International MMF Textiles conference to showcase novel nanofibre spinning technology
November 02, 2011 (India)
For the first time-ever, delegates will able to gain first-hand knowledge of the novel concept of “Forcespinning for Nanofibres” through video conferencing at the upcoming ‘International Conference on Manmade Fibre Textiles’ to be held at IIM Ahmedabad from November 18-19.
Fibre2fashion which is hosting the conference has roped in Fiberio Technologies – USA, which will showcase the unique nanofibre technology from the US on November 18th.
Forcespinning Technology combines novel equipment and processes to enable more versatile and cost-effective methods for making polymeric nanofibers and metallic nanowires.”
Currently the most commonly used method for making nanofibers use, either an electrostatic charge (electrospinning) or external heated air jets (meltblown). By using only centrifugal force to form the fiber, Force spinning works equally well with solutions or pure molten materials. Forcespinning – The force for Nanofibers is the beginning of the nanofiber revolution.
Click here for more details about the conference.
Fibre2fashion News Desk – India
http://www.fibre2fashion.com/news/company-news/fibre2fashion/newsdetails.aspx?news_id=104727
Polylactic Acid
Polylactic Acid
Sample Material: Polylactic Acid
Considered to be a sustainable alternative to petrochemical products, Polylactic acid is also thermoplastic biocompatible polyester. PLA nanofibers are useful in medical applications such as drug delivery, tissue engineering and would dressings. PLA has been both solution and melt-spun with Forcespinning™ technology.
Use the tabs below for more information:
Data Results
This material reported to FibeRio by customer. Optimized data and results do not belong to FibeRio. Please review upcoming and previous literature.
Cyclone Settings
Please contact FibeRio Customer Service for material process settings.
Forcespinning Technology utilizes centrifugal force rather than electrostatic force! Without electrostatic force, there is no need for dielectric solutions. This opens up an entire new realm of possibilities. Even metals and conductive polymers can be processed simply and safely.
Cyclone L-1000M
Results Achieved With Cyclone L-1000M
- 20,000 RPM Drive system
- Material heating system up to 450°C
- Easy material prep and cleaning
- Small benchtop footprint
- Spinneret options for low or high volume runs
Polylactic Acid
Polylactic Acid
Sample Material: Polylactic Acid
Considered to be a sustainable alternative to petrochemical products, Polylactic acid is also thermoplastic biocompatible polyester. PLA nanofibers are useful in medical applications such as drug delivery, tissue engineering and would dressings. PLA has been both solution and melt-spun with Forcespinning™ technology.
Use the tabs below for more information:
Data Results
This material reported to FibeRio by customer. Optimized data and results do not belong to FibeRio. Please review upcoming and previous literature.
Cyclone Settings
Please contact FibeRio Customer Service for material process settings.
Forcespinning Technology utilizes centrifugal force rather than electrostatic force! Without electrostatic force, there is no need for dielectric solutions. This opens up an entire new realm of possibilities. Even metals and conductive polymers can be processed simply and safely.
Cyclone L-1000M
Results Achieved With Cyclone L-1000M
- 20,000 RPM Drive system
- Material heating system up to 450°C
- Easy material prep and cleaning
- Small benchtop footprint
- Spinneret options for low or high volume runs
Polycaprolactone
Polycaprolactone
Sample Material: Polycaprolactone
Polycaprolactone is a bioresorbable polyester that is widely being incorporated into tissue scaffolding research and other biomedical applications. PCL has been approved by the FDA for use in drug delivery devices, suture and more. Randomly oriented nanofiber mats tend to mimic the Extra-cellular matrix and can be seeded with tissue.
Polycaprolactone was spun utilizing Forcespinning™ technology. The resulting sample coated a cellulosic substrate with a randomly oriented nonwoven nanofiber web consisting of a mean fiber diameter of 190. Measurements were taken from 5 randomly selected portions of the media. 266 Randomly selected fibers were measured to provide a statistically significant sample. Normal distribution was observed and is provided below.
Use the tabs below for more information:
Data Results
This material reported to FibeRio by customer. Optimized data and results do not belong to FibeRio. Please review upcoming and previous literature.
Cyclone Settings
Forcespinning Technology utilizes centrifugal force rather than electrostatic force! Without electrostatic force, there is no need for dielectric solutions. This opens up an entire new realm of possibilities. Even metals and conductive polymers can be processed simply and safely.
Cyclone L-1000M
Results Achieved With Cyclone L-1000M
- 20,000 RPM Drive system
- Material heating system up to 450°C
- Easy material prep and cleaning
- Small benchtop footprint
- Spinneret options for low or high volume runs
Polycaprolactone
Polycaprolactone
Sample Material: Polycaprolactone
Polycaprolactone is a bioresorbable polyester that is widely being incorporated into tissue scaffolding research and other biomedical applications. PCL has been approved by the FDA for use in drug delivery devices, suture and more. Randomly oriented nanofiber mats tend to mimic the Extra-cellular matrix and can be seeded with tissue.
Polycaprolactone was spun utilizing Forcespinning™ technology. The resulting sample coated a cellulosic substrate with a randomly oriented nonwoven nanofiber web consisting of a mean fiber diameter of 190. Measurements were taken from 5 randomly selected portions of the media. 266 Randomly selected fibers were measured to provide a statistically significant sample. Normal distribution was observed and is provided below.
Use the tabs below for more information:
Data Results
This material reported to FibeRio by customer. Optimized data and results do not belong to FibeRio. Please review upcoming and previous literature.
Cyclone Settings
Forcespinning Technology utilizes centrifugal force rather than electrostatic force! Without electrostatic force, there is no need for dielectric solutions. This opens up an entire new realm of possibilities. Even metals and conductive polymers can be processed simply and safely.
Cyclone L-1000M
Results Achieved With Cyclone L-1000M
- 20,000 RPM Drive system
- Material heating system up to 450°C
- Easy material prep and cleaning
- Small benchtop footprint
- Spinneret options for low or high volume runs
