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DITF: CO2-negative construction with new composite material Photo: DITF
Structure of the wall element
20.03.2024

DITF: CO2-negative construction with new composite material

The DITF is leading the joint project "DACCUS-Pre*". The basic idea of the project is to develop a new building material that stores carbon in the long term and removes more CO2 from the atmosphere than is emitted during its production.       

In collaboration with the company TechnoCarbon Technologies, the project is now well advanced - a first demonstrator in the form of a house wall element has been realized. It consists of three materials: Natural stone, carbon fibers and biochar. Each component contributes in a different way to the negative CO2 balance of the material:

Two slabs of natural stone form the exposed walls of the wall element. The mechanical processing of the material, i.e. sawing in stone cutting machines, produces significant quantities of stone dust. This is very reactive due to its large specific surface area. Silicate weathering of the rock dust permanently binds a large amount of CO2 from the atmosphere.

The DITF is leading the joint project "DACCUS-Pre*". The basic idea of the project is to develop a new building material that stores carbon in the long term and removes more CO2 from the atmosphere than is emitted during its production.       

In collaboration with the company TechnoCarbon Technologies, the project is now well advanced - a first demonstrator in the form of a house wall element has been realized. It consists of three materials: Natural stone, carbon fibers and biochar. Each component contributes in a different way to the negative CO2 balance of the material:

Two slabs of natural stone form the exposed walls of the wall element. The mechanical processing of the material, i.e. sawing in stone cutting machines, produces significant quantities of stone dust. This is very reactive due to its large specific surface area. Silicate weathering of the rock dust permanently binds a large amount of CO2 from the atmosphere.

Carbon fibers in the form of technical fabrics reinforce the side walls of the wall elements. They absorb tensile forces and are intended to stabilize the building material in the same way as reinforcing steel in concrete. The carbon fibers used are bio-based, produced from biomass. Lignin-based carbon fibers, which have long been technically optimized at DITF Denkendorf, are particularly suitable for this application: They are inexpensive due to low raw material costs and have a high carbon yield. In addition, unlike reinforcing steel, they are not susceptible to oxidation and therefore last much longer. Although carbon fibers are more energy-intensive to produce than steel, as used in reinforced concrete, only a small amount is needed for use in building materials. As a result, the energy and CO2 balance is much better than for reinforced concrete. By using solar heat and biomass to produce the carbon fibers and the weathering of the stone dust, the CO2 balance of the new building material is actually negative, making it possible to construct CO2-negative buildings.

The third component of the new building material is biochar. This is used as a filler between the two rock slabs. The char acts as an effective insulating material. It is also a permanent source of CO2 storage, which plays a significant role in the CO2 balance of the entire wall element.

From a technical point of view, the already realized demonstrator, a wall element for structural engineering, is well developed. The natural stone used is a gabbro from India, which has a high-quality appearance and is suitable for high loads. This has been proven in load tests.  Bio-based carbon fibers serve as the top layer of the stone slabs. The biochar from Convoris GmbH is characterized by particularly good thermal insulation values.

The CO2 balance of a house wall made of the new material has been calculated and compared with that of conventional reinforced concrete. This results in a difference in the CO2 balance of 157 CO2 equivalents per square meter of house wall. A significant saving!

* (Methods for removing atmospheric carbon dioxide (Carbon Dioxide Removal) by Direct Air Carbon Capture, Utilization and Sustainable Storage after Use (DACCUS).

Source:

Deutsche Institute für Textil- und Faserforschung

AkzoNobel participates in research program with SusInkCoat project (c) The Dutch Research Council (NWO)
05.02.2024

AkzoNobel participates in research program with SusInkCoat project

More than 82 companies, businesses and social organizations – including AkzoNobel – are involved in a major Dutch research program focused on developing new technologies that will help solve some of today’s societal challenges.
 
Seven broad consortia have been established as part of the government-funded “Perspectief” program, with AkzoNobel set to play a leading role in the SusInkCoat project, which will explore how to make inks and coatings more sustainable.

The company will work together with private partners and other societal stakeholders to develop new materials, processes and applications to improve the durability, functionality and recyclability of coatings, thin films and inks. The program, which will run for the next five years, is backed by the Ministry of Economic Affairs and Climate Policy and the Dutch Research Council (NWO).

More than 82 companies, businesses and social organizations – including AkzoNobel – are involved in a major Dutch research program focused on developing new technologies that will help solve some of today’s societal challenges.
 
Seven broad consortia have been established as part of the government-funded “Perspectief” program, with AkzoNobel set to play a leading role in the SusInkCoat project, which will explore how to make inks and coatings more sustainable.

The company will work together with private partners and other societal stakeholders to develop new materials, processes and applications to improve the durability, functionality and recyclability of coatings, thin films and inks. The program, which will run for the next five years, is backed by the Ministry of Economic Affairs and Climate Policy and the Dutch Research Council (NWO).

“Our discussions about collaborating with our SusInkCoat partners have been very positive,” says AkzoNobel’s R&D Director of Scientific Academic Programs, André van Linden, who is also the co-lead of SusInkCoat. “We’re all facing the same societal challenges – how to become more circular – and we’re looking for the same solutions in different application areas. But we’ve never done that together for this specific research topic, so we need an ecosystem to help us solve these challenges.
 
Van Linden adds that the program – one of many R&D projects the company is involved with – will also support AkzoNobel’s ambition to achieve 50% less carbon emissions in its own operations – and across the value chain – by 2030.
 
 “We want to make the recyclability of materials - such as furniture, building materials and steel constructions - easier by introducing functionalities like self-healing, higher durability and triggered release,” he continues. “The more you can leave the materials in their original state, the more sustainably you can operate.”

AkzoNobel will be collaborating with Canon, Evonik, GFB, PTG and RUG Ventures, who together possess extensive knowledge of market demands, supply chains and production processes. All the SusInkCoat partners will also work with academic researchers at several Dutch universities in an effort to identify promising developments that can be commercialized, used for education purposes or for outreach to the public.

Research being conducted by the other six consortia includes investigating methods to make tastier plant-based food; flat optics for more sustainable hi-tech equipment; and cheaper and more accessible medical imaging technology.

More information:
AkzoNobel Coatings Sustainability
Source:

AkzoNobel

Adient presented seating innovations at IAA (c) Adient
11.10.2023

Adient presented seating innovations at IAA

Adient, a leader in automotive seating, has presented its latest innovations at the IAA 2023.
 
The current automotive business landscape is marked by shifting industry dynamics, showcasing a strong desire for mobility, with an emphasis on digitalization, cost, and sustainable products. In line with this, Adient’s overall approach is characterized by responding to the need for more sustainable material use, while taking advantage of the potential that sustainable practices hold for streamlining processes.

