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12.03.2024

Polartec: New Initiative “Beyond Begins Today”

Since inventing the first fleece crafted from recycled plastic water bottles more than three decades ago, Polartec®, a Milliken & Company brand, and the creator of innovative and more sustainable textile solutions, has upheld its pledge to protect the environment.

With its new Beyond Begins Today initiative, Polartec aims to raise awareness around the important global themes of sustainability, diversity and positive change.

Polartec is engaged to make the goal of zero waste a reality – from using 100% recycled and plant-based materials, to delivering certified waste reductions and innovative technologies that reduce the impact of its activities.

Since inventing the first fleece crafted from recycled plastic water bottles more than three decades ago, Polartec®, a Milliken & Company brand, and the creator of innovative and more sustainable textile solutions, has upheld its pledge to protect the environment.

With its new Beyond Begins Today initiative, Polartec aims to raise awareness around the important global themes of sustainability, diversity and positive change.

Polartec is engaged to make the goal of zero waste a reality – from using 100% recycled and plant-based materials, to delivering certified waste reductions and innovative technologies that reduce the impact of its activities.

Beyond Begins Today is a multifaceted campaign featuring static and multimedia content, including short films released throughout the year via multiple touchpoints and channels – the first of which will be released on Earth Day 2024 to underscore the underlying premise that the future is what we make it. Polartec’s commitment to sustainable solutions go beyond the integration of increasingly advanced manufacturing methods or the ongoing exploration of novel fibers, and continued investments in sustainable materials development.

Polartec’s promises that every product launches in 2024 will either reduce the impact on the planet, endure the test of time, or contribute to circularity processes. Beyond Begins Today looks at how Polartec fabrics are made to last, and made to be used and enjoyed from one generation to the next and beyond. It explores the innovative monomaterials, repurposed plastic and plant-based nylon membranes and fabrics that Polartec uses to set new standards for high performance materials and the ambitious climate-related objectives across the entire value chain that exceed existing mandates. This holistic strategy shall allow Polartec to stay at the forefront of its industry by producing top-notch textiles that champion environmental stewardship and pave the way for a more sustainable tomorrow.

Source:

Akimbo Communications for Polartec

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

Figure 1: Adsorption of a drop of waste oil within seconds by a leaf of the floating fern Salvinia molesta. Abbildung 1 © W. Barthlott, M. Mail/Universität Bonn
Figure 1: Adsorption of a drop of waste oil within seconds by a leaf of the floating fern Salvinia molesta.
14.12.2023

Self-driven and sustainable removal of oil spills in water using textiles

Researchers at the ITA, the University of Bonn and Heimbach GmbH have developed a new method for removing oil spills from water surfaces in an energy-saving, cost-effective way and without the use of toxic substances. The method is made possible by a technical textile that is integrated into a floating container. A single small device can remove up to 4 liters of diesel within an hour. This corresponds to about 100 m2 of oil film on a water surface.
 
Despite the steady expansion of renewable energies, global oil production, oil consumption and the risk of oil pollution have increased steadily over the last two decades. In 2022, global oil production amounted to 4.4 billion tons! Accidents often occur during the extraction, transportation and use of oil, resulting in serious and sometimes irreversible environmental pollution and harm to humans.

There are various methods for removing this oil pollution from water surfaces. However, all methods have various shortcomings that make them difficult to use and, in particular, limit the removal of oil from inland waters.

Researchers at the ITA, the University of Bonn and Heimbach GmbH have developed a new method for removing oil spills from water surfaces in an energy-saving, cost-effective way and without the use of toxic substances. The method is made possible by a technical textile that is integrated into a floating container. A single small device can remove up to 4 liters of diesel within an hour. This corresponds to about 100 m2 of oil film on a water surface.
 
Despite the steady expansion of renewable energies, global oil production, oil consumption and the risk of oil pollution have increased steadily over the last two decades. In 2022, global oil production amounted to 4.4 billion tons! Accidents often occur during the extraction, transportation and use of oil, resulting in serious and sometimes irreversible environmental pollution and harm to humans.

There are various methods for removing this oil pollution from water surfaces. However, all methods have various shortcomings that make them difficult to use and, in particular, limit the removal of oil from inland waters.

For many technical applications, unexpected solutions come from the field of biology. Millions of years of evolution led to optimized surfaces of living organisms for their interaction with the environment. Solutions - often rather unfamiliar to materials scientists and difficult to accept. The long-time routine examination of around 20,000 different species showed that there is an almost infinite variety of structures and functionalities. Some species in particular stand out for their excellent oil adsorption properties. It was shown that, e.g., leaves of the floating fern Salvinia molesta, adsorb oil, separate it from water surfaces and transport it on their surfaces (Figure 1, see also the video of the phenomon.).

