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FET: Benefits of new polymer development (c) FET
FET’s Fibre Development Centre
06.10.2023

FET: Benefits of new polymer development

Fibre Extrusion Technology Ltd (FET) of Leeds, UK is celebrating a year of achievements since its new Fibre Development Centre was first opened. This period has shown a marked acceleration in the number of client technical trials conducted, involving the ever-increasing development of new polymers.

FET designs, develops and manufactures extrusion equipment for a range of high value textile material applications worldwide, offering melt spinning, wet spinning and spunbond/meltblown options. Since its inception in 1997, a major part of FET’s service portfolio has always been to collaborate with industrial and research establishments in testing, evaluating and developing high value materials with diverse, functional properties. FET’s previous Process Development Laboratory presided over the development of about 60 new polymer types in multifilament, monofilament and nonwoven formats.

Fibre Extrusion Technology Ltd (FET) of Leeds, UK is celebrating a year of achievements since its new Fibre Development Centre was first opened. This period has shown a marked acceleration in the number of client technical trials conducted, involving the ever-increasing development of new polymers.

FET designs, develops and manufactures extrusion equipment for a range of high value textile material applications worldwide, offering melt spinning, wet spinning and spunbond/meltblown options. Since its inception in 1997, a major part of FET’s service portfolio has always been to collaborate with industrial and research establishments in testing, evaluating and developing high value materials with diverse, functional properties. FET’s previous Process Development Laboratory presided over the development of about 60 new polymer types in multifilament, monofilament and nonwoven formats.

Since the new Fibre Development Centre came on stream, this process has accelerated and the number of new polymers has now increased to over 70, with considerably enhanced facilities more than doubling capacity and increasing efficiency. Clients frequently spend several days on site participating in development trials and technical sales meetings, so the new Centre is designed to make their stay even more efficient and comfortable.

With more new trials booked for the rest of the year and well into 2024, it is expected that many more new polymers will be developed, with sustainable fibres leading the way.

Source:

Fibre Extrusion Technology Ltd (FET)

05.09.2023

Beaulieu International Group at International Conference on Geosynthetics

Beaulieu International Group will turn the spotlight on geotextile products with sustainability benefits to support progress in resilient civil engineering projects at the 12th ICG Rome from 18th -21st September 2023, presenting options to target fossil carbon reduction by choosing PP-based staple fibres or woven geotextiles that are among the lowest in carbon footprint for geosynthetics.

For manufacturers of nonwoven geotextiles, Beaulieu Fibres International (BFI) offers PP fibres with > 25% carbon footprint reduction compared to the European standard PP fibres, generating 1.48 kg CO2/kg PP fibres. A step further is to accelerate the replacement of fossil carbon in engineered fibre applications by choosing its ISCC Plus certified bio-attributed MONO-PP with a negative carbon footprint.

For construction projects, nonwoven geotextiles made with high-tenacity HT8 fibres are proven to secure a longer service lifetime and reduce the environmental impact, as they offer high mechanical performance at a reduced weight.

Beaulieu International Group will turn the spotlight on geotextile products with sustainability benefits to support progress in resilient civil engineering projects at the 12th ICG Rome from 18th -21st September 2023, presenting options to target fossil carbon reduction by choosing PP-based staple fibres or woven geotextiles that are among the lowest in carbon footprint for geosynthetics.

For manufacturers of nonwoven geotextiles, Beaulieu Fibres International (BFI) offers PP fibres with > 25% carbon footprint reduction compared to the European standard PP fibres, generating 1.48 kg CO2/kg PP fibres. A step further is to accelerate the replacement of fossil carbon in engineered fibre applications by choosing its ISCC Plus certified bio-attributed MONO-PP with a negative carbon footprint.

For construction projects, nonwoven geotextiles made with high-tenacity HT8 fibres are proven to secure a longer service lifetime and reduce the environmental impact, as they offer high mechanical performance at a reduced weight.

Beaulieu Technical Textiles' (BTT) woven geotextiles provide a wide range of functions, including separation, filtration, reinforcement and erosion control, and are among the most sustainable in the industry. Depending on weight, the carbon footprint of its woven geotextiles (m²) ranges between 0.37 and 1.40 kg CO2 eq./m². They also minimize the use of natural resources for more sustainable infrastructure development. Case studies such as at the Ostend-Bruges airport highlight significant CO2 reduction on the jobsite by replacing the transport of 960 trucks of gravel with 3 trucks of woven geotextiles, and by extending the runway’s life span.

The ICG launch of its new line Terralys MF woven filtration geotextiles with monofilament boosts the performance of a common solution in building layers that require high water flow rates. High-tenacity extruded polypropylene tapes and monofilaments are interwoven to form dimensionally stable and highly permeable geotextiles. These new filtration geotextiles provide greater resistance to dirt and biological clogging. They allow water to travel freely while reducing soil erosion when employed as a separation and stabilizing layer.

As of September 2023, all PP staple fibres and woven geotextiles will have Environmental Product Declarations (EPD) based on LCAs. Each EPD is an essential tool for communicating and reporting on the sustainability performance and helps carbon-conscious customers in their purchasing and decision making. Registered EPDs are globally recognized, publicly available and free to download through EPD Libraries.

Source:

Beaulieu International Group

ElasTool in a lifting unit, e.g. for logistics, transport or mining Grafik JUMBO-Textil
ElasTool in a lifting unit, e.g. for logistics, transport or mining
22.08.2023

JUMBO-Textil: Lubricant-free tensioning and clamping system

From mechanical engineering to the construction industry, from logistics to rescue technology – tensioning and clamping systems fulfil important tasks in a number of industries. The possible uses of technical textiles for industrial applications of this kind are manifold.

