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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

Photo: Ralph Koch für Gebr. Otto
13.05.2022

Gebr. Otto with a specialised portfolio at Techtextil 2022

Gebr. Otto is exhibiting at this year’s Techtextil from 21 to 24 June in Frankfurt. The Dietenheim-based textile company manufactures a selected range of functional high-tech yarns made, for example, of conductive, high-strength and flame-retardant fibres. Gebr. Otto’s aim at the trade fair is to make personal contacts and to expand regional technology chains. The textile solution provider is to be found, as in past years, at the BW-I joint stand in Hall 12.1 at Booth No. C80.

Gebr. Otto is exhibiting at this year’s Techtextil from 21 to 24 June in Frankfurt. The Dietenheim-based textile company manufactures a selected range of functional high-tech yarns made, for example, of conductive, high-strength and flame-retardant fibres. Gebr. Otto’s aim at the trade fair is to make personal contacts and to expand regional technology chains. The textile solution provider is to be found, as in past years, at the BW-I joint stand in Hall 12.1 at Booth No. C80.

Growing demand for technical yarns
“In the industry Gebr. Otto is mostly known for its cotton yarns and twines,” says Robin Hefter, who is in charge of technical textiles at Gebr. Otto. Cotton is the fibre that is mainly spun in the company’s spinning mill. It has been Gebr. Otto’s main line of business for over 100 years. The technical yarns that have been in the company’s product range for a good five years are, by contrast, still relative newcomers. They account for around 10 per cent of the company’s output, their share of which is on the increase. “Technical textiles have proved to be a growth sector in recent years,” Hefter explains, “and due to current political events demand for them has increased even further.”

Portfolio with a protective character
That is a reference to personal protective equipment – clothing and gloves. Gebr. Otto’s highperformance functional yarns, many of which are based on high-tech fibres, are specially designed for use in this area. In addition to flame-retardant yarns made of meta-aramid Gebr. Otto processes antistatic or conductive fibres.

As a rule many chemical fibres are easily electrically chargeable without being able to discharge by themselves due to their low moisture absorption. That is why undesired discharges occur,
maybe even the next time you shake hands. In some situations, they can be life-threatening. “Imagine the team at a pit stop in a Formula 1 race,” Robin Hefter says. “refuelling a racing car
under pressure of time. There must not be a single spark, no matter how small.” That is why Gebr. Otto adds antistatic fibres to its technical yarns. They prevent electrostatic charging and
offer safety not only to pit stop teams but also to filling station attendants. If electric conductivity is required, conductive fibres are added. And high-strength fibres are used if high or ultra-high tensile strength is required.

Colour fastness rather than safety is required when it comes to spun-dyed yarns. The fibres take up the pigments more homogeneously than if they are dyed as yarn. They are much more colourfast and fade markedly less in sunlight because the pigment particles are better enclosed in the fibre.

Source:

Gebr. Otto Baumwollfeinzwirnerei GmbH + Co. KG

Cobra
05.04.2022

COBRA to Sponsor and Manufacture JEC Trophies

Cobra International, leading manufacturer of advanced composite products for the water sports, automotive, marine, UAV, and industrial sectors, reinforces its long collaboration with the JEC Group by designing and manufacturing this year’s JEC Composites Innovation trophies. Cobra has designed and manufactured 35 composite material trophies for the JEC Composites Innovation and Start Up Booster competitions which will be presented during the 2022 awards ceremonies and throughout other JEC Group events in 2022.

Cobra International, leading manufacturer of advanced composite products for the water sports, automotive, marine, UAV, and industrial sectors, reinforces its long collaboration with the JEC Group by designing and manufacturing this year’s JEC Composites Innovation trophies. Cobra has designed and manufactured 35 composite material trophies for the JEC Composites Innovation and Start Up Booster competitions which will be presented during the 2022 awards ceremonies and throughout other JEC Group events in 2022.

The 2022 trophies are designed and produced by Cobra’s Design and Development department - the in house team that supports Cobra’s mass production operations with specialist expertise in product design, industrial design & prototyping. The sweeping curves of the trophies are influenced by perfume bottles, linking back to JEC’s French cultural heritage.  The design also combines a pallet of different materials to symbolise the JEC Group’s complete coverage of the composites sector. Acrylic, upcycled teak production waste from the furniture industry, Innegra™, flax, carbon, and aramid materials have been combined with Sicomin’s GreenPoxy 33 bio-resin to reference the award programme’s combined focus on innovation and sustainability.