The observations inspired them to transfer the effect to technical textiles for separating oil and water. The result is a superhydrophobic spacer fabric that can be produced industrially and is therefore easily scalable.

The bio-inspired textile can be integrated into a device for oil-water separation. This entire device is called a Bionic Oil Adsorber (BOA). Figure 2: Cross-section of computer-aided (CAD) model of the Bionic Oil Adsorber. The scheme shows an oil film (red) on a water surface (light blue). In the floating cotainer(gray), the textile (orange) is fixed so that it is in contact with the oil film and the end protrudes into the container. The oil is adsorbed and transported by the BOA textile. As shown in the cross-section, it enters the contain-er, where it is released again and accumulates at the bottom of the container. See also the video regarding the oil absorption on the textile, source ITA).
 
Starting from the contamination in the form of an oil film on the water surface, the separation and collection process works according to the following steps:

  • The BOA is introduced into the oil film.
  • The oil is adsorbed by the textile and separated from the water at the same time.
  • The oil is transported through the textile into the collection container.
  • The oil drips from the textile into the collection container.
  • The oil is collected until the container is emptied.

The advantage of this novel oil separation device is that no additional energy has to be applied to operate the BOA. The oil is separated from the surrounding water by the surface properties of the textile and transported through the textile driven solely by capillary forces, even against gravity. When it reaches the end of the textile in the collection container, the oil desorbs without any further external influence due to gravitational forces. With the current scale approximately 4 L of diesel can be separated from water by one device of the Bionic Oil Adsorber per hour.

  • It seems unlikely that a functionalized knitted spacer textile is cheaper than a conventional nonwoven, like it is commonly used for oil sorbents. However, since it is a functional material, the costs must be related to the amount of oil removed. In this respect, if we compare the sales price of the BOA textile with the sales prices of various oil-binding nonwovens, the former is 5 to 13 times cheaper with 10 ct/L oil removed.
    Overall, the BOA device offers a cost-effective and sustainable method of oil-water separation in contrast to conventional cleaning methods due to the following advantages:
  • No additional energy requirements, such as with oil skimmers, are necessary
  • No toxic substances are introduced into the water body, such as with oil dispersants
  • The textiles and equipment can be reused multiple times
  • No waste remains inside the water body
  • Inexpensive in terms of the amount of oil removed.
  • The team of researchers from the ITA, the University of Bonn and Heimbach GmbH was able to prove that the novel biomimetic BOA technology is surprisingly efficient and sustainable for a self-controlled separation and automatic collection of oil films including their complete removal from the water. BOA can be asapted for open water application but also for the use in inland waters. Furthermore, it is promising, that the textile can be used in various related separation processes. The product is currently being further developed so that it can be launched on the market in 2-3 years.

 

Source:

ITA – Institut für Textiltechnik of RWTH Aachen University

Global Fashion Agenda presents new digital film series (c) Fashion Redressed
22.09.2023

Global Fashion Agenda presents new digital film series

Global Fashion Agenda (GFA) presented a new online film series: Fashion Redressed. Produced by BBC StoryWorks Commercial Productions, the captivating series intends to inspire the industry to take action to transform the way we produce and consume fashion.

Global Fashion Agenda (GFA) presented a new online film series: Fashion Redressed. Produced by BBC StoryWorks Commercial Productions, the captivating series intends to inspire the industry to take action to transform the way we produce and consume fashion.

Every day we express ourselves through our clothes. Encompassing cultures, personalities, traditions and beliefs, fashion is core to how we present ourselves to the outside world. But our consumption of fashion and clothing is pushing our planet and societies to its limits. Fashion trendsetters and pioneers are working to meet this challenge head-on with game-changing ideas. At the heart of this is the question: how can we keep expressing all we do through fashion, but without hurting the planet?
 
Focused on finding the answers, Fashion Redressed, comprises multiple films that showcase organisations from across the fashion and textile industries. Launched on a BBC.com microsite, the series spotlights the innovations across the world that are influencing the new seasons of fashion, featuring a collection of stories that depict tailor-made solutions to fit us and our planet.
 