Adient, a leader in automotive seating, has presented its latest innovations at the IAA 2023.
 
The current automotive business landscape is marked by shifting industry dynamics, showcasing a strong desire for mobility, with an emphasis on digitalization, cost, and sustainable products. In line with this, Adient’s overall approach is characterized by responding to the need for more sustainable material use, while taking advantage of the potential that sustainable practices hold for streamlining processes.

Responding to the need for overall cost and complexity reduction in manufacturing, the Pure Essential seat is especially lightweight. Environmentally-conscious practices such as material separation and recycling, and design for disassembly are embedded into the manufacturing process from the development stage. The visionary seat consists of two materials only – green steel and recyclable polyester (PET).
 
New customer needs in terms of premium comfort are met with the Autonomous Elegance seat, specifically developed to fit Advanced Driver Assistance Systems (ADAS). State-of-the-art findings on ergonomics and human body kinematics have been incorporated following extensive occupant research. They are complemented by advanced comfort assets such as noise cancellation and advanced climate functions. “Our seat demonstrators provide solutions to our customers’ main concerns, and we are looking forward to continuing the strategic product dialogue with them, based on our new demonstrators” highlights David Herberg, Vice President Engineering Adient EMEA. Most features of the seat can already be offered for sourcing, such as the metal structure and seat kinematics (adjustment functions and mechanisms).

Considering optimized use of space as well as sustainability aspects, the automotive supplier has also given its Smart Efficiency seat an update: the seat features a slimmer appearance than its predecessor without compromising on comfort. This design does not only help save space, but also paves the way for new mobility concepts based on battery packaging in electric vehicles.
 
The showcased products will be available for demonstration in customer roadshows as of December 2023.

Source:

Adient

Oerlikon Luxury at LINEAPELLE Photo: Oerlikon
22.09.2023

Oerlikon Luxury at LINEAPELLE

The new business unit Oerlikon Luxury showcased at LINEAPELLE a new selection of accessories for the fashion industry.

Oerlikon Riri and Oerlikon Fineparts are the brands under this newly-created BU –part of the Oerlikon Group’s Surface Solutions Division since the acquisition of Riri Group in March. Oerlikon Riri offers zippers and buttons that will continue to be branded Riri and Cobrax respectively and will continue to deliver the guaranteed quality and reliability recognized by the whole industry. Oerlikon Fineparts offers a comprehensive portfolio of metal components and fashion jewels, including the products from the previously known brands Coeurdor, Amom, DMC and CMH.

Leveraging Oerlikon’s technology expertise in advanced and environmentally-friendly coatings, the latest FW 24/25 collection from the Group’s luxury product brand Oerlikon Riri include pieces coated using PVD1 (Physical Vapour Deposition), as well as further specialisation in several materials, including stainless steel.

The new business unit Oerlikon Luxury showcased at LINEAPELLE a new selection of accessories for the fashion industry.

Oerlikon Riri and Oerlikon Fineparts are the brands under this newly-created BU –part of the Oerlikon Group’s Surface Solutions Division since the acquisition of Riri Group in March. Oerlikon Riri offers zippers and buttons that will continue to be branded Riri and Cobrax respectively and will continue to deliver the guaranteed quality and reliability recognized by the whole industry. Oerlikon Fineparts offers a comprehensive portfolio of metal components and fashion jewels, including the products from the previously known brands Coeurdor, Amom, DMC and CMH.

Leveraging Oerlikon’s technology expertise in advanced and environmentally-friendly coatings, the latest FW 24/25 collection from the Group’s luxury product brand Oerlikon Riri include pieces coated using PVD1 (Physical Vapour Deposition), as well as further specialisation in several materials, including stainless steel.

Source:

Oerlikon / Menabò Group srl

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

28.06.2023

EPTA highlights contribution of pultruded composites to sustainable construction

Increasing energy and resource efficiency in the construction sector will be key to the EU’s ambition of achieving climate neutrality by 2050. By enabling the manufacture of strong, durable and lightweight products, composite materials can help the construction sector improve its environmental sustainability, as well as reduce total lifecycle costs. The latest EPTA industry briefing, Pultruded composites contribute to a more sustainable future for construction, discusses how pultruded composites answer the need for materials offering high performance, faster installation, corrosion resistance and low maintenance.

The report is available to download from the EPTA website.

Increasing energy and resource efficiency in the construction sector will be key to the EU’s ambition of achieving climate neutrality by 2050. By enabling the manufacture of strong, durable and lightweight products, composite materials can help the construction sector improve its environmental sustainability, as well as reduce total lifecycle costs. The latest EPTA industry briefing, Pultruded composites contribute to a more sustainable future for construction, discusses how pultruded composites answer the need for materials offering high performance, faster installation, corrosion resistance and low maintenance.

The report is available to download from the EPTA website.

The future of construction
As one of the largest global users of energy and raw materials, the construction industry is under immense pressure to improve its sustainability. At the same time, it must respond to demands for improved performance and reduced total cost of ownership. New materials will be needed to minimise the use of natural resources, enable a reduction of carbon footprint and facilitate circular economy practices. Choosing the optimum materials required for durability throughout the lifecycle will be increasingly important. A shift to off-site production is also forecast, where factory-controlled environments and automated processes can improve quality control, lower waste, and reduce work on site.

Lightweight pultruded parts can be pre-assembled into modules or complete structures in the factory for faster installation on site. Lightweight profiles lower energy use during transportation and installation, and a longer service life combined with minimal maintenance can deliver a reduced through-life carbon footprint. Pultruded parts such as profiles, gratings, beams, tubes and planks are increasingly found in a range of building, construction and infrastructure applications. Examples include bridge decks, fencing, stairs and handrails, train platforms, cladding, utility poles, modular building concepts, and window frames.

One application offering large growth potential for composites is bridges. Composite bridges are being designed to provide a service life of 100 years and unlike steel bridges do not require regular repainting to protect them from corrosion. Over recent years, pultruded glass fibre composite has become a highly popular choice for pedestrian and cycle bridges. Pre-fabricated ‘easy fit’ bridge decking planks, pre-assembled bridge modules and complete bridge ‘kits’ are now available. Corrosion-resistant composite bridges are ideal for use near water or on the coast, and in remote locations where regular maintenance operations would be difficult. A composite bridge can deliver the same performance as a steel structure with a weight saving of up to 50% or more. This enables more streamlined bridge designs which require less substantial supporting structures and foundations, greatly reducing consumption of materials and energy. Lightweight also results in easier logistics and simplified installation. Pultruded are more easily transported to the construction site, with lower fuel consumption, and easier to move on site, often reducing labour requirements and the capacity of lifting equipment.