The JEC Composites Innovation Awards are presented annually, recognising, and rewarding the most cutting-edge and ingenious projects that exploit the full potential of composite materials. Over the last 20 years, the JEC Composites Innovation and Startup programs have celebrated both innovation and partnership. The JEC Group will announce the winners for the 2022 JEC Composites Innovation awards on April 26th in Paris and in live streaming, and the Start-up Booster winners on May 3rd at JEC World.

“Cobra is delighted to reinforce its partnership with JEC Group, sponsoring and manufacturing the JEC trophies for 2022,” comments Danu Chotikapanich, CEO, Cobra.  “These are two of the most prestigious and respected awards programs within the composites industry and one that also matches Cobra’s ongoing commitment to innovation and sustainability improvements. Working with the latest bio resin technology, natural fibre reinforcements and upcycled composite and wood production waste materials our Design and Development team have created some stunning trophies for this year’s award season.”

Source:

COBRA International Co.,Ltd.

© Heinrich GLAESER
13.03.2022

Heinrich GLAESER: Zweite Chance für High-Tech-Fasern

  • Recycling von Resttextilien aus Aramiden und Polyimiden

Inhärente Hitze- und Flammschutztextilien werden aus hochpreisigen Faserrohstoffen gefertigt, die auch in den Abfällen aus Produktion und Verarbeitung stecken. Heinrich GLAESER gewinnt diese Werte zurück: Das Traditionsunternehmen recycelt in seiner Reißerei para- und meta-Aramide sowie Polyimide und verhilft auch ausgemusterten schusssicheren Westen zu einem zweiten Leben.

Aramid- und Polyimid-Fasern sind aus High-Tech-Stoffen nicht wegzudenken. Sie ermöglichen die Herstellung flexibler Textilien mit vergleichsweise geringem Gewicht und gutem Schutz gegen Flammen, Hitze, Abrasion oder Durchschuss. Da die Abschirmungseigenschaften dauerhaft in den Fasern gebunden sind, werden solche Textilien in vielen Einsatzbereichen geschätzt. Dazu zählen Hochleistungsfilter und Kabelummantelungen, Dämmvliese, Funktionsunterwäsche, Motorradkleidung, Hitze-, Flamm- Schnitt- und Störlichtbogen-Schutzkleidung oder schusssichere Westen. Ein Nachteil der hochklassigen Fasern ist jedoch ihre begrenzte Verfügbarbarkeit.

  • Recycling von Resttextilien aus Aramiden und Polyimiden

Inhärente Hitze- und Flammschutztextilien werden aus hochpreisigen Faserrohstoffen gefertigt, die auch in den Abfällen aus Produktion und Verarbeitung stecken. Heinrich GLAESER gewinnt diese Werte zurück: Das Traditionsunternehmen recycelt in seiner Reißerei para- und meta-Aramide sowie Polyimide und verhilft auch ausgemusterten schusssicheren Westen zu einem zweiten Leben.

Aramid- und Polyimid-Fasern sind aus High-Tech-Stoffen nicht wegzudenken. Sie ermöglichen die Herstellung flexibler Textilien mit vergleichsweise geringem Gewicht und gutem Schutz gegen Flammen, Hitze, Abrasion oder Durchschuss. Da die Abschirmungseigenschaften dauerhaft in den Fasern gebunden sind, werden solche Textilien in vielen Einsatzbereichen geschätzt. Dazu zählen Hochleistungsfilter und Kabelummantelungen, Dämmvliese, Funktionsunterwäsche, Motorradkleidung, Hitze-, Flamm- Schnitt- und Störlichtbogen-Schutzkleidung oder schusssichere Westen. Ein Nachteil der hochklassigen Fasern ist jedoch ihre begrenzte Verfügbarbarkeit.

Fasern sind Mangelware
„Das Marktvolumen an Flamm- und Hitzeschutzfasern mit inhärenten Eigenschaften ist aufgrund der sehr komplexen Produktion limitiert und die Preise für meta- und para-Aramide sowie Polyimide sind dementsprechend hoch. Daher stecken in jedem Rest aus der Filament- Garn, Maschenwaren- und Gewebeproduktion wertvolle Ressourcen, die in der Textilindustrie wieder eingesetzt werden können“, weiß Roland Settele, Prokurist und Abteilungsleiter der Abteilung Rohstoffhandel bei Heinrich GLAESER. „In unserer Reißerei recyceln wir sie und führen sie als Sekundärfasern in den textilen Kreislauf zurück.“