Patented and precisely configured
The ElasTool system from the elastics expert consists of a connection tool and a rubber rope connected to this tool via integrated locking elements. The stainless steel, aluminium or plastic connection tool and the rubber rope – with a thickness of between 12 and 38 mm – are each configured to fit precisely. The highlight of the patented connection solution: the more tensile force is exerted, the more the rope is jammed. Thanks to the locking system, ElasTool still provides a secure hold even when the diameter of the rubber rope narrows to up to 60 percent due to the tensile load. A crucial advantage over conventional end connections by pressing.

From mechanical engineering to the construction industry, from logistics to rescue technology – tensioning and clamping systems fulfil important tasks in a number of industries. The possible uses of technical textiles for industrial applications of this kind are manifold.

Patented and precisely configured
The ElasTool system from the elastics expert consists of a connection tool and a rubber rope connected to this tool via integrated locking elements. The stainless steel, aluminium or plastic connection tool and the rubber rope – with a thickness of between 12 and 38 mm – are each configured to fit precisely. The highlight of the patented connection solution: the more tensile force is exerted, the more the rope is jammed. Thanks to the locking system, ElasTool still provides a secure hold even when the diameter of the rubber rope narrows to up to 60 percent due to the tensile load. A crucial advantage over conventional end connections by pressing.

Economical and low maintenance
The system has further advantages: the textile solution runs quietly. Unlike clamping systems with steel cable springs, there is no creaking here. In addition, textiles, plastic and aluminium are particularly lightweight materials. ElasTool therefore saves energy. Another benefit: the connection system works without lubricating oil. While conventional tensioning and clamping solutions in industrial plants and products have to be oiled regularly, the JUMBO textile system works completely maintenance-free.

Versatile and easily interchangeable
Depending on the area of application of the ElasTool, the interchangeable head can be exchanged: Plastic hook instead of aluminium eyelet, stainless steel flange instead of aluminium hook – for example. The interchangeable head can be replaced effortlessly and without special tools.

"A lifting system in a high-bay warehouse, a trolley in a crane, damping for compressors or crash systems – these are just three of the many possible applications. We adapt the dimensions, material, force-stretch behaviour, flame retardancy – like all properties – specifically to the respective project," emphasises Carl Mrusek, Chief Sales Officer of JUMBO-Textil. "Thus, with ElasTool, we offer a safe load connection for a wide variety of applications in industry."

ElasTool from JUMBO-Textil

  • Lightweight and flexible alternative to conventional tensioning and clamping systems
  • Suitable even in small installation spaces
  • With individual specifications and infinitely customisable dimensions
  • Connection tool optionally made of plastic, aluminium or stainless steel
  • Rubber rope in a thickness of 12 to 38 mm
  • Rubber rope made of polyamide, polyester, recycled PES, polypropylene, aramid, Dyneema, monofilament, natural fibres
  • Different interchangeable head shapes possible
  • As an end connection or for coupling with other machine elements
  • Tensile load up to 600 N, in individual cases more than this
  • Individually configurable e.g. with hook, eyelet or flange
Source:

JUMBO-Textil

(c) FET
FET Melt Spinning system
05.05.2023

FET exhibits at ITMA 2023

Fibre Extrusion Technology Ltd (FET) of Leeds, UK will be exhibiting at ITMA 2023, taking place between 8-14 June Milan, Italy. FET has commissioned its biggest ever stand to reflect the company’s commitment to this event and the textile industry.

FET designs, develops and manufactures extrusion equipment for a wide range of high value textile material applications worldwide. Central to FET’s success has always been its ability to provide customers with advanced facilities and equipment, together with unrivalled knowledge and expertise in research and production techniques.

The new FET Fibre Development Centre will further improve this service, allowing clients to trial their own products in an ideal environment. Resident equipment in the Fibre Development Centre reflects the wide range of fibre extrusion systems offered by FET to clients worldwide and will enable continued growth of the company through innovation.  

Fibre Extrusion Technology Ltd (FET) of Leeds, UK will be exhibiting at ITMA 2023, taking place between 8-14 June Milan, Italy. FET has commissioned its biggest ever stand to reflect the company’s commitment to this event and the textile industry.

FET designs, develops and manufactures extrusion equipment for a wide range of high value textile material applications worldwide. Central to FET’s success has always been its ability to provide customers with advanced facilities and equipment, together with unrivalled knowledge and expertise in research and production techniques.

The new FET Fibre Development Centre will further improve this service, allowing clients to trial their own products in an ideal environment. Resident equipment in the Fibre Development Centre reflects the wide range of fibre extrusion systems offered by FET to clients worldwide and will enable continued growth of the company through innovation.  

For the first time at ITMA, the new FET Spunbond range will feature. This system provides opportunities for the scaled development of new nonwoven fabrics based on a wide range of fibres and polymers, including bicomponents. Recent customers to benefit from FET spunbond systems include the University of Leeds and an integrated metlblown / spunbond system at the University of Erlangen-Nuremberg in Germany.

FET’s established expertise remains in laboratory and pilot meltspinning equipment for a vast range of applications, such as precursor materials used in high value technical textiles, sportswear, medical devices and specialised novel fibres from exotic and difficult to process polymers. FET has successfully processed almost 30 different polymer types in multifilament, monofilament and non-woven formats, collaborating with specialist companies worldwide to promote greater sustainability through innovative manufacturing processes. Where melt spinning solutions are not suitable, FET provides a viable alternative with pilot and small scale production wet spinning systems.