A lifecycle approach
As the construction industry looks to the future, the environmental and economic benefits of composite materials linked to easier logistics and installation, durability and low maintenance are becoming increasingly valued. More projects are demonstrating the benefits of composite materials and standards covering the design, fabrication and installation of pultruded profiles are making it easier for the construction industry to use them. With ongoing development and collaboration, pultrusion has the potential to contribute to a more sustainable future for construction and many other industries. EPTA will continue to promote the advancement of pultrusion technology and its applications and foster sustainable practices within the industry.

Source:

The European Pultrusion Technology Association (EPTA)

Oliver Streuli , CFO Rieter Holding AG Foto Rieter
20.06.2023

Oliver Streuli new CFO at Rieter

The Board of Directors of Rieter Holding Ltd. unanimously has appointed Oliver Streuli to the Group Executive Committee of Rieter Group as Chief Financial Officer, effective August 1, 2023.

Oliver Streuli was from June 2019 until April 2023 CEO at PCS Holding AG in Frauenfeld (Switzerland), a private institutional investment company, where he was responsible for developing the investment strategy as well as the financial and strategic supervision of the industrial portfolio companies. He was also project manager for the IPO on the SIX Swiss Exchange at Stadler Rail AG, Bussnang (Switzerland). Previously, he held different positions at UBS.

He is currently a member of the Board of Directors of Swiss Steel Holding AG, Lucerne (Switzerland), and of Autoneum Holding AG, Winterthur (Switzerland).

Oliver Streuli was a member of the Board of Directors of several industrial and financial portfolio companies of PCS Holding AG in Switzerland, in Austria and in Türkiye, which are active in fields of electric propulsion systems, green mobility and rolling stock leasing.

The Board of Directors of Rieter Holding Ltd. unanimously has appointed Oliver Streuli to the Group Executive Committee of Rieter Group as Chief Financial Officer, effective August 1, 2023.

Oliver Streuli was from June 2019 until April 2023 CEO at PCS Holding AG in Frauenfeld (Switzerland), a private institutional investment company, where he was responsible for developing the investment strategy as well as the financial and strategic supervision of the industrial portfolio companies. He was also project manager for the IPO on the SIX Swiss Exchange at Stadler Rail AG, Bussnang (Switzerland). Previously, he held different positions at UBS.

He is currently a member of the Board of Directors of Swiss Steel Holding AG, Lucerne (Switzerland), and of Autoneum Holding AG, Winterthur (Switzerland).

Oliver Streuli was a member of the Board of Directors of several industrial and financial portfolio companies of PCS Holding AG in Switzerland, in Austria and in Türkiye, which are active in fields of electric propulsion systems, green mobility and rolling stock leasing.

Oliver Streuli was born in 1988 and is a Swiss citizen. He holds a Master’s degree in Accounting and Finance from University St. Gallen (HSG),

Source:

Rieter Management AG

05.05.2023

XORELLA at ITMA 2023

At ITMA 2023, XORELLA, a specialist in steam setting and conditioning equipment for yarns and fabrics, will launch XO AUTOMATION for the double door XO SELECT conditioning machine series, and XO SOLID, a new machine series to complement XO SMART, XO TREND and XO SELECT machines.

XO AUTOMATION
The new XO AUTOMATION system consists of roller conveyor systems for loading and unloading two-door XO Select conditioning machines. Additional pallet wrapping machine with a turntable, weighting station, label printer, safety fence and security system can complete the system. The XO Select controller and automation system can handle and store individual customer-specific material and packing programmes.  

XO SELECT and XO AUTOMATION are designed for yarn steaming on multiple pallet dimensions and heights up to 2,650mm. The linear material flow passing conveyor and steaming machine avoids any mix between steamed and un-steamed materials. XO AUTOMATION fills the gap between the XO automated moving platform and the fully automated transport system – from spinning hall to warehouse.

At ITMA 2023, XORELLA, a specialist in steam setting and conditioning equipment for yarns and fabrics, will launch XO AUTOMATION for the double door XO SELECT conditioning machine series, and XO SOLID, a new machine series to complement XO SMART, XO TREND and XO SELECT machines.

XO AUTOMATION
The new XO AUTOMATION system consists of roller conveyor systems for loading and unloading two-door XO Select conditioning machines. Additional pallet wrapping machine with a turntable, weighting station, label printer, safety fence and security system can complete the system. The XO Select controller and automation system can handle and store individual customer-specific material and packing programmes.  

XO SELECT and XO AUTOMATION are designed for yarn steaming on multiple pallet dimensions and heights up to 2,650mm. The linear material flow passing conveyor and steaming machine avoids any mix between steamed and un-steamed materials. XO AUTOMATION fills the gap between the XO automated moving platform and the fully automated transport system – from spinning hall to warehouse.

XO SOLID
The new cubical XO SOLID combines a high loading space of 1,800mm x 1,700mm x 4, 000mm (H x W x L) through double row pin trolleys or pallets for easy manual loading of six units on floor level without a pit or platform. XO SOLID is therefore designed for installations on upper floor levels. The new frame design combines all necessary components factory preinstalled on a single frame, for easy ‘plug and play’ installation at the customer site. Additional smaller steamer dimensions for two and four loading units are also at the planning stage.

The new XO SOLID incorporates all the renowned features of XORELLA machines based on the long term experience in high temperature dyeing vessel production of FONG’s, including:

  • A Siemens controller with OPC UA interface and XO data tool for batch storage.
  • A XO EcoPac waterless claw pump or two-stage water ring vacuum pump.
  • A high energy efficient accumulator for steam, electric and combined heating.
  • Vessel and piping in world-class stainless steel.
  • European key components such as pumps, heating elements, valves and sensors

Established in Switzerland in 1967, XORELLA became known in the global textile industry for its innovative indirect steaming system. Since 2002 the company has been a member of the CHTC Fong’s International Group, and a member of SINOMACH Group (China National Machinery Industry Corporation) since 2019.

More information:
XORELLA ITMA ITMA 2023
Source:

XORELLA

(c) A. Monforts Textilmaschinen GmbH & Co. KG
Members and associates of the WasserSTOFF consortium from Monforts, Pleva, NTB Nova Textil, TU Freiberg, Hochschule Niederrhein and Honeywell Thermal Solutions, at the launch meeting of the new project at the Monforts ATC in Mönchengladbach.
28.04.2023

Monforts presents green hydrogen project WasserSTOFF at ITMA 2023

At ITMA 2023 in Milan from June 8-14 this year, Monforts is organising two free-to-attend seminars and discussions on the potential of green hydrogen as a new energy source for textile finishing, drying and related processes.