Hochleistungsanspruch für sekundäre Aramid-Fasern
Zu den High-Tech-Resttextilien, die Heinrich GLAESER verwerten kann, zählt sortenreiner Ausschuss aus allen Bereichen der Fasergewinnung und -verarbeitung von para- und meta-Aramiden sowie Polyimiden. Auch Mischgewebe aus para-Aramid-Filamenten mit einem höchstens zehnprozentigen Anteil anderer Synthesefasern werden in dem Unternehmen wieder aufbereitet. „Wir sammeln außerdem ballistische Schutzwesten ein, deren maximale Gebrauchsdauer abgelaufen ist oder die aus anderen Gründen ausgemustert wurden“, ergänzt Roland Settele. „Diese klare Fokussierung auf ausgewählte Reste hängt mit dem hohen Qualitätsanspruch zusammen, den wir an unsere Recyclingfasern stellen: Sie müssen bei der Weiterverarbeitung zu Garnen oder Vliesen optimale Leistungseigenschaften vorweisen.“

Inhouse-Recycling
Um die Fasern aus den von Heinrich GLAESER aufgekauften Alttextilien zurückzugewinnen, werden die Abfälle zuerst in Spezialanlagen geschnitten und danach in Reißmaschinen aufbereitet. Die dadurch gewonnenen Reißfasern gehen dann in die Nadelvliesherstellung oder werden in spezialisierten Spinnereien zu Garnherstellung verwertet.

Source:

Textilberatung Hamburg für Heinrich GLAESER

(c) ARMALITH®
13.01.2022

Armalith presents Armalith 2.0® and its portfolio

«Armalith® is the story of my passions. Firstly textiles, which opened the doors to the great ready-to-wear and haute couture houses. Then motorcycling, an incredible vehicle for finding freedom and meeting people. In 2003, I combined these two passions by creating Armalith® with one idea in mind: to offer the best possible protection to bikers without compromising on the comfort and authenticity of a real pair of jeans. Today, Armalith 2.0® is the denim of choice for the most prestigious brands for their abrasion protection equipment.» Pierre-Henry Servajean, Armalith® MK Support manager.

Armalith 2.0 in facts:

«Armalith® is the story of my passions. Firstly textiles, which opened the doors to the great ready-to-wear and haute couture houses. Then motorcycling, an incredible vehicle for finding freedom and meeting people. In 2003, I combined these two passions by creating Armalith® with one idea in mind: to offer the best possible protection to bikers without compromising on the comfort and authenticity of a real pair of jeans. Today, Armalith 2.0® is the denim of choice for the most prestigious brands for their abrasion protection equipment.» Pierre-Henry Servajean, Armalith® MK Support manager.

Armalith 2.0 in facts:

  • The mechanical qualities of leather with the comfort of denim
  • Extreme resistance to cuts, traction, tears and abrasion
  • High UV resistance that preserves its mechanical properties
  • One layer for resistance that is superior to any lined products

High technology for high security
The heart of the armour is made of UHMWPE (high molecular weight polyethylene). This high resistance fiber comes from aerospace research; it is used for space module re-entry ropes, military armour, mooring cables for offshore platforms and more. This core is then covered with a cotton fiber using an exclusive and patented process, and combined with LYCRA® dualFX® technology for a powerful and durable stretch.

High resistance for high protection
High-tech integrated into authentic denim for unique comfort and protection, Armalith 2.0® meets the most demanding standards such as Darmstadt and Cambridge, which are more scientific than the CE certification.
Armalith 2.0® is available in 3 grades - A, AA and AAA - to cover all needs from urban use to maximum protection against abrasion. In its EXO (KNIT) form, Armalith 2.0® can be used as a lining to increase resistance in specific areas without using other uncomfortable solutions.

High comfort for high style
Safety in a single layer of fabric, comfort, softness, stretchability, and style! Armalith 2.0® is a real denim. Soft, supple, comfortable, breathable and hydrophilic, it allows all the usual textures, dyes, prints and finishing in low temperatures.