A major theme at ITMA will again be sustainability. The FET range of laboratory and pilot extrusion lines is ideally suited for both process and end product development of sustainable materials. “This year we are celebrating FET’s 25th anniversary” says FET Managing Director Richard Slack “and we look forward to meeting customers at ITMA, where we can discuss their fibre technology needs.”

Source:

Fibre Extrusion Technology Ltd

(c) FET Ltd
17.01.2023

FET looks forward following sucessful year

Fibre Extrusion Technology Limited (FET) of Leeds, England, a supplier of laboratory and pilot melt spinning systems, is celebrating a record breaking year of sales and product innovation. “Sales revenue for 2022 has easily beaten our previous high” said FET Managing Director, Richard Slack “and the research projects we have collaborated in have become increasingly challenging in terms of technical specification.”

Prestigious new projects during 2022 included a multifilament melt spinning line for Senbis Polymer Innovations, Netherlands enabling the development of textile fibres from recycled polymers or biopolymers; a FET-200LAB wet spinning system at the University of Manchester which will play a major part in advanced materials research in collaboration with the renowned Henry Royce Institute; and a FET-103 Monofilament line for RHEON LABS of London to help develop a hyper viscoelastic fibre from RHEON™ which displays high strain-rate sensitive properties. The latter two of these examples were aided by significant UK grants to develop advanced materials.

Fibre Extrusion Technology Limited (FET) of Leeds, England, a supplier of laboratory and pilot melt spinning systems, is celebrating a record breaking year of sales and product innovation. “Sales revenue for 2022 has easily beaten our previous high” said FET Managing Director, Richard Slack “and the research projects we have collaborated in have become increasingly challenging in terms of technical specification.”

Prestigious new projects during 2022 included a multifilament melt spinning line for Senbis Polymer Innovations, Netherlands enabling the development of textile fibres from recycled polymers or biopolymers; a FET-200LAB wet spinning system at the University of Manchester which will play a major part in advanced materials research in collaboration with the renowned Henry Royce Institute; and a FET-103 Monofilament line for RHEON LABS of London to help develop a hyper viscoelastic fibre from RHEON™ which displays high strain-rate sensitive properties. The latter two of these examples were aided by significant UK grants to develop advanced materials.

FET is now looking forward to 2023 with a record order book. The company’s newly opened Fibre Development Centre features over £1.5 million investment in customer laboratory systems that will further enable fibre trials and product R&D. Three new polymer types were developed with clients in 2022 and several more are lined up in 2023, which is expected to bring the total of different polymer types to more than 40 in multifilament, monofilament and nonwoven formats.

FET will be exhibiting at two major exhibitions in 2023; INDEX 23, a leading Nonwovens show at Geneva in April; and ITMA, Milan, an international textile and garment technology exhibition in June.

Source:

FET Ltd

(c) FET
Business Secretary Grant Shapps discusses FET’s wet spinning system with Mark Smith, FET R&D Manager
16.12.2022

FET extrusion system features in UK Business Secretary’s visit

The UK’s new Business Secretary, Grant Shapps has visited the Henry Royce Institute’ hub in Manchester to seal the second phase of R&D investment in the institute of £95 million. Fibre Extrusion Technology Limited (FET) of Leeds, England had previously installed its FET-200LAB wet spinning system at the University of Manchester site and this proved to be a focus for the Business Secretary’s interest, as he discussed the project with FET’s Research and Development Manager, Mark Smith.

This wet spinning technology enables fibres to be derived from sustainable wood pulp to produce high quality apparel and trials are now underway to perfect this process. FET is a world leading supplier of laboratory and pilot melt spinning systems, having successfully processed more than 35 different polymer types in multifilament, monofilament and nonwoven formats.

During his visit, Shapps spoke of the investment programme as a means of reinforcing the UK’s standing as a leader in advanced materials research, development and innovation.

The UK’s new Business Secretary, Grant Shapps has visited the Henry Royce Institute’ hub in Manchester to seal the second phase of R&D investment in the institute of £95 million. Fibre Extrusion Technology Limited (FET) of Leeds, England had previously installed its FET-200LAB wet spinning system at the University of Manchester site and this proved to be a focus for the Business Secretary’s interest, as he discussed the project with FET’s Research and Development Manager, Mark Smith.

This wet spinning technology enables fibres to be derived from sustainable wood pulp to produce high quality apparel and trials are now underway to perfect this process. FET is a world leading supplier of laboratory and pilot melt spinning systems, having successfully processed more than 35 different polymer types in multifilament, monofilament and nonwoven formats.

During his visit, Shapps spoke of the investment programme as a means of reinforcing the UK’s standing as a leader in advanced materials research, development and innovation.

“R&D investment is a critical way to turbocharge Britain’s growth. Growing an economy fit for the future means harnessing the full potential of advanced materials, making science fiction a reality by supporting projects from regenerative medicine to robots developing new recycling capabilities, right across the country. Today’s £95 million investment will do just that, bringing together the brightest minds across our businesses and institutions to help future-proof sectors from healthcare to nuclear energy.”

The Henry Royce Institute was established in 2015 with an initial £235 million government investment through the Engineering and Physical Sciences Research Council and the latest £95 million sum represents the second phase of the investment.