Monforts is currently leading a consortium of industrial partners and universities in the three-year WasserSTOFF project, launched in November 2022, that is exploring all aspects of this exciting and fast-rising new industrial energy option.
The target of the government-funded project is to establish to what extent hydrogen can be used in the future as an alternative heating source for textile finishing processes. This will first involve tests on laboratory equipment together with associated partners and the results will then be transferred to a stenter frame at the Monforts Advanced Technology Center (ATC).

At ITMA 2023 in Milan from June 8-14 this year, Monforts is organising two free-to-attend seminars and discussions on the potential of green hydrogen as a new energy source for textile finishing, drying and related processes.

Monforts is currently leading a consortium of industrial partners and universities in the three-year WasserSTOFF project, launched in November 2022, that is exploring all aspects of this exciting and fast-rising new industrial energy option.
The target of the government-funded project is to establish to what extent hydrogen can be used in the future as an alternative heating source for textile finishing processes. This will first involve tests on laboratory equipment together with associated partners and the results will then be transferred to a stenter frame at the Monforts Advanced Technology Center (ATC).

To be considered “green”, hydrogen must be produced using a zero-carbon process that is powered by renewable energy sources such as wind or solar. Currently, the cleanest method of hydrogen production is electrolysis, using an electrically-powered electrolyzer to separate water molecules into hydrogen and oxygen. The purity of the hydrogen is also important, and impurities must be removed via a separation process.

“Despite all its advantages, there are obstacles to overcome on the way to widespread, economically-feasible green hydrogen use,” explains Monforts Textile Technologies Engineer Jonas Beisel. “Until there are widely available, reliable and economical sources of this clean power, the cost of producing it will remain prohibitive. The infrastructure is not yet there, and hydrogen also has a tendency to make steel brittle and subject to fracture, which is something that requires further investigation in both its transportation and use in industrial processing.
“Green energy’s potential as a clean fuel source is tremendous, but there is much we need to explore when considering its use in the textile finishing processes carried out globally on our industry-leading Montex stenter dryers and other machines.”

At its Advanced Technology Center (ATC) in Mönchengladbach, Monforts will be carrying out intensive tests and trials to assess the reliability of both processes and final products when different natural gas and hydrogen mixtures – up to 100% green hydrogen – are employed. The results will be closely analysed by the consortium partners because there are many parameters that at this stage remain unknown.

The aim, Beisel adds, is to both reduce CO2 emissions and – following the rising prices and industry turbulence experienced by manufacturers over the past year or so – to further reduce a dependency on natural gas.

The three-year WasserSTOFF project is sponsored by Germany’s Federal Ministry for Economic Affairs and Climate Action, and with Monforts at the helm brings together industrial partners Pleva and NTB Nova Textil, with academic input from the Hochschule Niederrhein and the Technical University of Freiberg.

(c) M. Vorhof, ITM/TU Dresden
12.04.2023

ITM at JEC 2023

From April 25th to 27th, 2023, the Institute of Textile Machinery and High Performance Material Technology (ITM) of TU Dresden will be exhibiting at the pavilion SAXONY! at JEC World 2023.

The ITM will provide a comprehensive overview of its current research in the field of machine and product development along the entire textile process chain.

The upcoming JEC 2023 exhibition will highlight innovative Customised Connective Cores (CCC), which are custom-made core-insert structures additively manufactured using cellular metal and a form-fit integrated insert. These CCCs can be seamless integrated either as patches or as full-surface core material into lightweight panels, offering significantly improved load-bearing behavior (especially 4 times the load-bearing capacity and fail-safe behavior) compared to existing technologies. This breakthrough opens up new possibilities for fastening lightweight panels.

From April 25th to 27th, 2023, the Institute of Textile Machinery and High Performance Material Technology (ITM) of TU Dresden will be exhibiting at the pavilion SAXONY! at JEC World 2023.

The ITM will provide a comprehensive overview of its current research in the field of machine and product development along the entire textile process chain.

The upcoming JEC 2023 exhibition will highlight innovative Customised Connective Cores (CCC), which are custom-made core-insert structures additively manufactured using cellular metal and a form-fit integrated insert. These CCCs can be seamless integrated either as patches or as full-surface core material into lightweight panels, offering significantly improved load-bearing behavior (especially 4 times the load-bearing capacity and fail-safe behavior) compared to existing technologies. This breakthrough opens up new possibilities for fastening lightweight panels.

Another highlight at the exhibition is the repair process for fibre-reinforced composites (FRP) developed at the ITM. Instead of mechanically grinding the damaged area, the matrix in the repair area is locally dissolved using a UV-rays-induced depolymerisation process. Damaged fibres can thus be replaced by a customized repair patch. Free yarn ends on the textile repair patches are spliced with the UV-exposed yarn ends in the repair area using an adapted splicing process. In this way, a very clean, simplified and mechanically improved repair area can be achieved compared to the state of the art.

The diverse possibilities offered by the structure and process simulation of textile high-performance materials and textile manufacturing processes will also be presented. By means of multi-scale modelling and simulation, a profound understanding of materials and processes is achieved at the ITM. Finite element models on the micro, meso and macro scale have been developed and validated for this purpose. Examples from current ITM research projects demonstrate the various possibilities and areas of application of modern simulation methods in the field of textile technology.

Moreover, an innovative process for the integral manufacturing of 3D rib-stiffened preforms with complexly arranged stiffeners in 0°, 90° and ± 45° orientation was developed and successfully implemented at the ITM. Due to the process-integrated structure fixation and the continuous fibre reinforcement between shell and rib structure, the 3D preforms are perfectly suited for the production of highly load-bearing FRP components with increased bending stiffness, which will be exhibited at JEC. Hence, the lightweight construction potential of high-performance fibres can be fully exploited.

A successfully established development are partially flowable 2D textile reinforcement fabrics that are continuously manufactured in one single process step. For this purpose, the entire process chain was developed at the ITM, which allows a cost-effective and high-volume production of load-bearing thermoplastic 3D FRP components with continuous fibre reinforcement between shell and stiffeners.

At JEC 2023, the ITM will also present a partially embedded textile latice girder as reinforcement for carbon concrete applications, which was produced by means of an innovative textile manufacturing process based on the multiaxial warp knitting technology. Through the development of a customized warp insertion, manipulation and take-off system as well as appropriate shaping methods, it is now possible to produce tailored textile semi-finished products, e.g. for use in wall and ceiling panels. These textile latice girders represent a resource-saving alternative to conventional steel girders due to the reduced among of concrete required and the additional cavity for media and cable guidance.