The 11 self-contained branded films showcase a range of participants including: eBay, Elk, The Ellen MacArthur Foundation, Vestiaire Collective, Spinnova, Lenzing, Faherty, FarFetch, Waste2Wear, Colorifix and Forest Stewardship Council. Each film focuses on a bespoke solution that can benefit us and the planet. From the scientist taking inspiration from silk-spinning spiders in Helsinki and the duo taking a deep dive into the genetic makeup of colour in Cambridge, to the pre-loved clothes being brought to life on a global platform from Paris and the importance of cultural appreciation in Arizona, fashion gathers the most creative and innovative minds. This series expresses the dynamism and creativity of the fashion world, spotlighting the people weaving change into the fibres of fashion and those who are working to find the stylish side of a more sustainable sector.
 
The series was unveiled ahead of GFA’s landmark event – Global Fashion Summit: Boston Edition – on 27 September. The forum will bring together fashion stakeholders for agenda-setting discussions and productive meetings on critical environmental and social issues.

Photo Pure Denim
03.01.2023

PureDenim & Bemberg ™: “Blue di Cupro” collection at Pitti Uomo

In occasion of the next edition of Pitti Uomo, Bemberg™ by Asahi Kasei – the unique fiber with a circular economy footprint obtained from cotton linters through a closed-loop process ensuring certified sustainability credentials through its transparent and traceable approach- reveals a very special Bemberg™ fabrics smart range dedicated to premium denimwear.

In occasion of the next edition of Pitti Uomo, Bemberg™ by Asahi Kasei – the unique fiber with a circular economy footprint obtained from cotton linters through a closed-loop process ensuring certified sustainability credentials through its transparent and traceable approach- reveals a very special Bemberg™ fabrics smart range dedicated to premium denimwear.

This has been made possible thanks to the partnership with PureDenim, a leading Italian company whose strategy since 10 years is based on an entire re-design of the production system, inspired by circular economy principles that combines technology and innovative materials in order to offer the highest levels of design, innovation and real responsible values derived from an holistic approach to sustainability.
The “Blue di Cupro” collection is made with seven fabrics made with Bemberg™, either 100% Bemberg™ or in blend with cotton, wool, and it applies the most advanced Pure Denim Technologies. The Blue di cupro fabrics made with Bemberg™ will also be dyed with “Smart Indigo” an indigo dye technology internally produced by PureDenim, through a chemical-free production. The only elements involved are: water, indigo pigments, and electricity. In terms of finishing, fabrics’ looks and performances are enhanced by the “Eco Sonic” ultrasounds finishing technology which brings significant reduction of water used, increased aesthetic features and controlled discoloration. And last but not least every yarn used at PureDenim is protected by NaturalReco® a 100% natural product that completely SUBSTITUTE the use of plastic films that are one of the key causes of microplastic emission for denim application.

“Blue” seems to be the new colour of Bemberg™, in fact, the company in early November 2022 announced, at the Blue Friday initiative by UNESCO's Intergovernmental Oceanographic Commission (IOC), the achievement of the OK biodegradable MARINE certification, which guarantees the biodegradability of its products even in the marine environment, as certified by TÜV AUSTRIA, meaning a lot in the context of microplastics in water issue solutions. This Bemberg™ certification’s achievement comes on top of other key ones such as the INNOVHUB report that confirms Bemberg™ biodegradability in soil without releasing hazardous substances, the RCS by Textile Exchange, and the Oeko-Tex Standard 100 and ISO 14001 corporate certifications.

Source:

C.L.A.S.S.

Graphic NatureWorks
16.11.2022

CJ Biomaterials and NatureWorks: Joint commercialization of novel biopolymer solutions

  • Future plans for the nonwovens market

The two companies will develop sustainable materials solutions based on CJ Biomaterials’ PHACT™ PHA and NatureWorks’ Ingeo™ PLA technologies NTR and CJ Biomaterials

CJ Biomaterials, Inc., a division of South Korea-based CJ CheilJedang and leading producer of polyhydroxyalkanoate (PHA), and NatureWorks, an advanced materials company that is the world’s leading producer of polylactic acid (PLA), have signed a Master Collaboration Agreement (MCA) that calls for the two organizations to collaborate on the development of sustainable materials solutions based on CJ Biomaterials’ PHACT™ Biodegradable Polymers and NatureWorks’ Ingeo™ biopolymers. The companies will develop high-performance biopolymer solutions that will replace fossil-fuel based plastics in applications ranging from compostable food packaging and food serviceware to personal care, films, and other end products.