Opportunities being investigated by Royce include lightweight materials and structures, biomaterials and materials designed for reuse, recycling and remanufacture. Advanced materials are critical to the UK future in various industries, such as health, transport, energy, electronics and utilities.

FET-200LAB wet spinning system Photo: Fibre Extrusion Technology Limited (FET)
21.11.2022

FET wet spinning system selected for major fibre research programme

Fibre Extrusion Technology Limited (FET) of Leeds, England has installed a FET-200LAB wet spinning system at the University of Manchester which will play a major part in advanced materials research to support sustainable growth and development.

This research programme will be conducted by The Henry Royce Institute, which operates as a hub model at The University of Manchester with spokes at other leading research universities in the UK.

The Henry Royce Institute identifies challenges and stimulates innovation in advanced UK materials research, delivering positive economic and societal impact. In particular, this materials research initiative is focused on supporting and promoting all forms of sustainable growth and development.
These challenges range from biomedical devices through to plastics sustainability and energy-efficient devices; hence supporting key national targets such as the UK’s zero-carbon 2050 target.

Fibre Extrusion Technology Limited (FET) of Leeds, England has installed a FET-200LAB wet spinning system at the University of Manchester which will play a major part in advanced materials research to support sustainable growth and development.

This research programme will be conducted by The Henry Royce Institute, which operates as a hub model at The University of Manchester with spokes at other leading research universities in the UK.

The Henry Royce Institute identifies challenges and stimulates innovation in advanced UK materials research, delivering positive economic and societal impact. In particular, this materials research initiative is focused on supporting and promoting all forms of sustainable growth and development.
These challenges range from biomedical devices through to plastics sustainability and energy-efficient devices; hence supporting key national targets such as the UK’s zero-carbon 2050 target.

FET-200 Series wet spinning systems complement FET’s renowned range of melt spinning equipment. The FET-200LAB is a laboratory scale system, which is especially suitable for the early stages of formulation and process development. It is used for processing new functional textile materials in a variety of solvent and polymer combinations.

In particular, the FET-200LAB will be utilised in trials for a family of fibres made from wood pulp, a sustainable resource rather than the usual fossil fuels. Bio-based polymers are produced from biomass feedstocks such as cellulose and are commonly used in the manufacture of high end apparel. The key to cellulose and other materials like lyocell and viscose is that they can be recycled, treated and fed back into the wet spinning system for repeat manufacture.

Established in 1998, FET is a leading supplier of laboratory and pilot melt spinning systems with installations in over 35 countries and has now successfully processed more than 35 different polymer types in multifilament, monofilament and nonwoven formats.

Source:

DAVID STEAD PROJECT MARKETING LTD

Photo: FET
FET-103 Monofilament meltspinning system
10.10.2022

RHEON LABS: Fibre with unique strain-rate sensitive characteristics

RHEON LABS, a fast-growing materials technology company based in Battersea, London, has completed an extensive 6 month trial with FET, a world leader in laboratory and pilot meltspinning equipment. Backed by a £173,000 grant from Innovate UK for feasibility studies, RHEON LABS has further developed its RHEON™ technology, a reactive polymer that dynamically stiffens when subjected to force. The technology can control energy of any amplitude or frequency, from small vibrations to forces at ballistic-speeds and therefore has a wide range of applications.
 
This Innovate UK Smart Grant-backed project aims to develop a hyper viscoelastic fibre from RHEON™ which displays high strain-rate sensitive properties. Creating a fibre with unique strain-rate sensitive properties will be a world first. It will enable the creation of a 'breakthrough-generation' of stretch textiles that can actively absorb, dampen and control energy during movement, rather than simply acting as a spring.

RHEON LABS, a fast-growing materials technology company based in Battersea, London, has completed an extensive 6 month trial with FET, a world leader in laboratory and pilot meltspinning equipment. Backed by a £173,000 grant from Innovate UK for feasibility studies, RHEON LABS has further developed its RHEON™ technology, a reactive polymer that dynamically stiffens when subjected to force. The technology can control energy of any amplitude or frequency, from small vibrations to forces at ballistic-speeds and therefore has a wide range of applications.
 
This Innovate UK Smart Grant-backed project aims to develop a hyper viscoelastic fibre from RHEON™ which displays high strain-rate sensitive properties. Creating a fibre with unique strain-rate sensitive properties will be a world first. It will enable the creation of a 'breakthrough-generation' of stretch textiles that can actively absorb, dampen and control energy during movement, rather than simply acting as a spring.

For close-fitting activewear and sports bras, the ability to actively control muscle mass or soft tissue movement during exercise will be a game-changing advancement. It will allow brands to engineer garments that relax during everyday use but actively stiffen during exercise for improved support and performance.
The Innovate UK grant was awarded under the category of Hyper-Viscoelastic Fibre Extrusion for Textile Manufacture. Fibre Extrusion Technology Limited (FET) enabled the customer trials at its bespoke Fibre Development Centre in Leeds, England using its in-house FET-103 Monofilament meltspinning facilities, in harness with RHEON and FET technical operatives. The next phase will be to upscale the trials of preferred materials on RHEON’s own new FET-103 meltspinning line, with FET’s continued support and expertise on hand.
 
Creating a fibre with unique strain-rate sensitive characteristics could be as radical a change in the market as the initial introduction of stretch fibre with the launch of Lycra™. The textiles would have a multitude of beneficial properties and would provide significantly less compression in the garment than conventional materials, substantially improving user comfort, support and performance.