The integration of textile actuators and sensors in FRP provides structures with additional functionalities. The research and application of such interactive FRP with different matrix materials (e.g. with thermoset, elastomer or concrete matrix systems) for structural health monitoring or adaptive systems is one of the key research areas of the ITM.

Moreover, the development and implementation of innovative yarn constructions based on recycled high-performance fibres (e.g. rCF, rGF, rAR) for sustainable FRPs is successfully promoted at ITM. By use of a special carding machine, recycled fibres are opened up, separated and joined to form a wide, uniform ribbon. Subsequently, innovative hybrid yarn constructions made of evenly mixed recycled high-performance and thermoplastic fibres with variable fibre volume fractions can be manufactured by means of various spinning technologies. Selected yarn constructions and components will be showcased at JEC.

More information:
ITM TU Dresden JEC World
Photo Trützschler Card Clothing
08.12.2022

Trützschler Card Clothing expands its site in Neubulach

Trützschler Card Clothing (TCC), technology leader in the manufacture of high-performance card clothings for textile yarn processing, is expanding its site in Neubulach, Germany. With the twelve-million-euro investment, the supplier for the international textile machinery industry is expanding its production, warehouse and office capacities. A groundbreaking ceremony will take place during the coming winter.

The new building will expand the warehouse and logistics area by 600 square meters, to make a total area of 2,800 square meters. In the optimized cube of the new hall, a modern warehouse system will double the storage capacity. There will also be a fully automated warehouse for coils for sawtooth wires. During the construction phase, logistics and shipping will be temporarily outsourced to Pforzheim-Büchenbronn.

Trützschler Card Clothing (TCC), technology leader in the manufacture of high-performance card clothings for textile yarn processing, is expanding its site in Neubulach, Germany. With the twelve-million-euro investment, the supplier for the international textile machinery industry is expanding its production, warehouse and office capacities. A groundbreaking ceremony will take place during the coming winter.

The new building will expand the warehouse and logistics area by 600 square meters, to make a total area of 2,800 square meters. In the optimized cube of the new hall, a modern warehouse system will double the storage capacity. There will also be a fully automated warehouse for coils for sawtooth wires. During the construction phase, logistics and shipping will be temporarily outsourced to Pforzheim-Büchenbronn.

The move into the new building is planned for 2024. TCC will also expand the range of services and the production intensity at the site, while optimizing the process flows. Trützschler intends to recruit the additional employees required within a short timeframe by hiring new staff and offering apprenticeships at the Neubulach site. TCC employs more than 130 people in Germany, with a further 220 people employed worldwide at locations in Brazil, China, India, Mexico, Turkey and the USA.

Overall, the production area will be expanded from 4,000 to 5,400 square meters. This will enable the process flows to be optimized. The office space will be increased to 1,000 square meters. An additional level of the building will provide modern workplaces for administration and sales.

The new building will also improve access and exit routes for truck traffic. This will provide considerable relief for the local neighborhood in terms of noise emissions and other factors. Good integration into the region is very important to Trützschler. All contracts for planning, construction and air conditioning technology have been awarded to local companies.

In the future, TCC will operate its production facility in Neubulach in a climate-neutral manner. This will contribute important progress toward achieving the ambitious climate goals of the Trützschler Group. The new production facility will meet the highest requirements for energy efficiency and climate protection. Heating is provided by process heat recovery and geothermal energy. In addition, the company produces green electricity via its own solar panels.

"By expanding our business here in Neubulach, we are strengthening our presence in this area and our leading global market position too," says Managing Director Peter Gäbler. The Trützschler Group SE is also investing in India to build a new site with over 100,000 square meters for the Spinning, Card Clothing and Nonwovens business units. "It is important to be close to the customer worldwide because our foreign companies make a significant contribution to the success of the Group," says Gäbler.

TCC achieved another record sales result in 2021. Demand for the technology components for carding fibers in spinning mills and for carding in nonwovens production has increased significantly. The steel sawtooth wires, which are wound onto coils and produced for customers around the globe, eventually get worn down by use in production processes – so it is necessary to replace them regularly. For this reason, further growth is expected in 2022 and beyond.

 

More information:
Trützschler Card Clothing
Source:

Trützschler Card Clothing

© Freudenberg Performance Materials
19.09.2022

Freudenberg hosts German National Hydrogen Council meeting

Freudenberg Performance Materials – the Freudenberg Group’s nonwovens specialist – was hosting a meeting of the German National Hydrogen Council at the Freudenberg headquarters in Weinheim, Germany, on September 16. As a leading global supplier of technical textiles, Freudenberg Performance Materials provides fuel cell components for mobility applications and for electrolyzers used to produce CO2-free hydrogen.

Freudenberg Performance Materials – the Freudenberg Group’s nonwovens specialist – was hosting a meeting of the German National Hydrogen Council at the Freudenberg headquarters in Weinheim, Germany, on September 16. As a leading global supplier of technical textiles, Freudenberg Performance Materials provides fuel cell components for mobility applications and for electrolyzers used to produce CO2-free hydrogen.

The German National Hydrogen Council was appointed by the German government and acts as an independent, non-partisan advisory board. The council board currently consists of 25 high-ranking experts in the fields of economy, science and civil society. The objective is to assist and advise the State Secretaries’ Committee on Hydrogen in the further development and implementation of Germany’s National Hydrogen Strategy. Council meetings are hosted by one of the board members to enable the council to deepen its knowledge of the relevant technologies, value chain roles and challenges. Dr. Silke Wagener is a member of the council board, and represents the Freudenberg technology group, giving input on suppliers’ know-how as well as contributing her decades-long expertise in technological solutions for the hydrogen industry.

During a tour of the factory organized for the council board members, Freudenberg Performance Materials explained the development and production of performance-critical gas diffusion layers manufactured from carbon fiber-based nonwovens for fuel cells and porous transport layers for electrolyzers. The tour highlighted the potential for improvements from a supplier’s perspective, such as the need for very timely exchange and collaboration along the value chain. Functioning, unbroken and scalable value chains, in parallel with the development and scaling of hydrogen infrastructure, are key prerequisites for the hydrogen industry to fulfill its vital role in the transformation to climate neutrality.

Gas diffusion layers are one of the main components at the heart of the fuel cell. Their function is to transport gases and liquids in the cells. They have a significant impact on system performance and costs, and are indispensable for the functioning of fuel cells. The same applies for porous transport layers that are the key component of electrolyzers for the CO2-free production of what is called green hydrogen.