Armalith 2.0® is an ethical and responsible denim

  • GRS cotton sourced from Greece.
  • Designed in France, manufactured and produced on a single site - spinning, dyeing, indigo, weaving, finishing - at Tejidos Royo in Spain.
  • UHMWPE fibre requires half the energy to produce than aramids.
  • The UHMWPE fibre used under the ARMALITH 2.0® patent is continuous (no energy-intensive cracking) and untextured (no energy-intensive texturing).
  • All Armalith 2.0® denim manufacturing processes are carried out at low temperatures: a world first for stretch fabrics.
  • No heavy metals used in the pigments, the indigo is made using a slow, cold, waterless process
  • Resistant to more than a thousand washes for greater longevity and without loss of elasticity.
More information:
Armalith Denim Leather stretch fabric
Source:

ARMALITH® / VIA VENETO

Oerlikon: Booth at ITMA Asia 2021 (c) Oerlikon
01.06.2021

Oerlikon with a hybrid trade show concept at ITMA Asia

On the occasion of the VDMA press conference, André Wissenberg, Head of Marketing, Corporate Communications and Public Affairs at Oerlikon Polymer Processing Solutions Division, presented the company's concept for ITMA Asia with the claim: Clean Technology. Smart Factory.

Due to the Corona pandemic, Oerlikon has decided to concentrate with their Chinese sales and service teams on guests primarily from China and greater Asia. However, some experts from Germany, who are working in China at our locations anyway, will be live on site at the booth. Other experts from Germany, India and US will be available online for the entire 5 days of the trade fair and will simply be connected by video conference to the discussion with the visitors on site if there is a need for.

On the occasion of the VDMA press conference, André Wissenberg, Head of Marketing, Corporate Communications and Public Affairs at Oerlikon Polymer Processing Solutions Division, presented the company's concept for ITMA Asia with the claim: Clean Technology. Smart Factory.

Due to the Corona pandemic, Oerlikon has decided to concentrate with their Chinese sales and service teams on guests primarily from China and greater Asia. However, some experts from Germany, who are working in China at our locations anyway, will be live on site at the booth. Other experts from Germany, India and US will be available online for the entire 5 days of the trade fair and will simply be connected by video conference to the discussion with the visitors on site if there is a need for.

At ITMA Asia 2021, Oerlikon will present the next generation of an automatic texturing solution with up to 25 % energy saving and up to 30 % higher production speed, easy maintenance and best yarn quality. The core of this machine, the socalled EvoCooler, will be shown as an exhibit in combination with digital solutions like AIM4DTY. In the field of high-precision flow control solutions components, the two new gear metering pumps developments for the production of aramid and spandex will be presented as well.

Swiss weaving machinery manufacturers are in the forefront of novel application development ©Stäubli
Multilayer Aramid
17.03.2021

Swiss weaving: Fabrics of the future

  • Swiss weaving machinery manufacturers are in the forefront of novel application development

Shoes and electronic calculators are probably not the first products people would associate with the textile weaving process. But they certainly signpost the future for woven fabrics, as two examples of the ever-wider possibilities of latest technology in the field. Fashion and function already combine in the increasing popularity of woven fabrics for shoes, and this is a present and future trend. Calculators in fabrics? That’s another story of ingenious development, using so-called ‘meander fields’ on the back and keys printed on the front of the material.

  • Swiss weaving machinery manufacturers are in the forefront of novel application development

Shoes and electronic calculators are probably not the first products people would associate with the textile weaving process. But they certainly signpost the future for woven fabrics, as two examples of the ever-wider possibilities of latest technology in the field. Fashion and function already combine in the increasing popularity of woven fabrics for shoes, and this is a present and future trend. Calculators in fabrics? That’s another story of ingenious development, using so-called ‘meander fields’ on the back and keys printed on the front of the material.

These glimpses of the outlook for modern weavers are among the highlights of developments now being pioneered by Swiss textile machinery companies. All weaving markets require innovation, as well as speed, efficiency, quality and sustainability. Member firms of the Swiss Textile Machinery Association respond to these needs at every point in the process – from tightening the first thread in the warp to winding the last inch for fabric delivery. They also share a common advantage, with a leading position in the traditional weaving industry as well as the expertise to foster new and exciting applications.

Technology and research cooperation
The concept of a ‘textile calculator’ was developed by Jakob Müller Group, in cooperation with the textile research institute Thuringen-Vogtland. Müller’s patented MDW® multi-directional weaving technology is able to create the meander fields which allow calculator functions to be accessed at a touch. A novel and useful facility, which suggests limitless expansion.

Today, the latest woven shoes are appreciated for their precise and comfortable fit. They score through their durability, strength and stability, meeting the requirements of individual athletes across many sports, as well as leisurewear. Stäubli is well known as a leading global specialist in weaving preparation, shedding systems and high-speed textile machinery. Its jacquard machines offer great flexibility across a wide range of formats, weaving all types of technical textiles, lightweight reinforcement fabrics – and shoes.

