"prototype testing"

#5637068

21 Apr 2020

Jan Pawlik works on the oxygen concentrator that can be used with the VentilAid Prototype III respirator, a device that can be manufactured cheaply and with widely available parts using a 3D printer. The project was created by Urbicum, a Krakow based company specializing in 3D printing. The first two versions were developed and made available for free on the Internet. VentilAid Prototype III is a device for non-invasive ventilation, operating in CEPAP and BiPAP mode with an oxygen supply and meets the requirements of modern medical standards. It allows to keep patients in a stable condition and/or improve the condition of a conscious patient who is not eligible to be put on a hospital respirator. On April 17, 2020, in Krakow, Poland.

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#5637070

21 Apr 2020

Szymon Chrupczalski, the VentilAid project coordinator, explains the functioning of the VentilAid Prototype III respirator, a device that can be manufactured cheaply and with widely available parts using a 3D printer. The project was created by Urbicum, a Krakow based company specializing in 3D printing. The first two versions were developed and made available for free on the Internet. VentilAid Prototype III is a device for non-invasive ventilation, operating in CEPAP and BiPAP mode with an oxygen supply and meets the requirements of modern medical standards. It allows to keep patients in a stable condition and/or improve the condition of a conscious patient who is not eligible to be put on a hospital respirator. On April 17, 2020, in Krakow, Poland.

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#5637072

21 Apr 2020

Szymon Chrupczalski, the VentilAid project coordinator, explains the functioning of the VentilAid Prototype III respirator, a device that can be manufactured cheaply and with widely available parts using a 3D printer. The project was created by Urbicum, a Krakow based company specializing in 3D printing. The first two versions were developed and made available for free on the Internet. VentilAid Prototype III is a device for non-invasive ventilation, operating in CEPAP and BiPAP mode with an oxygen supply and meets the requirements of modern medical standards. It allows to keep patients in a stable condition and/or improve the condition of a conscious patient who is not eligible to be put on a hospital respirator. On April 17, 2020, in Krakow, Poland.

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#5637074

21 Apr 2020

Szymon Chrupczalski, the VentilAid project coordinator, explains how human lungs can function with the help of the VentilAid Prototype III respirator, a device that can be manufactured cheaply and with widely available parts using a 3D printer. The project was created by Urbicum, a Krakow based company specializing in 3D printing. The first two versions were developed and made available for free on the Internet. VentilAid Prototype III is a device for non-invasive ventilation, operating in CEPAP and BiPAP mode with an oxygen supply and meets the requirements of modern medical standards. It allows to keep patients in a stable condition and/or improve the condition of a conscious patient who is not eligible to be put on a hospital respirator. On April 17, 2020, in Krakow, Poland.

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#5637078

21 Apr 2020

Szymon Chrupczalski, the VentilAid project coordinator, explains how human lungs can function with the help of the VentilAid Prototype III respirator, a device that can be manufactured cheaply and with widely available parts using a 3D printer. The project was created by Urbicum, a Krakow based company specializing in 3D printing. The first two versions were developed and made available for free on the Internet. VentilAid Prototype III is a device for non-invasive ventilation, operating in CEPAP and BiPAP mode with an oxygen supply and meets the requirements of modern medical standards. It allows to keep patients in a stable condition and/or improve the condition of a conscious patient who is not eligible to be put on a hospital respirator. On April 17, 2020, in Krakow, Poland.

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#5637082

21 Apr 2020

Szymon Chrupczalski, the VentilAid project coordinator shows printed turbines used to build the VentilAid Prototype III respirator, a device that can be manufactured cheaply and with widely available parts using a 3D printer. The project was created by Urbicum, a Krakow based company specializing in 3D printing. The first two versions were developed and made available for free on the Internet. VentilAid Prototype III is a device for non-invasive ventilation, operating in CEPAP and BiPAP mode with an oxygen supply and meets the requirements of modern medical standards. It allows to keep patients in a stable condition and/or improve the condition of a conscious patient who is not eligible to be put on a hospital respirator. On April 17, 2020, in Krakow, Poland.

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#5637086

21 Apr 2020

Szymon Chrupczalski, the VentilAid project coordinator shows printed turbines used to build the VentilAid Prototype III respirator, a device that can be manufactured cheaply and with widely available parts using a 3D printer. The project was created by Urbicum, a Krakow based company specializing in 3D printing. The first two versions were developed and made available for free on the Internet. VentilAid Prototype III is a device for non-invasive ventilation, operating in CEPAP and BiPAP mode with an oxygen supply and meets the requirements of modern medical standards. It allows to keep patients in a stable condition and/or improve the condition of a conscious patient who is not eligible to be put on a hospital respirator. On April 17, 2020, in Krakow, Poland.