  • Future plans for the nonwovens market

The two companies will develop sustainable materials solutions based on CJ Biomaterials’ PHACT™ PHA and NatureWorks’ Ingeo™ PLA technologies NTR and CJ Biomaterials

CJ Biomaterials, Inc., a division of South Korea-based CJ CheilJedang and leading producer of polyhydroxyalkanoate (PHA), and NatureWorks, an advanced materials company that is the world’s leading producer of polylactic acid (PLA), have signed a Master Collaboration Agreement (MCA) that calls for the two organizations to collaborate on the development of sustainable materials solutions based on CJ Biomaterials’ PHACT™ Biodegradable Polymers and NatureWorks’ Ingeo™ biopolymers. The companies will develop high-performance biopolymer solutions that will replace fossil-fuel based plastics in applications ranging from compostable food packaging and food serviceware to personal care, films, and other end products.

The initial focus of this joint agreement will be to develop biobased solutions that create new performance attributes for compostable rigid and flexible food packaging and food serviceware. The new solutions developed will also aim to speed up biodegradation to introduce more “after-use” options consistent with a circular economy model. The focus on compostable food packaging and serviceware will create more solutions for keeping methane-generating food scraps out of landfills, which are the third largest source of methane emissions globally, according to World Bank. Using compostable food packaging and serviceware, we can divert more food scraps to composting where they become part of a nutrient-rich, soil amendment that improves soil health through increased biodiversity and sequestered carbon content.

CJ Biomaterials and NatureWorks plan to expand their relationship beyond cooperative product development for packaging to create new applications in the films and nonwoven markets.  For these additional applications, the two companies will enter into strategic supply agreements to support development efforts.

More information:
NatureWorks Biopolymere packaging
Source:

NatureWorks

(c) EREMA Group GmbH
17.03.2022

EREMA: Working together with Recycling Company Anviplas

The Spanish recycling company Anviplas has been involved in plastics recycling for more than 30 years, during which time it has built up extensive know-how that now benefits customers throughout Europe, in Africa and in Asia. Their cooperation with EREMA is almost as long. Since 1991, Anviplas has relied on the technology and service provided by the Austrian recycling machine manufacturer.

The Spanish recycling company Anviplas has been involved in plastics recycling for more than 30 years, during which time it has built up extensive know-how that now benefits customers throughout Europe, in Africa and in Asia. Their cooperation with EREMA is almost as long. Since 1991, Anviplas has relied on the technology and service provided by the Austrian recycling machine manufacturer.

Employing 64 people, Anviplas recycles post-industrial and post-consumer plastic waste, especially HD and LD-PE as well as PP, to make recycled pellets in all colour variations. The production capacity is 1,800 tonnes per month. An EREMA type INTAREMA® 1716 TVEplus® recycling machine with screen changer is in operation at the site in Navarcles (Barcelona) for processing the PP material stream. This patented extruder system was developed for handling difficult-to-process materials, such as heavily printed films as well as very moist waste. This machine is characterised by its optimised 3-stage degassing system; firstly by preheating and predrying the material in the preconditioning unit, secondly because the screw design allows reverse degassing, and thirdly in the degassing zone of the extruder.

Anviplas customers manufacture a huge bandwidth of products made using their recycled pellets. They range from various film products, such as stretch, shrink, mulch and silage films, to irrigation, corrugated and high-pressure pipes, as well as containers such as tubs, bottles, barrels and crates.

In February 2022 the Repeats Group, a pan-European platform for LDPE recycling, and Anviplas announced, that Repeats has made an investment in the Spanish recycling company. For Repeats this investment in Anviplas represents an important step in building a pan-European plastics recycling platform.

More information:
EREMA Recycling plastics Anviplas
Source:

EREMA Group GmbH

(c) AMUT/EREMA
02.12.2021

AMUT/EREMA: From PET bottles straight to food contact grade r-PET packaging

AMUT’s strategic partnership with EREMA contributes to accelerate the transition towards a greener world.  In summer 2021, EREMA in collaboration with AMUT  has finalized the installation and commissioning of ALTO packaging ́s first extrusion line for food grade PET sheets in New Zealand market. At the ALTO Plastic Packaging site, in Albany, the plant now processes 100 % washed post-
consumer flakes into 100 % food contact grade monolayer thermoforming sheet. In New Zealand, this milestone represents the first system to be installed for this special application.

The plastic packaging company ALTO, a division of PACT Group, invested for this new food grade PET sheet extrusion line as a part of Pact Group ́s vision to lead Circular Economy through Packaging in Australia and New Zealand.