Fuel cells in combination with green hydrogen are an important technology for CO2-free mobility, in particular with reference to buses, heavy-duty trucks and trains. Other uses include stationary applications such as stationary power generation or heat generation in buildings or industry.
Apart from mobility, green hydrogen also plays a key role in climate-neutral energy supplies in the industrial sector, particularly in the chemical and steel industries.

Source:

Freudenberg Performance Materials

(c) Adient
As a symbol for a sustainable cooperation, Michel Berthelin (Executive Vice President EMEA, 2nd from left) and Henrik Henriksson (CEO H2 Green Steel, 1st from right) planted a ginkgo tree together with their teams in front of the Adient EMEA headquarters in Burscheid, Germany.
01.09.2022

Adient: Cooperation with H2 Green Steel to reduce carbon footprint

Adient, a supplier of seating systems for the automotive industry, has entered into a cooperation with Swedish steelmaker H2 Green Steel (H2GS) to reduce the carbon footprint in its value chain.
 
On 1st September Michel Berthelin, Executive Vice President Adient EMEA, and Henrik Henriksson, CEO of H2 Green Steel, have mutually signed an agreement to supply fossil-free steel with low carbon footprint from 2026 on and subsequently use it in Adient's metal products.

Adient, a supplier of seating systems for the automotive industry, has entered into a cooperation with Swedish steelmaker H2 Green Steel (H2GS) to reduce the carbon footprint in its value chain.
 
On 1st September Michel Berthelin, Executive Vice President Adient EMEA, and Henrik Henriksson, CEO of H2 Green Steel, have mutually signed an agreement to supply fossil-free steel with low carbon footprint from 2026 on and subsequently use it in Adient's metal products.

Michel Berthelin explains the background to the cooperation: “As a company, we are committed to the Science Based Targets Initiative, a collaboration between leading global institutions to set a science-based climate target. We also support the Carbon Disclosure Project, which helps companies and cities to understand and disclose their environmental impacts. The decision to shift parts of the steel volume sourced for our production to a steel with low carbon footprint is part of our sustainability strategy. It is our goal to reduce emissions at our production sites that are caused directly by our own sources or indirectly by our energy suppliers by 75% by 2030. In parallel, we aim to reduce emissions along our supply chains by 35% over the same period. In doing so, Adient actively fosters the industry's transformation towards a more responsible use of natural resources.”

Steel from H2 Green Steel is produced with up to 95% less CO2 emissions compared to conventional steel production. The company achieves this by replacing coal with green hydrogen in production and by the use of electricity from non-fossil sources. In this way, mainly water and heat are produced as waste products.

Source:

Adient

Photo: munich fabric start
02.08.2022

New Format oF MUNICH FABRIC START fully booked

THE SOURCE, the new one-stop solution for integrated fashion sourcing by Munich Fabric Start Exhibitions GmbH, is fully booked. In the Lokhalle, one of the largest cantilevered historic steel halls in Europe, THE SOURCE offers flexible sourcing services and solutions for newly conceived value chains on around 2,500 m2 in direct connection to MUNICH FABRIC START and BLUEZONE.
 
65 selected international manufacturing companies will present their offerings from cut-make-trim (CMT) to high-end production at the new fair from 30 August to 1 September 2022. A cluster of key sourcing countries such as Portugal, Turkey, Morocco, Tunisia, Bosnia and Vietnam will create a business-relevant mix for risk diversification, the right product mix and for every genre.
 
THE SOURCE will take place parallel to the MUNICH FABRIC START (30/08 – 01/09/2022) and BLUEZONE (30/08 – 31/08/2022) fairs, with a total of almost 900 exhibitors.

THE SOURCE, the new one-stop solution for integrated fashion sourcing by Munich Fabric Start Exhibitions GmbH, is fully booked. In the Lokhalle, one of the largest cantilevered historic steel halls in Europe, THE SOURCE offers flexible sourcing services and solutions for newly conceived value chains on around 2,500 m2 in direct connection to MUNICH FABRIC START and BLUEZONE.
 
65 selected international manufacturing companies will present their offerings from cut-make-trim (CMT) to high-end production at the new fair from 30 August to 1 September 2022. A cluster of key sourcing countries such as Portugal, Turkey, Morocco, Tunisia, Bosnia and Vietnam will create a business-relevant mix for risk diversification, the right product mix and for every genre.
 
THE SOURCE will take place parallel to the MUNICH FABRIC START (30/08 – 01/09/2022) and BLUEZONE (30/08 – 31/08/2022) fairs, with a total of almost 900 exhibitors.

Source:

KERN. Consulting for munich fabric start

(c) Riri Group
28.07.2022

Riri Group acquires powder metallurgy expert K4Sint

In recent years, Riri Group has embarked on a process of vertical expansion aimed at broadening its product range and in-house processing, in order to provide the market with a superior quality product thanks to the variety of its services and technologies. With the acquisition of K4Sint (Knowledge for Sintering) this process has taken another step forward and the Group consolidates its position as ‘one-stop shop supplier’ under the sign of integration, design capacity, customised offer, and innovative technologies.

In recent years, Riri Group has embarked on a process of vertical expansion aimed at broadening its product range and in-house processing, in order to provide the market with a superior quality product thanks to the variety of its services and technologies. With the acquisition of K4Sint (Knowledge for Sintering) this process has taken another step forward and the Group consolidates its position as ‘one-stop shop supplier’ under the sign of integration, design capacity, customised offer, and innovative technologies.

K4Sint, founded by two Ph.D. materials engineers,  brings to the Swiss Group its experience in Press and Sintering, Metal Injection Molding, Spark Plasma Sintering (Titanium, Aluminum, MMC, Advanced Ceramic). Riri, therefore, integrates within its Group a company capable of developing and producing components, accessories and semi-finished products for internal use but also for customers and companies not only limited to the fashion business: K4Sint will become the go-to facility and production site for steel MIM processes of the entire group. The new unit will also be able to perform metallographic tests, innovative materials development projects and in-depth technological consultancy work for Riri’s customers.

More information:
Riri Group K4Sint acquisition
Source:

Riri Group / Menabò Group

21.07.2022

NCTO: China Penalty Tariffs on finished textiles and apparel to be maintained

  • China Penalty Tariffs on Finished Textiles & Apparel Give U.S. Companies a Chance to Compete and are a Powerful Trade-Negotiation Tool, NCTO Tells U.S. International Trade Commission

Section 301 penalty tariffs on finished Chinese textile and apparel imports give American manufacturers a chance to compete and provide trade officials with an essential trade negotiation tool, the National Council of Textile Organizations (NCTO) told a key government panel today in a formal written submission. Removing them, the association said, would reward China, put U.S. manufacturers at a competitive disadvantage and do nothing to reduce inflation.