Source:

DAVID STEAD PROJECT MARKETING LTD

Photo: FET
02.08.2022

FET at Techtextil 2022: Principle theme was Sustainability

The company’s principle theme at Techtextil was Sustainability, since FET extrusion systems are ideally suited for both process and end-product development of sustainable materials. These systems are designed to be material efficient, can be bespoke designed and offer both flexibility and a high level of processing capability. They are supplied as self-contained units for ease of installation in a laboratory or small scale process evaluation environment.

FET’s enhanced Fibre Development Centre enables clients to develop and trial their own sustainable fibres and FET has now successfully processed almost 30 different polymer types in multifilament, monofilament and nonwoven formats

The innovative stand at Techtextil was specifically designed to highlight FET’s total commitment to all aspects of sustainability. It utilised as many sustainable components as possible and met with much comment and approval from visitors.

The company’s principle theme at Techtextil was Sustainability, since FET extrusion systems are ideally suited for both process and end-product development of sustainable materials. These systems are designed to be material efficient, can be bespoke designed and offer both flexibility and a high level of processing capability. They are supplied as self-contained units for ease of installation in a laboratory or small scale process evaluation environment.

FET’s enhanced Fibre Development Centre enables clients to develop and trial their own sustainable fibres and FET has now successfully processed almost 30 different polymer types in multifilament, monofilament and nonwoven formats

The innovative stand at Techtextil was specifically designed to highlight FET’s total commitment to all aspects of sustainability. It utilised as many sustainable components as possible and met with much comment and approval from visitors.

Fibre Extrusion Technology Limited (FET) of Leeds, England enjoyed another successful Techtextil in Frankfurt, with high quality enquiries from technical companies and organisations worldwide, but in particular from customers based in Europe.

Source:

DAVID STEAD PROJECT MARKETING LTD for FET

(c) FET
FET-100 Series Melt Spinning System
13.03.2022

FET gearing up for Techtextil 2022

With just 3 months to go before Techtextil Frankfurt, UK company Fibre Extrusion Technology Limited (FET), is looking forward to exhibiting at this trade show once again. Techtextil attracts international blue-chip companies at the cutting edge of technology, seeking innovative solutions to technical challenges, so this event represents an ideal opportunity to demonstrate how FET can help achieve their goals.

FET is an acknowledged leader in laboratory and pilot meltspinning equipment for a vast range of applications, such as precursor materials used in high value technical textiles, sportswear, medical devices and specialised novel fibres from exotic and difficult to process polymers. Where melt spinning solutions are not suitable, FET provides a viable alternative with pilot and small scale production wet spinning systems.

However, FET will also showcase at Techtextil its more recent laboratory scale spunbond system, which enables client development of nonwoven fabrics in a number of formats and polymers. FET already has a number of spunbond systems in the field, including composite systems which utilise both spunbond and meltspun functions.

With just 3 months to go before Techtextil Frankfurt, UK company Fibre Extrusion Technology Limited (FET), is looking forward to exhibiting at this trade show once again. Techtextil attracts international blue-chip companies at the cutting edge of technology, seeking innovative solutions to technical challenges, so this event represents an ideal opportunity to demonstrate how FET can help achieve their goals.

FET is an acknowledged leader in laboratory and pilot meltspinning equipment for a vast range of applications, such as precursor materials used in high value technical textiles, sportswear, medical devices and specialised novel fibres from exotic and difficult to process polymers. Where melt spinning solutions are not suitable, FET provides a viable alternative with pilot and small scale production wet spinning systems.

However, FET will also showcase at Techtextil its more recent laboratory scale spunbond system, which enables client development of nonwoven fabrics in a number of formats and polymers. FET already has a number of spunbond systems in the field, including composite systems which utilise both spunbond and meltspun functions.

A major theme to be highlighted on the FET stand is Sustainability. The FET range of laboratory and pilot extrusion lines is ideally suited for both process and end product development of sustainable materials.

FET has successfully processed almost 30 different polymer types in multifilament, monofilament and non-woven formats, collaborating with specialist companies worldwide to promote greater sustainability through innovative manufacturing processes.

Source:

DAVID STEAD PROJECT MARKETING LTD for FET

22.02.2022

Perlon GmbH in Germany takes over NOWO Products Sp.z.o.o. in Poland

Perlon® - The Filament Company - headquartered in Munderkingen, Germany, which specializes in the manufacture of synthetic filaments for the Paper-, Brush-, Cosmetics- and Dental industry buys NOWO Products Sp.z.o.o. in Kluczbork, Poland. NOWO is a leading European producer of twisted monofilaments for the global paper industry. Perlon® herewith expands its market leadership in the Paper Machine Clothing segment through this acquisition which is regarded as a vertically integrated investment for the Perlon® Group.

“With the merger of the Perlon® Group and NOWO, we are reinforcing a company that is geared towards the global paper industry of the future and we are expanding our market leadership in this segment. NOWO is a perfect fit for the Perlon® Group with its long-term experience and special knowledge in the production of twisted monofilaments and this complements our existing product portfolio well.” states Florian Kisling, CEO of Perlon®.

The Perlon® Group will take over NOWO Products with all 40 employees and production lines located in the NOWO factory in Kluczbork, Poland.

Perlon® - The Filament Company - headquartered in Munderkingen, Germany, which specializes in the manufacture of synthetic filaments for the Paper-, Brush-, Cosmetics- and Dental industry buys NOWO Products Sp.z.o.o. in Kluczbork, Poland. NOWO is a leading European producer of twisted monofilaments for the global paper industry. Perlon® herewith expands its market leadership in the Paper Machine Clothing segment through this acquisition which is regarded as a vertically integrated investment for the Perlon® Group.