AMUT’s strategic partnership with EREMA contributes to accelerate the transition towards a greener world.  In summer 2021, EREMA in collaboration with AMUT  has finalized the installation and commissioning of ALTO packaging ́s first extrusion line for food grade PET sheets in New Zealand market. At the ALTO Plastic Packaging site, in Albany, the plant now processes 100 % washed post-
consumer flakes into 100 % food contact grade monolayer thermoforming sheet. In New Zealand, this milestone represents the first system to be installed for this special application.

The plastic packaging company ALTO, a division of PACT Group, invested for this new food grade PET sheet extrusion line as a part of Pact Group ́s vision to lead Circular Economy through Packaging in Australia and New Zealand.

Thanks to the direct combination of VACUREMA® PET recycling technology and the AMUT Inline Sheet production technology there is no longer any extra process stage. This is, because the melt goes straight from the VACUREMA® 1716 T Basic to the AMUT plant without the detour of pelletising. The post-consumer PET material is already decontaminated and pre-dried prior to extrusion in the vacuum reactor of the VACUREMA® Basic, with a throughput of up to 1,500 kg per hour. After high capacity filtration by EREMA SW-RTF backflush filter and online IV measurement, the melt goes directly into the AMUT Inline Sheet plant where it is processed into thermoforming sheet from 0.15 mm till 1.2 mm thickness. The monolayer thermoforming sheet produced from pure rPET is not only 100 % food contact compliant, it also fulfils the FDA and further regulations. At ALTO it is further processed into trays and food containers.

AMUT played its part by providing a full range of downstream equipment ranging from the Automatic Tdie, three rolls stack calender with automatic gap control and motorized cross axing unit, lamination unit for welding and barrier films, thickness control gauge to anti-static silicon coating unit, fully automatic two shafts turret winder and in line edge trims grinding and recycling.

The special features of this extrusion line come from the complete automatic and easy management of the line. This is due to the new Amut`s software including the Easy Start and Easy Change functions that will allow the operator to start the extrusion line and change product formats in automatic mode.

EREMA and AMUT are long-term partners in the Inline Sheet sector. EREMA ́s VACUREMA® technology is currently in use in more than 100 Inline Sheet facilities around the world, also for PACT Group companies in Australia. 

More information:
AMUT EREMA PET plastics Recycling
Source:

EREMA Group GmbH

18.10.2021

SABIC presents new Portfolio for Nonwovens at INDEX

SABIC has announced that the newly formed Hygiene & Healthcare segment of its Petrochemicals business will showcase its extensive portfolio of SABIC PURECARES™ polypropylene (PP) and polyethylene (PE) polymers for high-purity nonwovens and hygiene films at the upcoming INDEX™ Expo in Geneva, Switzerland, from October 19 through 22, 2021. The company will also present enabling solutions developed with partners to address the issue of plastic waste and support the transformation of the industry towards a circular economy with closed-loop initiatives and certified circular polymers under its TRUCIRCLE™ portfolio and services.

SABIC has announced that the newly formed Hygiene & Healthcare segment of its Petrochemicals business will showcase its extensive portfolio of SABIC PURECARES™ polypropylene (PP) and polyethylene (PE) polymers for high-purity nonwovens and hygiene films at the upcoming INDEX™ Expo in Geneva, Switzerland, from October 19 through 22, 2021. The company will also present enabling solutions developed with partners to address the issue of plastic waste and support the transformation of the industry towards a circular economy with closed-loop initiatives and certified circular polymers under its TRUCIRCLE™ portfolio and services.

During INDEX, SABIC will exhibit a wide range of PP polymers targeted at these needs. Highlights on display will include dedicated PP and PE grades for lightweight nonwoven fabrics using the latest spunbond and meltblown processes, and a new ultra-high melt flow PP product engineered for meltblown fibers in nonwoven fabrics. The nonwoven focus will be complemented by industry proven polyolefins for cast and blown film applications in hygiene webs and laminates, providing desirable back and top sheet properties such as water tightness, breathability and elasticity.

In addition, SABIC will also present ISCC Plus certified fiber and film polymers based on circular and renewable PP and PE polymer technology as part of the company’s TRUCIRCLE portfolio for advancing the transformation of the plastics industry from a linear to a truly circular economy. Examples of this comprehensive initiative include collaborations with various market leaders in the field. Together with Fibertex Personal Care, one of the world’s largest manufacturers of spunbond nonwovens for the hygiene industry, SABIC is creating a range of high-purity nonwovens for the hygiene market using ISCC PLUS certified circular PP polymer derived from post-consumer plastic waste. In another project, Fraunhofer Institute, SABIC and Procter & Gamble (P&G) joined forces to develop and demonstrate the feasibility of an advanced close-loop recycling process for used nonwoven facemasks.