Those were among the key points outlined by NCTO President and CEO Kim Glas in a written testimony submitted to the U.S. International Trade Commission during three days of hearings on the economic impact of Section 301 China tariffs and Section 232 steel tariffs on U.S. industries.

  • China Penalty Tariffs on Finished Textiles & Apparel Give U.S. Companies a Chance to Compete and are a Powerful Trade-Negotiation Tool, NCTO Tells U.S. International Trade Commission

Section 301 penalty tariffs on finished Chinese textile and apparel imports give American manufacturers a chance to compete and provide trade officials with an essential trade negotiation tool, the National Council of Textile Organizations (NCTO) told a key government panel today in a formal written submission. Removing them, the association said, would reward China, put U.S. manufacturers at a competitive disadvantage and do nothing to reduce inflation.

Those were among the key points outlined by NCTO President and CEO Kim Glas in a written testimony submitted to the U.S. International Trade Commission during three days of hearings on the economic impact of Section 301 China tariffs and Section 232 steel tariffs on U.S. industries.

The 301 penalty tariffs should be maintained “absent substantive improvements in China’s pervasive, predatory trade practices,” Glas said in her testimony.  China’s illegal actions “have put U.S. companies at a serious disadvantage, and tariffs give American manufacturers a chance to compete.” Glas noted that U.S. trade officials have “stressed that the penalty tariffs also create leverage and are a ‘significant tool’ in ongoing negotiations with China.”
 
While some advocates for lifting the tariffs point to concerns about inflation, Glas said, “canceling these penalty duties would do little to ease Americans’ inflationary pains.” She also noted that “apparel prices out of China continue to hit rock bottom even with the Section 301 tariffs in place. As detailed in an economic study recently released by Werner International, U.S. import prices for apparel from China have dropped 25 percent since 2019 and 50 percent since 2011.”

Glas also warned that lifting the tariffs would have “a substantial negative ripple effect” on U.S. free-trade agreements, including undermining those with Western Hemisphere partners that have established shorter coproduction supply chains and serve other U.S. and regional interests.

The Section 301 tariffs were first imposed in 2018 in response to China’s persistent violations of intellectual property rules. By law, they are now under review.

More information:
NCTO Tariffs China Penalty Tariffs
Source:

National Council of Textile Organizations

28.06.2022

Bemberg™ invests in the steel art of Daniele Basso

On the occasion of the 90th year since its birth, Bemberg™ invests in the artistic spirit of Daniele Basso to create a work of art able to convey the values that characterize its fiber from the "craftsmanship elegance" through an innovative language.

According to the creative and strategic vision of the Italian artist - known for the symbolic works in sustainable steel developed for major companies such as The Coca-Cola Company, Andrea Bocelli, Ferrari Rossocorsa and Mila Schon - sculptures can become a concrete expression of the entrepreneurial dream, of the culture and values of excellence that companies express in their own unique history and that they represent for the Community and the Territory that hosts them.

On the occasion of the 90th year since its birth, Bemberg™ invests in the artistic spirit of Daniele Basso to create a work of art able to convey the values that characterize its fiber from the "craftsmanship elegance" through an innovative language.

According to the creative and strategic vision of the Italian artist - known for the symbolic works in sustainable steel developed for major companies such as The Coca-Cola Company, Andrea Bocelli, Ferrari Rossocorsa and Mila Schon - sculptures can become a concrete expression of the entrepreneurial dream, of the culture and values of excellence that companies express in their own unique history and that they represent for the Community and the Territory that hosts them.

All of this is reflected in the work commissioned by Bemberg™, where the history of the Japanese brand takes concrete shape in a blue spiral, able to express both the company's adaptive nature to contemporary times through energy and proactivity, and its ability to build a new, harmonious visual identity. Moreover, the intertwining of the threads emphasizes the synergies and collaborations that lead Bemberg™ to constantly move towards new opportunities.

The piece will be donated to the mayor of Gallarate, where the headquarters of Asahi Kasei Fibers Italia currently reside.

More information:
Bemberg™ Asahi Kasei
Source:

C.L.A.S.S.

(c) Indorama Ventures PCL
21.06.2022

Indorama Ventures works with Auping and TWE Group to deliver a fully circular mattress

The sustainable collaboration and innovation between Indorama Ventures (IVL), Auping and TWE Group presented a certified cradle to cradle process for mattress components across nonwoven applications, at Techtextil, Frankfurt, 21st to 24th June 2022.

Using circular research and design, the industry partnership between IVL Mullagh (Ireland), Auping and TWE Group has resulted in a perpetual, sustainable economic business model, for manufacturers globally. The inclusion of safe raw materials within mattress manufacturing allows the materials to be easily disassembled at the product’s end of use in order to be further reused as same components or recycled into new raw material at the same quality level, to enable versatile textile applications.

The sustainable collaboration and innovation between Indorama Ventures (IVL), Auping and TWE Group presented a certified cradle to cradle process for mattress components across nonwoven applications, at Techtextil, Frankfurt, 21st to 24th June 2022.

Using circular research and design, the industry partnership between IVL Mullagh (Ireland), Auping and TWE Group has resulted in a perpetual, sustainable economic business model, for manufacturers globally. The inclusion of safe raw materials within mattress manufacturing allows the materials to be easily disassembled at the product’s end of use in order to be further reused as same components or recycled into new raw material at the same quality level, to enable versatile textile applications.

Designed for disassembly to optimize the use of existing resources, reduce carbon footprint and support customer objectives all along their customers’ supply chain. This circular industry collaboration begins with design, where the mattress is constructed using only two different base materials, 100% PET polyester textiles and steel wire pocket springs connected with Niaga®️, a non toxic reversible adhesive, making the mattress easy to disassemble and recover.

IVL, Auping and TWE’s shared vision for a better world is demonstrated through their connected and innovative circularity that helps to close the loop. Auping collects, sorts and separates the collected fabrics, which then go to IVL Mullagh for processing, melting and extrusion to form polyester staple fiber. These staple fibers are then converted by TWE Group into nonwovens for use in Auping’s Evolve mattress, a fully circular mattress. Following the end of mattress use, the material recovery process simply starts again.

Auping estimates that annually more than 40 million mattresses are disposed of in Europe alone, the majority of which are incinerated. Their take back system in the Netherlands ensures that when their new mattress is delivered, the old mattress is retrieved and recycled, irrespective of the brand, ensuring existing materials are continually optimized, diverted from landfill and kept in use to achieve a circular economy.