“With the merger of the Perlon® Group and NOWO, we are reinforcing a company that is geared towards the global paper industry of the future and we are expanding our market leadership in this segment. NOWO is a perfect fit for the Perlon® Group with its long-term experience and special knowledge in the production of twisted monofilaments and this complements our existing product portfolio well.” states Florian Kisling, CEO of Perlon®.

The Perlon® Group will take over NOWO Products with all 40 employees and production lines located in the NOWO factory in Kluczbork, Poland.

More information:
Perlon Group Perlon
Source:

Perlon GmbH

(c) FET
FET meltspinning system for biomedical applications
15.09.2021

FET: Further Gains in the Biomedical sector

Fibre Extrusion Technology of Leeds, UK has delivered nine meltspinning systems to clients in the biomedical sector since the onset of the Covid-19 pandemic, with a similar number currently on order for 2021/22. This way FET could confirm the position as an acknowledged world leader in meltspinning equipment for the production of precursor materials used in medical devices and as a default supplier for absorbable suture production systems, with orders virtually doubling year on year.

Recent installations include a multi-functional system that can produce both multifilament and monofilament pre-cursor fibres, but nonwoven systems have been particularly prominent, driven by the burgeoning demand for FFP3 masks, gowns and other medical products required during the pandemic. These have been sold to medical device manufacturing companies across the globe, including the Far East, USA and Europe. Research organisations have also invested in FET systems for biomedical applications, the most recent being the University of Leeds in a laboratory scale Spunbond system.

Fibre Extrusion Technology of Leeds, UK has delivered nine meltspinning systems to clients in the biomedical sector since the onset of the Covid-19 pandemic, with a similar number currently on order for 2021/22. This way FET could confirm the position as an acknowledged world leader in meltspinning equipment for the production of precursor materials used in medical devices and as a default supplier for absorbable suture production systems, with orders virtually doubling year on year.

Recent installations include a multi-functional system that can produce both multifilament and monofilament pre-cursor fibres, but nonwoven systems have been particularly prominent, driven by the burgeoning demand for FFP3 masks, gowns and other medical products required during the pandemic. These have been sold to medical device manufacturing companies across the globe, including the Far East, USA and Europe. Research organisations have also invested in FET systems for biomedical applications, the most recent being the University of Leeds in a laboratory scale Spunbond system.

The FET in-house Process Development Laboratory and ongoing collaboration with biomaterial polymer suppliers has helped to optimise the biomedical melt spinning technology. The Laboratory is at the disposal of customers for all aspects of confidential testing and evaluation. To further increase this competitive edge, FET will be opening a new Process Development Laboratory and Visitor Centre in early 2022.

More information:
meltspinning FET
Source:

Projectmarketing for FET

(c) Fibre Extrusion Technology
04.08.2021

New FET meltspinning system upgrade for NIRI

Fibre Extrusion Technology Ltd of Leeds, UK has installed a new meltspinning system to upgrade research facilities at NIRI, the Nonwovens Innovation & Research Institute Ltd UK, a global leader in nonwoven engineering and product development.

Established in 1998, FET is a leading supplier of laboratory and pilot meltspinning systems with installations in over 35 countries and has now successfully processed almost 30 different polymer types in multifilament, monofilament and nonwoven formats.
 
The installation comprises a FET-102 Series Laboratory Meltblown Spinning System and FET-103 Monofilament Meltspinning System. This advanced equipment enhances NIRI’s extensive pilot facilities and state-of-the-art analytical laboratory for fast tracking innovation. In particular, the FET meltblown system will be utilised for R&D, pilot projects, sampling and prototyping, proof of concept testing and for designing cost-effective, sustainable and innovative products.

Fibre Extrusion Technology Ltd of Leeds, UK has installed a new meltspinning system to upgrade research facilities at NIRI, the Nonwovens Innovation & Research Institute Ltd UK, a global leader in nonwoven engineering and product development.

Established in 1998, FET is a leading supplier of laboratory and pilot meltspinning systems with installations in over 35 countries and has now successfully processed almost 30 different polymer types in multifilament, monofilament and nonwoven formats.
 
The installation comprises a FET-102 Series Laboratory Meltblown Spinning System and FET-103 Monofilament Meltspinning System. This advanced equipment enhances NIRI’s extensive pilot facilities and state-of-the-art analytical laboratory for fast tracking innovation. In particular, the FET meltblown system will be utilised for R&D, pilot projects, sampling and prototyping, proof of concept testing and for designing cost-effective, sustainable and innovative products.

NIRI supports global manufacturing companies to identify new opportunities for meltblown nonwovens, develop their next generation of products and accelerate their commercialisation activities. NIRI’s new upgraded laboratory and pilot system from FET can process a wide range of polymer types, including chemically recycled polymers, bio-polymers and many difficult-to-process materials.

Source:

Project Marketing for Fibre Extrusion Technology

vombaur: Filtration textiles (c) vombaur
22.01.2021

vombaur: Filtration textiles

From the drinking water and food industries through water management and mining to the automotive and aviation sectors, mechanical filtration processes are used in almost every industry. As different as the methods, dimensions and special requirements of the filtration process are in each case – technical textiles and often tubular filters are almost always used. This means that tubular filters and narrow textiles by vombaur contribute to the safe and reliable separation or treatment of substances in the widest variety of filtration processes.