Source:

SABIC / Marketing Solutions NV

(c) Notus Composites. Notus NE7 low temperature curing prepreg
15.09.2021

Notus Composites Launches New Low Temperature Curing NE7 Epoxy Prepreg

Notus Composites (UAE), the award-winning producer of epoxy prepreg materials, announces the latest addition to its high-performance epoxy range with the launch of its new NE7 low temperature curing prepreg system. The Notus NE7 formulation allows composite manufacturers to cure components at temperatures as low as 70˚C, reducing energy consumption and enabling more cost-effective tooling options.

Notus Composites has developed the new NE7 prepreg systems for applications across the Marine, Architecture, Industrial and Wind Energy sectors, with the novel low temperature curing chemistry delivery significant cost benefits. Existing prepreg manufacturers can now use more cost-effective composite tooling, with new prepreg users able to switch easily from existing infusion or wet laminating processes without creating expensive new high temperature tooling.

Notus Composites (UAE), the award-winning producer of epoxy prepreg materials, announces the latest addition to its high-performance epoxy range with the launch of its new NE7 low temperature curing prepreg system. The Notus NE7 formulation allows composite manufacturers to cure components at temperatures as low as 70˚C, reducing energy consumption and enabling more cost-effective tooling options.

Notus Composites has developed the new NE7 prepreg systems for applications across the Marine, Architecture, Industrial and Wind Energy sectors, with the novel low temperature curing chemistry delivery significant cost benefits. Existing prepreg manufacturers can now use more cost-effective composite tooling, with new prepreg users able to switch easily from existing infusion or wet laminating processes without creating expensive new high temperature tooling.

NE7 prepregs can be cured at temperatures as low as 70˚C, with the standard cure cycle being 12 hours at 70˚C, matching the typical cycle time for an infused part with a component Tg of 85˚C. NE7 materials have a good outlife of 30 days at 20˚C and are available in all prepreg and Notus single sided N1-Preg formats with unidirectional, multiaxial, and woven reinforcements. NE7 can also be supplied as a resin film.

Notus has recently supplied NE7 low temperature prepregs to Dubai based Aeolos Composites for the production of their new Aeolos P30 racing yacht. The P30 is a futuristic new craft created by top German sailor and designer, Hans Genthe, with a super light carbon fibre construction and large sail area that promises spectacular on the water performance for a thirty foot yacht. Notus delivered a range NE7 prepregs for the build, including woven, multiaxial, and unidirectional carbon fibre reinforcements as well as adhesive films for core bonding.

More information:
Notus prepreg material
Source:

Notus Composites.

Photo: Oerlikon
28.01.2021

Oerlikon Barmag Huitong Engineering commissions first PBS system

A polybutylene succinate (PBS) polycondensation system was commissioned at Yingkou Kanghui Petrochemical Co. Ltd. in Dalian in the Chinese Liaoning Province at the beginning of January 2021. The PBS system, for which Oerlikon Barmag Huitong Engineering supplied both equipment and engineering, has a daily production capacity of 100 tons

It is used to manufacture high-viscosity chips for biodegradable films. Consequently, Yingkou Kanghui, a subsidiary of the Hengli Group, is catering to rising demand for biodegradable polymer products – demand that is increasing not just in China, but across the globe. Yingkou Kanghui Petrochemical Co., Ltd., founded in 2011, predominantly produces polyester chips and films. By expanding its portfolio to include the manufacture of PBS products, the enterprise is positioning itself as a pioneer of biopolymer production: In view of the large quantities of plastic waste not just in the oceans, biopolymers are considered the materials of the future.

A polybutylene succinate (PBS) polycondensation system was commissioned at Yingkou Kanghui Petrochemical Co. Ltd. in Dalian in the Chinese Liaoning Province at the beginning of January 2021. The PBS system, for which Oerlikon Barmag Huitong Engineering supplied both equipment and engineering, has a daily production capacity of 100 tons

It is used to manufacture high-viscosity chips for biodegradable films. Consequently, Yingkou Kanghui, a subsidiary of the Hengli Group, is catering to rising demand for biodegradable polymer products – demand that is increasing not just in China, but across the globe. Yingkou Kanghui Petrochemical Co., Ltd., founded in 2011, predominantly produces polyester chips and films. By expanding its portfolio to include the manufacture of PBS products, the enterprise is positioning itself as a pioneer of biopolymer production: In view of the large quantities of plastic waste not just in the oceans, biopolymers are considered the materials of the future.

