Ortho3D (Q10155): Difference between revisions
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(Removed claim: summary (P836): The project aims at identifying optimal processes, design and modelling of the internal structures of orthopaedic, oncological and trauma implants by 3D printing of bio-compatible titanium alloys, i.e. as a means to develop new approaches to moderate the aforementioned compensations, to use programmable tuthoi and tethers without limitations due to the currently used conventional modes of production., remove_old_english_translation) |
(Created claim: summary (P836): The project is focused on finding optimal procedures, designs and modelling of internal structures of orthopaedic, oncological and traumatological implants using 3D printing biocompatible titanium alloys, i.e. as a means of developing new approaches in the modelling of the above mentioned substitutes, the use of programmable stiffness and porosity without limitations caused by limiting methods currently used by conventional methods of production...) |
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| Property / summary | |||||||||||||||
The project is focused on finding optimal procedures, designs and modelling of internal structures of orthopaedic, oncological and traumatological implants using 3D printing biocompatible titanium alloys, i.e. as a means of developing new approaches in the modelling of the above mentioned substitutes, the use of programmable stiffness and porosity without limitations caused by limiting methods currently used by conventional methods of production. (English) | |||||||||||||||
| Property / summary: The project is focused on finding optimal procedures, designs and modelling of internal structures of orthopaedic, oncological and traumatological implants using 3D printing biocompatible titanium alloys, i.e. as a means of developing new approaches in the modelling of the above mentioned substitutes, the use of programmable stiffness and porosity without limitations caused by limiting methods currently used by conventional methods of production. (English) / rank | |||||||||||||||
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| Property / summary: The project is focused on finding optimal procedures, designs and modelling of internal structures of orthopaedic, oncological and traumatological implants using 3D printing biocompatible titanium alloys, i.e. as a means of developing new approaches in the modelling of the above mentioned substitutes, the use of programmable stiffness and porosity without limitations caused by limiting methods currently used by conventional methods of production. (English) / qualifier | |||||||||||||||
point in time: 22 October 2020
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Revision as of 14:58, 22 October 2020
Project in Czech Republic financed by DG Regio
| Language | Label | Description | Also known as |
|---|---|---|---|
| English | Ortho3D |
Project in Czech Republic financed by DG Regio |
Statements
11,792,984.04 Czech koruna
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17,659,455.0 Czech koruna
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66.78 percent
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1 July 2015
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30 September 2018
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ProSpon, spol. s r.o.
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50°8'25.69"N, 14°6'27.00"E
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27201
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Projekt je zaměřený na nalezení optimálních postupů, konstrukčních návrhů a modelace vnitřních struktur ortopedických, onkologických i traumatologických implantátů pomocí 3D tisku biokompatibilní titanové slitiny, tedy jako prostředek k vývoji nových přístupů v modelaci výše zmíněných náhrad, využití programovatelné tuhosti i porozity bez omezení způsobených limitujícími způsoby v současnosti používaných konvenčních způsobů výroby. a. (Czech)
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The project is focused on finding optimal procedures, designs and modelling of internal structures of orthopaedic, oncological and traumatological implants using 3D printing biocompatible titanium alloys, i.e. as a means of developing new approaches in the modelling of the above mentioned substitutes, the use of programmable stiffness and porosity without limitations caused by limiting methods currently used by conventional methods of production. (English)
22 October 2020
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Identifiers
CZ.01.1.02/0.0/0.0/15_019/0000735
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