Individual solutions
The requirements placed on the textile, the material, the flow rate and the loading capacity of the filters depend on the respective use: a tubular for dewatering soil needs to withstand different forces than a tubular filter for the beverages industry. On the other hand, the latter needs to meet the highest hygiene standards. Because the requirements are so individual, vombaur develops customised filtration textiles for its customers all over the world.

From the drinking water and food industries through water management and mining to the automotive and aviation sectors, mechanical filtration processes are used in almost every industry. As different as the methods, dimensions and special requirements of the filtration process are in each case – technical textiles and often tubular filters are almost always used. This means that tubular filters and narrow textiles by vombaur contribute to the safe and reliable separation or treatment of substances in the widest variety of filtration processes.

Individual solutions
The requirements placed on the textile, the material, the flow rate and the loading capacity of the filters depend on the respective use: a tubular for dewatering soil needs to withstand different forces than a tubular filter for the beverages industry. On the other hand, the latter needs to meet the highest hygiene standards. Because the requirements are so individual, vombaur develops customised filtration textiles for its customers all over the world.

Seamless tubular filters
At vombaur, filter media are round woven seamlessly on unique looms. As a result, they have identical surface properties all around and over the entire length, such as flow rate, loading capacity, shrinkage behaviour or material thickness

Narrow textiles for fabricating filter media
"We manufacture our narrow textiles from a wide variety of high-tech yarns. Sometimes monofilament yarn is used, sometimes multifilament, sometimes spun yarn. Like the type of weave, we select the raw materials depending on the function they need to fulfil," emphasises Gert Laarakker, Sales Manager at vombaur. "So that our filtration textiles reliably perform the job they are supposed to perform. Clean. Safe. Sturdy."

Source:

stotz-design.com GmbH & Co. KG

Ascend Performance Materials: HiDURA (c) Ascend Performance Materials
17.11.2020

Ascend introduces HiDura™ long-chain polyamides

Ascend Performance Materials has launched several new grades of its HiDura™ long-chain polyamides for engineered plastics, monofilaments and cable ties. HiDura polyamide 610 and 612 are designed to provide exceptional dimensional stability and long life with enhanced resistance to chemicals, impact and abrasion.

Ascend, one of the largest fully integrated producer of PA66 resin, has developed multiple new grades of HiDura PA610 and 612 for use in automotive fuel system and brake line applications, cable ties for solar power systems, battery seals and monofilaments for brush bristles.

“Customers choose Ascend because they can rely on our materials’ performance in some of their most challenging applications,” said Kaan Gunes, HiDura business manager. “We developed HiDura to endure in extreme conditions and uses. Whether used in a connector for solar panels or as brush bristles, our customers can count on HiDura LCPAs to perform well over the life of the application.”

Ascend Performance Materials has launched several new grades of its HiDura™ long-chain polyamides for engineered plastics, monofilaments and cable ties. HiDura polyamide 610 and 612 are designed to provide exceptional dimensional stability and long life with enhanced resistance to chemicals, impact and abrasion.

Ascend, one of the largest fully integrated producer of PA66 resin, has developed multiple new grades of HiDura PA610 and 612 for use in automotive fuel system and brake line applications, cable ties for solar power systems, battery seals and monofilaments for brush bristles.

“Customers choose Ascend because they can rely on our materials’ performance in some of their most challenging applications,” said Kaan Gunes, HiDura business manager. “We developed HiDura to endure in extreme conditions and uses. Whether used in a connector for solar panels or as brush bristles, our customers can count on HiDura LCPAs to perform well over the life of the application.”

“Our customers are responding to broader shifts in the market and their products’ reliability is a key differentiator,” said Isaac Khalil, senior vice president of Ascend’s polyamide business. “We support our customers’ growth plans with high-performance materials and the application development, processing and technical expertise to get the most out of those materials.”

Information about HiDura, including application profiles and technical data sheets, can be found at https://www.ascendmaterials.com/hidura.

Source:

EMG/ Ascend Performance Materials

01.04.2020

Perlon® production is still running at all sites

Perlon®, A Serafin Group company is continuing to produce its’ quality filaments at all five sites for its’ customers in the current challenging climate. Production in China has been operating again as normal since the beginning of March after having to be temporarily halted due to the spreading of COVID-19. Production is now back up to 100%.

Production in Germany at our sites in Munderkingen (Baden-Wuerttemberg), Bobingen (Bavaria) and Wald-Michelbach (Hesse) as well as in the USA is continuing to run without any constraints. Therefore all sites are working to full capacity to fulfill all our customer orders. In particular, in the paper machine clothing area is showing an increase in sales which offsets a reduced demand in other areas such as automotive.

Perlon®, A Serafin Group company is continuing to produce its’ quality filaments at all five sites for its’ customers in the current challenging climate. Production in China has been operating again as normal since the beginning of March after having to be temporarily halted due to the spreading of COVID-19. Production is now back up to 100%.

Production in Germany at our sites in Munderkingen (Baden-Wuerttemberg), Bobingen (Bavaria) and Wald-Michelbach (Hesse) as well as in the USA is continuing to run without any constraints. Therefore all sites are working to full capacity to fulfill all our customer orders. In particular, in the paper machine clothing area is showing an increase in sales which offsets a reduced demand in other areas such as automotive.

In the current situation, the company is doing everything it can to fulfill its’ responsibility as an employer and also as a business partner. Therefore all hygiene measures at all our sites have been significantly increased so that our employees are protected as well as possible. There is hand sanitizer in every department and all of our production lines are disinfected several times a day. It has been explained to employees, what they should do in the current climate in order to minimize risk. Where possible employees are able to work from home. Perlon® has approximately 650 employees in Germany, over 80 in the USA and more than 100 in China.