The new plant at Yingkou Kanghui Petrochemical Co, Ltd. was production-ready with the support of Oerlikon Barmag Huitong Engineering within less than 14 months following contract signing.

Source:

Oerlikon

World Cotton Day on 7 October Highlights the Importance of Cotton for Development Policy (c) pixabay
Cotton
07.10.2020

October, 7th: World Cotton Day

  • World Cotton Day on 7 October Highlights the Importance of Cotton for Development Policy

Bremen - Stemming from a 2019 initiative of the African Cotton-4 countries Benin, Burkina Faso, Chad and Mali, World Cotton Day will take place this year on 7 October. The event is organised by the Geneva-based World Trade Organisation (WTO) and is supported by the Food and Agriculture Organisation of the United Nations (FAO), the United Nations Conference on Trade and Development (UNCTAD), the International Trade Centre (ITC) and the International Cotton Secretariat (ICAC). The Bremen Cotton Exchange is also involved.

“Cotton is often underestimated because it is so natural. Behind it are millions of people, for example many farmers, field workers, employees in ginning factories, logistics providers and traders. We want to honour their achievements,” said the President of the Bremen Cotton Exchange, Stephanie Silber.

  • World Cotton Day on 7 October Highlights the Importance of Cotton for Development Policy

Bremen - Stemming from a 2019 initiative of the African Cotton-4 countries Benin, Burkina Faso, Chad and Mali, World Cotton Day will take place this year on 7 October. The event is organised by the Geneva-based World Trade Organisation (WTO) and is supported by the Food and Agriculture Organisation of the United Nations (FAO), the United Nations Conference on Trade and Development (UNCTAD), the International Trade Centre (ITC) and the International Cotton Secretariat (ICAC). The Bremen Cotton Exchange is also involved.

“Cotton is often underestimated because it is so natural. Behind it are millions of people, for example many farmers, field workers, employees in ginning factories, logistics providers and traders. We want to honour their achievements,” said the President of the Bremen Cotton Exchange, Stephanie Silber.

According to the WTO, the aim of World Cotton Day is to highlight the global economic importance of cotton and to raise awareness of the raw material by recognising the work of everyone involved in its cultivation, processing and trade. At the same time, within the framework of international cooperation, it is hoped that supporters and investors can be found to aid with technological and economic progress within the cotton value chain.

This time, the entire world cotton community will be involved in World Cotton Day on Wednesday, 7 October 2020. A wide variety of campaigns and events are taking place everywhere to draw attention to the importance of cotton and its possible uses.

Cotton is one of the most relevant agricultural raw materials in the world. Around 26 million tonnes of it are harvested annually. Approximately 150 million people in almost 80 countries around the world live from the cultivation of the natural fibre. A large number of these live in developing countries, where cotton cultivation is of particular importance as a cash crop.

Cotton is known as an agricultural product that is turned into a textile. The raw material is indispensable in fashion and clothing – and has been for thousands of years. But the use of cotton now goes far beyond textiles. For example, cosmetic products such as hand creams and hair shampoo are made from the oil of cotton seeds. The raw material is also used in the manufacture of banknotes, furniture and technical textiles, as well as in medical technology.

Against the background of the current discussion on sustainability and sustainable consumption, the role of natural fibres is becoming even more important. Cotton is biodegradable and a renewable resource. It can be grown again and again in agriculture through cultivation in crop rotation. This secures incomes and enables efficient value creation within the global production and processing chain.

The Bremen Cotton Exchange will actively support World Cotton Day with cross-media coverage. In addition, in time for World Cotton Day, three thematically different, emotionally appealing short films about cotton will be launched. They are aimed at consumers as customers of the textile and clothing trade and provide information about the benefits and properties of cotton and answer questions about its sustainability. In keeping with the times, they will be published via virtual media.

07.05.2018

Clariant showcases support for North America’s plastics industry growth

  • Additives, pigments and masterbatches for transportation, packaging, textiles & fibers
  • Support to “future-proof” medical applications
  • Contributing towards more sustainable engineering plastics

Clariant, a world leader in specialty chemicals, turns the spotlight on its increasing on-the-ground support and innovation focus for North America’s four key plastics application segments at NPE 2018 Booth S18155.