It’s possible to weave new materials such as ceramics, mix fibers such as aramid, carbon and other, and produce innovative multi-layers with variable thicknesses. Such applications put special demands on weaving machines which are fulfilled by Stäubli high-performance TF weaving systems.

Great weaving results are impossible without perfect warp tension, now available thanks to the world-leading electronic warp feeding systems of Crealet. Some market segments in weaving industry today demand warp let-off systems which meet individual customer requirements. For example, the company has recognized expertise to understand that geotextile products often need special treatment, as provided by its intelligent warp tension control system. Individual and connective solutions are designed to allow external support via remote link. Crealet’s warp let-off systems are widely used in both ribbon and broadloom weaving, for technical textiles applied on single or multiple warp beams and creels.

Functional, sustainable, automated
Trends in the field of woven narrow fabrics are clearly focused on functionality and sustainability. The Jakob Müller Group has already embraced these principles – for example using natural fibers for 100% recyclable labels with a soft-feel selvedge. It also focuses as much as possible on the processing of recycled, synthetic materials. Both PET bottles and polyester waste from production are recycled and processed into elastic and rigid tapes for the apparel industry.

For efficient fabric production environments, it is now recognized that automated quality solutions are essential. Quality standards are increasing everywhere and zero-defect levels are mandatory for sensitive applications such as airbags and protective apparel.

Uster’s latest generation of on-loom monitoring and inspection systems offers real operational improvements for weavers. The fabric quality monitoring prevents waste, while the quality assurance system significantly improves first-quality yield for all applications. Protecting fabric makers from costly claims and damaged reputations, automated fabric inspection also removes the need for slow, costly and unreliable manual inspection, freeing operators to focus on higher-skilled jobs.

Smart and collaborative robotics (cobots) offer many automation possibilities in weaving rooms. Stäubli’s future oriented robotics division is a driver in this segment with first effective installations in warp and creel preparation.

Control and productivity
Willy Grob’s specialized solutions for woven fabric winding focus on reliable control of tension, keeping it constant from the start of the process right through to the full cloth roll. Continuous digital control is especially important for sensitive fabrics, while performance and productivity are also critical advantages. In this regard, the company’s large-scale batching units can provide ten times the winding capacity of a regular winder integrated in the weaving machine.

The customized concept by Grob as well as design and implementation result in great flexibility and functionality of the fabric winding equipment – yet another example of Swiss ingenuity in textile machinery.  
There is even more innovation to come in weaving – and in other segments – from members of the Swiss Textile Machinery Association in future! This confident assertion is founded on an impressive statistic: the 4077 years of experience behind the creative power of the association’s member firms. It’s proof positive that their developments grow out of profound knowledge and continuous research.

MaruHachi/AMAC: High-temperature thermoplastic tapes and laminates (c) MaruHachi
16.02.2021

MaruHachi/AMAC: High-temperature thermoplastic tapes and laminates

With their recently installed high-temperature unidirectional tape line, Japan-based composites manufacturer MaruHachi enables new opportunities for high-end applications in demanding market segments like aerospace, automotive or others outperforming traditional materials based on PP and PA which are already widely available.

In the first phase, MaruHachi will produce up to 40 tons/year and focuses now specifically on high-temperature thermoplastic uni-directional (UD) tapes and multi-layer sheet laminates. The material is based on high-performance fibers like carbon, aramid, glass or natural fibers and the matrix can be high-performance polymers like PPS, PEEK or other higher temperature polymers, which are much tougher than epoxies and easy to recycle. With a width of 500 mm, a specific weight from 60 to 350 g/m2, depending on the chosen material, the lines can operate under temperatures up to 420 degrees Celsius. Working under these extremely high temperatures allows for better material properties of the final application, higher performance, increased resistance and integrated high-performance functionalities e.g. by overmoulding.

With their recently installed high-temperature unidirectional tape line, Japan-based composites manufacturer MaruHachi enables new opportunities for high-end applications in demanding market segments like aerospace, automotive or others outperforming traditional materials based on PP and PA which are already widely available.

In the first phase, MaruHachi will produce up to 40 tons/year and focuses now specifically on high-temperature thermoplastic uni-directional (UD) tapes and multi-layer sheet laminates. The material is based on high-performance fibers like carbon, aramid, glass or natural fibers and the matrix can be high-performance polymers like PPS, PEEK or other higher temperature polymers, which are much tougher than epoxies and easy to recycle. With a width of 500 mm, a specific weight from 60 to 350 g/m2, depending on the chosen material, the lines can operate under temperatures up to 420 degrees Celsius. Working under these extremely high temperatures allows for better material properties of the final application, higher performance, increased resistance and integrated high-performance functionalities e.g. by overmoulding.