High demand for monofilament for the paper industry.

The paper industry is currently experiencing a rise in demand worldwide – and Perlon® is also benefitting from this, as customers need even more high-quality monofilament and twisted yarns for the tensioning of paper machines. For the paper machine clothing field, Perlon® produced filaments are used to manufacture press fabric, which can be used either as a conveyor belt or for moisture removal on a paper production line. Due to the high mechanical strain through the presses, polyamide monofilaments or twisted yarns are therefore almost always used. Paper industry customers have increased their production recently. Whether it’s boxes to cope with the increased demand for online deliveries or paper for hygiene purposes (which everybody can identify with), there is an increased demand worldwide. The dental, hygiene and food preparation fields are also experiencing increased demand. To this end, Perlon® offers filaments for the manufacture of toothbrushes and high-quality cleaning system brushes.

More information:
Perlon Coronavirus
Source:

Perlon

Logo Perlon-Group
Perlon can continue with its production
30.03.2020

Perlon® production is still running at all sites in Germany, the USA and China

Perlon®, a Serafin Group company, is continuing to produce its’ quality filaments at all five sites for its’ customers in the current challenging climate. Production in China has been operating again as normal since the beginning of March after having to be temporarily halted due to the spreading of Covid-19. Production is now back up to 100%.

Production in Germany at our sites in Munderkingen (Baden-Wuerttemberg), Bobingen (Bavaria) and Wald-Michelbach (Hesse) as well as in the USA is continuing to run without any constraints. Therefore all sites are working to full capacity. In particular in the paper machine clothing area is showing an increase in sales which offsets a reduced demand in other areas such as automotive.

Perlon®, a Serafin Group company, is continuing to produce its’ quality filaments at all five sites for its’ customers in the current challenging climate. Production in China has been operating again as normal since the beginning of March after having to be temporarily halted due to the spreading of Covid-19. Production is now back up to 100%.

Production in Germany at our sites in Munderkingen (Baden-Wuerttemberg), Bobingen (Bavaria) and Wald-Michelbach (Hesse) as well as in the USA is continuing to run without any constraints. Therefore all sites are working to full capacity. In particular in the paper machine clothing area is showing an increase in sales which offsets a reduced demand in other areas such as automotive.

To manage the current situation responsibly, all hygiene measures at all our sites have been significantly increased so that the employees are protected as well as possible. There is hand sanitizer in every department and all of our production lines are disinfected several times a day. It has been explained to employees, what they should do in the current climate in order to minimise risk. Where possible employees are able to work from home. Perlon® has approximately 650 employees in Germany, over 80 in the USA and more than 100 in China.

High demand for monofilament for the paper industry
The paper industry is currently experiencing a rise in demand worldwide – and Perlon® is also benefitting from this, as customers need even more high quality monofilament and twisted yarns for the tensioning of paper machines. For the paper machine clothing field, Perlon® produced filaments are used to manufacture press fabric, which can be used either as a conveyor belt or for moisture removal on a paper production line. Due to the high mechanical strain through the presses, polyamide monofilaments or twisted yarns are therefore almost always used. Paper industry customers have increased their production recently. Whether it’s boxes to cope with the increased demand for online deliveries or paper for hygiene purposes (which everybody can identify with), there is an increased demand worldwide. The dental, hygiene and food preparation fields are also experiencing increased demand. To this end, Perlon® offers filaments for the manufacture of toothbrushes and high quality cleaning system brushes.

More information:
corona virus Perlon filament
Source:

Perlon®

15.02.2019

PearlTech® a Monofilament with a special surface

PERLON® - The Filament Company presenting will be showcasing PearlTech®, their latest product brand at Techtextil in Frankfurt from 14th – 17th May. PearlTech® is a monofilament which has special particles incorporated into it. The size and shape of the particles is irregular and the material is unrelated to the base polymer.

PearlTech® is currently available in a PET based variant as well as in PA. The particles are added into the polymer melt and evenly distributed over the whole cross-section. These newly acquired properties remain intact throughout the lifetime of the monofilament. The particles incorporated into the polymer matrix protrude slightly from the monofilament surface, giving PearlTech® an interesting optical appearance and a structured surface finish.

PearlTech® provides improved stability against wear, reduces machine power consumption whilst reducing the build-up of dirt on the end product. This is in comparison to standard polymers. The particles have no negative effect on hydrolysis resistance and furthermore offer the possibility to avoid the use of fluoropolymers.

PERLON® - The Filament Company presenting will be showcasing PearlTech®, their latest product brand at Techtextil in Frankfurt from 14th – 17th May. PearlTech® is a monofilament which has special particles incorporated into it. The size and shape of the particles is irregular and the material is unrelated to the base polymer.

PearlTech® is currently available in a PET based variant as well as in PA. The particles are added into the polymer melt and evenly distributed over the whole cross-section. These newly acquired properties remain intact throughout the lifetime of the monofilament. The particles incorporated into the polymer matrix protrude slightly from the monofilament surface, giving PearlTech® an interesting optical appearance and a structured surface finish.

PearlTech® provides improved stability against wear, reduces machine power consumption whilst reducing the build-up of dirt on the end product. This is in comparison to standard polymers. The particles have no negative effect on hydrolysis resistance and furthermore offer the possibility to avoid the use of fluoropolymers.

More information:
Perlon Perlon Group
Source:

Perlon GmbH