Clariant is pushing forward with plans for growth in the region by advancing R&D competencies, and increasing its manufacturing footprint and technical capabilities across its 50+ sites, 3 R&D and 6 technical innovation centers. Clariant’s innovations for the plastics industry include advanced additives, masterbatches and pigments which support the packaging sector in engaging consumers via differentiated, convenient solutions. At NPE, it will also highlight solutions for enhancing and protecting healthcare products, as well as its contribution to stronger and colorful textiles and fibers for everything from e-mobility to industrial applications.

  • Additives, pigments and masterbatches for transportation, packaging, textiles & fibers
  • Support to “future-proof” medical applications
  • Contributing towards more sustainable engineering plastics

Clariant, a world leader in specialty chemicals, turns the spotlight on its increasing on-the-ground support and innovation focus for North America’s four key plastics application segments at NPE 2018 Booth S18155.

Clariant is pushing forward with plans for growth in the region by advancing R&D competencies, and increasing its manufacturing footprint and technical capabilities across its 50+ sites, 3 R&D and 6 technical innovation centers. Clariant’s innovations for the plastics industry include advanced additives, masterbatches and pigments which support the packaging sector in engaging consumers via differentiated, convenient solutions. At NPE, it will also highlight solutions for enhancing and protecting healthcare products, as well as its contribution to stronger and colorful textiles and fibers for everything from e-mobility to industrial applications.

Deepak Parikh, president of region North America, Clariant comments: “Clariant’s product innovation for the US and wider North American plastics industry embraces the region’s fastest growing end-use areas of automotive and construction. It also addresses the impact of trends driven by changing consumer lifestyle preferences and market regulations on other important segments such as packaging and healthcare.”

Transportation
Clariant brings color and protection to support the increasing use of engineering plastics and high temperture resins in automotive interiors, exteriors and under-the-hood. Halogen-free Exolit® OP 1400 provides outstanding flame retardancy to polyamide parts, enhances safety with UL 94 V0 performance down to 0.4 mm and enables the molding of complex parts with no mold deposits and blooming. Exolit OP 1400 has been awarded the Clariant EcoTain®label for outstanding sustainability and performance. At the same time, Clariant offers low-halogen controlled high-performance PV Fast® pigmentswith excellent migration and weather fastness properties to meet the high requirements of today’s transportation and automotive industry. Easy processing Renol® compounds and masterbatches for engineering and high temperature resins provide heat and light stability, and flame retardancy, while maintaining critical flow properties in parts like SMT connectors. Importantly, they are available as small lots which enables customers to purchase only what they require and contribute to a reduction in their carbon footprint.

Packaging
As US packaging manufacturers explore more consumer-friendly, lighterweight and appealing solutions, Clariant is on hand to support their functionality, sustainability-related and color desires. Clariant Pigments has an innovative cooperation with Konica Minolta and matchmycolor to enable fast, precise and efficient color matching of HDPE products, using select organic PV Fast and Graphtol® pigments that comply with FDA regulations. The ColorWorks®center in Chicago is dedicated to US brand managers and designers with teams of color design experts to create color formulations faster than ever before for bottles, caps, closures and films.

According to market reports, plastic pouches are gaining share from traditional pack types in packaged food and are mainstream in home care. To support smoother and more environmentally-compatible processing especially for film applications, Clariant offers an FDA-compliant, vegetable-based powder amide wax, Licolub® FA 1, which acts as a slip and anti-block agent. It is suitable for polyolefins and PVC.

Textiles & Fiber
At NPE 2018, Clariant puts the focus on strong and colorful textiles, carpets and industrial fibers. New AddWorks® TFB 117 offers a number of benefits to help stabilize and smoothen fiber production processes, protect color, and improve heat stability and mechanical properties of fibers. AddWorks TFB 117 ensures smooth spinnability with less filaments breakage, even at low processing temperatures and at high speed spinning up to 5,500 m/min. Clariant also offers a broad range of colorants for polypropylene, polyester, polyamide and acrylic fibers, featuring migration fastness, chemical stability, light- and weather-fastness.

Healthcare
Clariant supports risk control and regulatory compliance for medical polymer and pharmaceutical packaging solutions. Its Mevopur® color and performance masterbatches and compounds include a USP Class 6 line of compliant products and multiple global ISO, 87, 88, and 661.1 certifications ahead of the market deadline. Clariant also offers selected FDA-compliant organic pigments and polymer soluble dyes that meet purity migration fastness as well as toxicological properties for medical devices and pharmaceutical packaging.