normal rank~~

DEVELOPMENT OF ONE-STEP FORM-FORMING TECHNOLOGY FOR SUBSTANTIALLY INCREASED SAFETY ASPECTS OF USE (Q83958): Difference between revisions

Revision as of 14:26, 14 October 2020

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