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#5637088

21 Apr 2020

Szymon Chrupczalski, the VentilAid project coordinator explains a graphic showing the breathing pressure of a patient the patient using the VentilAid Prototype III respirator, a device that can be manufactured with cheap and widely available parts using a 3D printer. The project was created by Urbicum, a Krakow based company specializing in 3D printing. The first two versions were developed and made available for free on the Internet. VentilAid Prototype III is a device for non-invasive ventilation, operating in CEPAP and BiPAP mode with an oxygen supply and meets the requirements of modern medical standards. It allows to keep patients in a stable condition and/or improve the condition of a conscious patient who is not eligible to be put on a hospital respirator. On April 17, 2020, in Krakow, Poland.

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#5637092

21 Apr 2020

Jan Pawlik explains the function and design of the oxygen concentrator that can be used with the VentilAid Prototype III respirator, a device that can be manufactured cheaply and with widely available parts using a 3D printer. The project was created by Urbicum, a Krakow based company specializing in 3D printing. The first two versions were developed and made available for free on the Internet. VentilAid Prototype III is a device for non-invasive ventilation, operating in CEPAP and BiPAP mode with an oxygen supply and meets the requirements of modern medical standards. It allows to keep patients in a stable condition and/or improve the condition of a conscious patient who is not eligible to be put on a hospital respirator. On April 17, 2020, in Krakow, Poland.

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#5637094

21 Apr 2020

A 3D printer makes partes of the VentilAid Prototype III respirator, a device that can be manufactured cheaply and with widely available parts using a 3D printer. The project was created by Urbicum, a Krakow based company specializing in 3D printing. The first two versions were developed and made available for free on the Internet. VentilAid Prototype III is a device for non-invasive ventilation, operating in CEPAP and BiPAP mode with an oxygen supply and meets the requirements of modern medical standards. It allows to keep patients in a stable condition and/or improve the condition of a conscious patient who is not eligible to be put on a hospital respirator. On April 17, 2020, in Krakow, Poland.

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#5637096

21 Apr 2020

Szymon Chrupczalski, the VentilAid project coordinator, explains the functioning of the VentilAid Prototype III respirator, a device that can be manufactured cheaply and with widely available parts using a 3D printer. The project was created by Urbicum, a Krakow based company specializing in 3D printing. The first two versions were developed and made available for free on the Internet. VentilAid Prototype III is a device for non-invasive ventilation, operating in CEPAP and BiPAP mode with an oxygen supply and meets the requirements of modern medical standards. It allows to keep patients in a stable condition and/or improve the condition of a conscious patient who is not eligible to be put on a hospital respirator. On April 17, 2020, in Krakow, Poland.

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#5637102

21 Apr 2020

Szymon Chrupczalski, the VentilAid project coordinator, explains the functioning of the VentilAid Prototype III respirator, a device that can be manufactured cheaply and with widely available parts using a 3D printer. The project was created by Urbicum, a Krakow based company specializing in 3D printing. The first two versions were developed and made available for free on the Internet. VentilAid Prototype III is a device for non-invasive ventilation, operating in CEPAP and BiPAP mode with an oxygen supply and meets the requirements of modern medical standards. It allows to keep patients in a stable condition and/or improve the condition of a conscious patient who is not eligible to be put on a hospital respirator. On April 17, 2020, in Krakow, Poland.

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#5637104

21 Apr 2020

Szymon Chrupczalski, the VentilAid project coordinator shows the turbine used inside the VentilAid Prototype III respirator, a device that can be manufactured cheaply and with widely available parts using a 3D printer. The project was created by Urbicum, a Krakow based company specializing in 3D printing. The first two versions were developed and made available for free on the Internet. VentilAid Prototype III is a device for non-invasive ventilation, operating in CEPAP and BiPAP mode with an oxygen supply and meets the requirements of modern medical standards. It allows to keep patients in a stable condition and/or improve the condition of a conscious patient who is not eligible to be put on a hospital respirator. On April 17, 2020, in Krakow, Poland.

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#5450570

19 Feb 2020

George Russell and the Williams FW 43 during the day 1 of the formula 1 testing, on 19 February 2020, in Barcelona, Spain. --

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#5449606

19 Feb 2020

Charles Leclerc and the Ferrari SF 1000 during the day 1 of the formula 1 testing, on 19 February 2020, in Barcelona, Spain.

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#3368290

30 Oct 2018

A prototype car using carbon fiber reinforced plastic (CFRP) made it's testing in Japan Cycle Sports Center, Shuzenji, Shizuoka Prefecture, Japan on October 30, 2018. This Ultra-light electric concept car is made of Shinayaka polymers which is resilient, ductile and strong, eighty five percent of the car parts consists of polymers or plastics by volume. (Photo: Richard Atrero de Guzman/ NUR Photo)

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