3D printing & medical applications

3D Printed soft, stretchy fabric-based sensors for wearable

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3D Printed soft and stretchy wearable, can be so useful in fashion, medical industry.:)

 

Researchers develop soft, stretchy fabric-based sensors for wearables A team of researchers at the Wyss Institute for Biologically Inspired Engineering and the Harvard John A Paulson School of Engineering and Applied Sciences (SEAS) at Harvard University has created a highly sensitive soft capacitive sensor made of silicone and fabric that moves. Read more. Stratasys […]

via Researchers develop soft, stretchy fabric-based sensors for wearables — world of chemicals

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Global Dental 3D Printing Market Size, Status and Forecast 2022

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2014 when i started sv3dprinter.com, i had little knowledge about 3D printing.

Now 2017, we have many 3D and 4D,5D Printing companies. Day by day we are learning new things about 3D Printing.:)

This report studies the global Dental 3D Printing market, analyzes and researches the Dental 3D Printing development status and forecast in United States, EU, Japan, China, India and Southeast Asia. This report focuses on the top players in global market, like Concept Laser GmbH EnvisionTEC, Inc. 3D System, Inc. Stratasys Ltd. DWS Systems EnvisionTEC Inc. EOS GmbH […]

via Global Dental 3D Printing Market Size, Status and Forecast 2022 — Professional Industry Market Research

3D / 4D printing inflatable structure

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Nottingham Trent University  in Nottingham, England.

Professor Philip Breedon’s research interests and latest projects center on new and emerging technologies and materials. This includes wearable technologies, additive and subtractive manufacturing for medical applications, biomimetics, surgical robotics, augmented / virtual / immersive technologies and environments, and investigative research related to the utilization of ‘’ smart materials for medical applications. Phil believes that multidisciplinary research activity is a significant and major contributor in developing innovative research proposals. research interests and latest projects center on new and emerging technologies and materials. This includes wearable technologies, additive and subtractive manufacturing for medical applications, biomimetics, surgical robotics, augmented / virtual / immersive technologies and environments, and investigative research related to the utilisation of ‘smart materials’ for medical applications. Phil believes that multidisciplinary research activity is a significant and major contributor in developing innovative research proposals.His research interests and latest projects centre on new and emerging technologies and materials. This includes wearable technologies, additive and subtractive manufacturing for medical applications, biomimetics, surgical robotics, augmented / virtual / immersive technologies and environments, and investigative research related to the utilisation of ‘smart materials’ for medical applications. Phil believes that multidisciplinary research activity is a significant and major contributor in developing innovative research proposals.

https://www.ntu.ac.uk/staff-profiles/architecture-design-built-environment/philip-breedon

Jobs ( Sales Associate Job )

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Jobs ( Sales Associate Job )


Sales Associate Job


Hawaii

Hilo

http://jobs.gnc.com/en-US/Job-Details/Sales-Associate-Job/Prince-Kuhio-Plaza/xjdp-jf941-ct105343-jid57831973?s_cid=DirectEmployers

3D Printing conference Pittsburg

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3D Printing conference Pittsburgh


This conference is about accelerating 3d manufacturing.We have little bit knowledge about using 3d printing in hospitals and 3d printed medical devices. We can more explore in this conference.

May 8-11,2017.

Pittsburgh Pennsylvania, USA

 

http://rapid3devent.com/

Microfluids and 3D Printing

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Microfluids and 3D Printing


NC State’s enthusiasts are doing lot of work for Microfluids. They found the liquid metal can be transform into 3d printed product.

This is fast and simple technique for making human body parts or metal objects.

According to Sidra Waheed, Joan M. Cabot, Niall P. Macdonald, Trevor Lewis,
3D printing has the potential to significantly change the field of microfluidics. The ability to fabricate a complete microfluidic device in a single step from a computer model has obvious attractions.
http://pubs.rsc.org/en/content/articlepdf/2016/lc/c6lc00284f?page=search

3D printing & medical applications

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3D printing & medical applications


3D printing reduce the work time and it has solution and advancement for the medical field. Carsten Engel is  biomedical engineer from the University of Brussels (ULB).currently he is working as a researcher at SIRRIS (Collective Centre of the Belgian Technology Industry) which has the biggest European Additive Manufacturing machine parc. His main work involves R&D projects in the field of biomedical and aerospace applications.