Since 2017, MaruHachi Group is active in the European market in cooperation with Dr. Michael Effing,the CEO of AMAC GmbH, who advises and supports the company strategically. The established, family-owned MaruHachi Group has a strong history in automotive and medical textiles and has been active in the innovative composites market for more than 15 years.

Toshi Sugahara, CEO of MaruHachi: “For many years, we have already been cooperating with domestic and international partners on high-demand applications and therefore, MaruHachi decided now to invest over 1 million EUR in this new line in phase 1, including a funding participation from the Japanese government NEDO. New developments in phase 2 will be be undertaken by end of 2021 on the downstream technologies like the automated preforming and consolidation. With our new products, we want to contribute to significant weight reductions of the final products, thus improve energy efficiency while offering a cost-efficient and high-quality solution.”

Dr. Effing, CEO of AMAC GmbH confirms: „The focus on the niche of high-temperature products based on PPS and PEEK allows MaruHachi on very demanding high-end applications such as structural frames on space and aircrafts, aircraft seats or engine components etc. The tapes are fully recyclable and can be processed e.g. with high-speed with laser-based tape placement machines and robots.”

Source:

AMAC GmbH

Pump components made from zirconium oxide ceramic (c) Oerlikon
Pump components made from zirconium oxide ceramic
12.11.2020

Oerlikon: Robust pumps for sophisticated special fibers

At first glance, rowing boats, the Airbus 380, safety equipment and stadium roofing have very little on common. They receive their specific properties as a result of the use of special fibers, among other things: aramid fibers and carbon fibers are processed into special yarns that are frequently deployed as compound materials. These fibers are growing in demand as the world seeks to reduce its reliance on fossil fuels; new solutions are required to reduce weight and replace heavy metallic parts.

Aramid fibers are produced in a highly-chemical process that is extremely aggressive; the acrylic precursor used to manufacture carbon fibers is a different process, but again no less difficult. In these sophisticated processes, the gear metering pumps are not only responsible for the high-precision control of the melt transport; durability, resistance within aggressive environments and cost efficiency also play decisive roles.

At first glance, rowing boats, the Airbus 380, safety equipment and stadium roofing have very little on common. They receive their specific properties as a result of the use of special fibers, among other things: aramid fibers and carbon fibers are processed into special yarns that are frequently deployed as compound materials. These fibers are growing in demand as the world seeks to reduce its reliance on fossil fuels; new solutions are required to reduce weight and replace heavy metallic parts.

Aramid fibers are produced in a highly-chemical process that is extremely aggressive; the acrylic precursor used to manufacture carbon fibers is a different process, but again no less difficult. In these sophisticated processes, the gear metering pumps are not only responsible for the high-precision control of the melt transport; durability, resistance within aggressive environments and cost efficiency also play decisive roles.

Special materials for special tasks
The process, the expected pump lifespan and the maintenance frequency are the decisive factors for choosing the materials from which the pumps and their components are manufactured. For optimum results, Oerlikon Barmag offers solutions that intelligently combine the various materials and the latest technologies. Whether in the case of surfaces with ceramic coatings, gears and shafts featuring DLC coatings, pumps made from cobalt alloys (StelliteTM) or robust and durable Oerlikon Barmag hybrid constructions comprising zirconium oxide ceramic and duplex stainless steel – the high-precision ZP- and GM-series pumps are design-optimized depending on the intended use. Various seal systems and customized drive concepts round off the pump program.

Source:

Oerlikon

vombaur: Composites for Aviation and Automotive (c) vombaur
Pioneering tech tex
04.11.2020

vombaur: Composites for Aviation and Automotive

  • Composite textiles for modern mobility
  • Extremely lightweight, high tensile components by vombaur

In the snow, on a plane, in an electric vehicle or on a bicycle: no matter where and how we are on the road – composite textiles by vombaur ensure that we make good progress. With materials that are both extremely light and extremely reliable.

Lightweight components for modern mobility
Modern mobility relies on high-tech lightweight components Narrow textiles by vombaur are woven from high-performance fibres. On looms that are specially made for particularly demanding composite textiles: the textile company uses special machines to produce high-tech woven tapes with closed selvedges and elasticated UD tubulars that retain their 0° orientation over the entire length of the component – regardless of the diameter. Since they do not exhibit undesired break points caused by seams or welding, they not only have a particularly high bursting strength, they are also extremely reliable and durable.