Source:

Indorama Ventures PCL

(c) Trützschler Nonwovens
20.06.2022

Trützschler Nonwovens presents solutions for needle-punched nonwovens

Trützschler Nonwovens & Man-Made Fibers GmbH started a cooperation with the Italian textile machinery manufacturer Texnology S.r.l. in the field of needle-punching technology. With immediate effect, the companies will offer complete production lines for needle-punched nonwovens under the name of T-SUPREMA.

Web bonding with steel needles represent the largest production process in the drylaid nonwovens segment. The areas of application are predominantly of a technical nature, with the largest applications being durable geotextiles, automotive textiles and filter media. The high adaptability of the needling and finishing processes as well as the broad material base result in a large number of different end products. Needle-punching is suitable for a wide range of man-made and natural fibers including mineral and high-performance fibers.  

Trützschler Nonwovens contributes its many years of experience in fiber preparation and web forming to the cooperation. Texnology is mainly responsible for the needle-punching process. Joint projects can thus build on a broad application expertise.

Trützschler Nonwovens & Man-Made Fibers GmbH started a cooperation with the Italian textile machinery manufacturer Texnology S.r.l. in the field of needle-punching technology. With immediate effect, the companies will offer complete production lines for needle-punched nonwovens under the name of T-SUPREMA.

Web bonding with steel needles represent the largest production process in the drylaid nonwovens segment. The areas of application are predominantly of a technical nature, with the largest applications being durable geotextiles, automotive textiles and filter media. The high adaptability of the needling and finishing processes as well as the broad material base result in a large number of different end products. Needle-punching is suitable for a wide range of man-made and natural fibers including mineral and high-performance fibers.  

Trützschler Nonwovens contributes its many years of experience in fiber preparation and web forming to the cooperation. Texnology is mainly responsible for the needle-punching process. Joint projects can thus build on a broad application expertise.

A first joint project has already been successfully completed, implemented and put into operation.

Source:

Trützschler Nonwovens

Online Voting Opens for “Best of the Best” IDEA® Achievement Awards
IDEA® Achievement Awards
02.03.2022

Online Voting Opens for “Best of the Best” IDEA® Achievement Awards

  • Winners in Six Categories to be Announced at IDEA® 2022 in Miami Beach

Online voting for the prestigious IDEA® Achievement Awards representing the “best of the best” innovations in the global nonwovens and engineered fabrics industry in six categories will open on Feb. 28.

Industry professionals will have the opportunity to vote for the winners from the finalists and see award-winning achievements in person at IDEA® 2022, the World’s Preeminent Event for Nonwovens & Engineered Fabrics, March 28-31, at the Miami Beach Convention Center.

Presented by INDA, in partnership with Nonwovens Industry magazine, the awards recognize the leading introductions in equipment, raw materials, short-life, long-life and nonwovens products, and sustainability. To vote on the Nonwovens Industry website, visit: https://www.nonwovens-industry.com/idea-reg-achievement-awards

In addition, INDA will unveil the IDEA® 2022 Lifetime Achievement Award honoree and Nonwovens Industry will announce the IDEA® Entrepreneur Achievement Award recipient at the event. 

  • Winners in Six Categories to be Announced at IDEA® 2022 in Miami Beach

Online voting for the prestigious IDEA® Achievement Awards representing the “best of the best” innovations in the global nonwovens and engineered fabrics industry in six categories will open on Feb. 28.

Industry professionals will have the opportunity to vote for the winners from the finalists and see award-winning achievements in person at IDEA® 2022, the World’s Preeminent Event for Nonwovens & Engineered Fabrics, March 28-31, at the Miami Beach Convention Center.

Presented by INDA, in partnership with Nonwovens Industry magazine, the awards recognize the leading introductions in equipment, raw materials, short-life, long-life and nonwovens products, and sustainability. To vote on the Nonwovens Industry website, visit: https://www.nonwovens-industry.com/idea-reg-achievement-awards

In addition, INDA will unveil the IDEA® 2022 Lifetime Achievement Award honoree and Nonwovens Industry will announce the IDEA® Entrepreneur Achievement Award recipient at the event. 

All of the winners will be announced on March 30 at a ceremony at IDEA® from 9:30 a.m. to 10:30 a.m. moderated by Dave Rousse, President, INDA and Karen, McIntyre, Editor, Nonwovens Industry.

Finalists Named

The INDA Technical Advisory Board, consisting of technical professionals from member companies, has narrowed the competition from more than 100 online nominations to the following 18 finalists selected for their leading innovations since the last IDEA show in 2019.

Now, the industry will have the chance to select their top choices from the three finalists in each of the following six categories through the online voting process:

1-    IDEA® Equipment Achievement Award

ESC-8 – Curt G. Joa, Inc.
Elastic Thread Anchoring (ETA) Sonotrode – Herrmann Ultrasonics Inc.
Doffer Airlay Card – Technoplants SRL
 

2-    IDEA® Raw Material Achievement Award

sero™ premium hemp fiber – Bast Fibre Technologies Inc.
ODOGard – Rem Brands, Inc.
SharoWIPES™ – Sharon Laboratories
 

3-    IDEA® Short-Life Product Achievement Award

MDP™ – Dermasteel, Ltd.
Organic 2.0 – Ellepot A/S
LifeSavers Wipes – LifeSavers LLC
 

4-     IDEA® Long-Life Product Achievement Award

Canopy Hero Pro – Canopy
Long-Life Cellulose-based Nonwovens for Higher Performance in Reusable Baby Diapers – Kelheim Fibres GmbH and Sumo Diapers
Nanofiber Cabin Air Filter – MANN + HUMMEL GmbH
 

5-    IDEA® Sustainability Advancement Award

Pureflow8 – In Flight Material Separator – Diaper Recycling Technology Pte. Ltd.
Fitesa® 100 Percent BioBased Bico – Fitesa
Fiber-based Screw Caps – Glatfelter Corp. and Blue Ocean Closures
 

6-    IDEA® Nonwoven Product Achievement Award

Sontara® Silk – Glatfelter Corp.
HYDRASPUN® Aquaflo – Sustainable Nonwoven Substrates – Suominen Corporation
LS SAF™ Nonwoven Fabrics –Technical Absorbents
 

Moving forward after this year, the IDEA® Achievement Award will be presented every two years under the new cycle announced for the event with the subsequent IDEA® taking place April 23-25, 2024.

Source:

INDA, Association of the Nonwoven Fabrics Industry