  • Composite textiles for modern mobility
  • Extremely lightweight, high tensile components by vombaur

In the snow, on a plane, in an electric vehicle or on a bicycle: no matter where and how we are on the road – composite textiles by vombaur ensure that we make good progress. With materials that are both extremely light and extremely reliable.

Lightweight components for modern mobility
Modern mobility relies on high-tech lightweight components Narrow textiles by vombaur are woven from high-performance fibres. On looms that are specially made for particularly demanding composite textiles: the textile company uses special machines to produce high-tech woven tapes with closed selvedges and elasticated UD tubulars that retain their 0° orientation over the entire length of the component – regardless of the diameter. Since they do not exhibit undesired break points caused by seams or welding, they not only have a particularly high bursting strength, they are also extremely reliable and durable.

Challenging applications
"From snowboards to aerospace – the applications for our composite textiles are demanding; the mechanical, chemical and thermal requirements are extreme," explains COO Christoph Schliefer. "As a development partner, we at vombaur are therefore often involved in product development at an early stage. We specify our woven tapes and tubulars individually for each project to suit the specific task at hand."

High quality raw materials, wide variety of geometries
The variety of shapes is virtually unlimited. vombaur manufactures 3D fabrics for composites in individual special shapes from carbon, aramid, glass or hybrids. Curves, edges, tubulars, spiral fabrics – the shape of the 3D fabrics, like the material itself, depends entirely on the task at hand. Powder or non-woven coatings create additional important properties.

Pioneering tech tex
"Developments in the field of modern mobility are happening at a rapid pace," emphasizes Schliefer. "With our composite textiles for extremely lightweight and high tenacity components, we at vombaur are also pushing these developments forward."

Cetex (c) Cetex
f.l.t.r.: Falk Mehlhorn (Cetex), Florian Mitzscherlich (The FilamentFactory), Matthias Hess (The FilamentFactory), Yasar Kiray (The Filament Factory), Sebastian Iwan (thermoPre ENGINEERING GmbH), Sven P. Fritz (The FilamentFactory)
16.10.2020

Cetex: Long-term cooperation in the area of hybrid rovings

The Cetex Institut gGmbH, the thermoPre ENGINEERING GmbH and The FilamentFactory GmbH cooperate in the development, production and marketing of novel hybrid materials. The cooperation agreement signed on October 2, 2020 in Chemnitz takes the collaboration to a new level. "We are pleased to be able to supply the hybrid rovings to the end user not only in an application-specific manner, but also to offer the engineering for subsequent component applications, including the prototyping of the FRP components," says Sebastian Nendel, Managing Director of Cetex.

The Cetex Institut gGmbH, the thermoPre ENGINEERING GmbH and The FilamentFactory GmbH cooperate in the development, production and marketing of novel hybrid materials. The cooperation agreement signed on October 2, 2020 in Chemnitz takes the collaboration to a new level. "We are pleased to be able to supply the hybrid rovings to the end user not only in an application-specific manner, but also to offer the engineering for subsequent component applications, including the prototyping of the FRP components," says Sebastian Nendel, Managing Director of Cetex.

Patented process for the production of hybrid rovings
In the last 3 years the Cetex Institute has developed a plant technology for the production of hybrid rovings. By means of the patented process, different material combinations can be produced according to customer specifications. Material combinations of reinforcing fibers (glass, basalt, carbon, aramid or high-strength polymer fibers) can be combined with matrix fibers (PP, PET, PA, PPS, PEEK), but also special combinations of different reinforcing fibers or the combination of reinforcing fibers with metal fibers. Advantages of the new hybrid roving are the torsion-free and completely stretched fiber layer and the associated optimal utilization of the properties of the reinforcing fibers, as well as a very good homogeneity, whereby excellent processing can be achieved in later process steps.

Series production as next step
The next goal is clearly defined: Under the agreement, the process is to be jointly developed further by the project partners and transferred to series production. These joint activities form the basis for many years of intensive cooperation in this new field.

Source:

Cetex Institut gGmbH

(c) IRO AB
05.07.2019

IRO AB: Zero twist for composite fabrics guaranteed

IRO AB, a member of the Vandewiele group, reports strong interest in its ZTF Zero Twist Feeder introduced at the recent ITMA 2019 in Barcelona, Spain, particularly from companies involved in the growing market of textile reinforcements for composites.

In the weaving of fibres such as carbon, glass and aramids, as well as thermoplastic tapes for highly-engineered composite fabrics, it is essential that there is no twist in the feed, which this new machine absolutely guarantees.

“The ZTF Zero Twist Feeder keeps the tape yarns or fibre tows constantly stretched to avoid the risks of any snarls or twisting,” explains Sales and Marketing Manager Pär Hedman. “During ITMA 2019 I spoke to many companies interested in this new machine, which will be supplied in bespoke versions specific to the individual needs of each customer and the intended end-use.”

IRO AB, a member of the Vandewiele group, reports strong interest in its ZTF Zero Twist Feeder introduced at the recent ITMA 2019 in Barcelona, Spain, particularly from companies involved in the growing market of textile reinforcements for composites.

In the weaving of fibres such as carbon, glass and aramids, as well as thermoplastic tapes for highly-engineered composite fabrics, it is essential that there is no twist in the feed, which this new machine absolutely guarantees.

“The ZTF Zero Twist Feeder keeps the tape yarns or fibre tows constantly stretched to avoid the risks of any snarls or twisting,” explains Sales and Marketing Manager Pär Hedman. “During ITMA 2019 I spoke to many companies interested in this new machine, which will be supplied in bespoke versions specific to the individual needs of each customer and the intended end-use.”

More information:
IRO AB Vandewiele ITMA 2019
Source:

TMAS by AWOL Media.

22.05.2019

Filidea: Premium range of racing suits for Formula 1 and the World Rally Championship

The last frontier of innovation in racing suits made with yarns in Metamicro is the model Prime SP-16+, designed in collaboration with the Team McLaren Honda F.1

The last frontier of innovation in racing suits made with yarns in Metamicro is the model Prime SP-16+, designed in collaboration with the Team McLaren Honda F.1

The spinning mill Filidea, joint venture between Marchi & Fildi spa and Abalıoğlu Holding A.Ş specialized in technical and high performance yarns with natural and synthtic fibers, is parter of Sparco, italian Company leader for the production of automotive components and technical apparels for the most important world Championships. The cooperation between the two Companies located in Piedmont, northern Italy, is focused on the supply of yarns with Metamicro in an exclusive composition, that are used for the production of the racing suits Sparco of the Premium range for Formula 1 and the World Rally Championship. The fire resistant yarn Metamicro based on aramidic fibers are a product of the latest generation, for their production it is necessary a special spinning line. The production is following the strict Sparco standards. Sparco controls all the production chain of racing suits, from Filidea, who has the competence to dye all the yarns with aramidic fibers in its own dyeing plant, to the woven fabric, produced and dyed in its own plant, to the woven fabric made by the italian Company TAT, till the production of garments. The process is always improved and tested.

Metamicro yarns are made by an high peformance spinning process. They are used for the production of fire resistant fabrics, that make a protection barrier for the body against flames and high temperature. The very fine micronage allows the production of very light fabrics with thick texture, the perfect base for light and comfortable suits. These features assure easier movements to the driver and the maximum protection from fire, keeping high breathability.

Filidea has invested on its production capacity of corespun yarns with XLANCE® technology, fiber used for the production of longlasting workwear apparel with an excellent fitting.

The spinning mill Filidea, joint venture between Marchi & Fildi spa and Abalıoğlu Holding A.Ş specialize in technical and high performance yarns with natural and synthtic fibers, is increasing its production of blends with XLANCE®.

XLANCE® is the innovative elastolefin fibe, elastic, chlorine and UV resistant. It finds application on workwear and outdoor clothing, with natural and comfort fitting. The comfort stretch feature follows the the body’s natural movement during the day-to-day work. Workwear clothing are so light, resistant and with a contemporary look. Resistance to abrasion and to frequent industrial laundry cycles with chemical products meet the needs of several professional sectors. XLANCE® is produced by ©Xlance srl, Company located in Varallo Pombia (province of Novara – Piedmont – Italy) that found in Filidea the perfect partner for the development of specific yarns, that are getting more and more requested. An innovation that is getting more important thanks to the cooperation of the two textile Companies located in Piedmont. Filidea has been producing XLANCE® yarns since 2009 and has now a great know-how. The Company to strengthens its leadership in technical yarns, for the main applications on protetictive garments, workwear, sportswear, racing and automotive. Filidea has developed and consolidated several partnerships for the creation of complete supply chains and the collaboration with ©Xlance is a perfect example.

Source:

Filidea