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Baldwin presents spray finishing system at Techtexil (c) Baldwin Technology Company Inc.
13.03.2024

Baldwin presents spray finishing system at Techtexil

Baldwin Technology Co. will join Elmatex GmbH at Techtexil (April 23-26 in Frankfurt, Germany) to demonstrate its TexCoat™ G4 precision spray finishing system.

Baldwin Technology Co. will join Elmatex GmbH at Techtexil (April 23-26 in Frankfurt, Germany) to demonstrate its TexCoat™ G4 precision spray finishing system.

With Baldwin’s system, the chemistry is precisely distributed across the textile surface and is applied only where it is required, on one or both sides of the fabric. The non-contact technology eliminates chemistry dilution in wet-on-wet processes, allowing full control of maintaining consistent chemistry coverage rates. Plus, pad bath contamination is eliminated, and changeovers are only required when there is a change of finish chemistry.
 
Furthermore, the system offers automated speed tracking, fabric-width compensation, and real-time monitoring to track system uptime, performance and chemistry usage, as well as active care alerts.
 
In addition, the TexCoat™ G4 system can process a wide range of low-viscosity water-based chemicals, such as durable water repellents, softeners, antimicrobials, flame retardants and more. Baldwin’s technology utilizes the same chemicals used in the traditional pad bath, and no special auxiliaries are required. The recipe is adjusted by increasing the concentration and reducing the pickup by a corresponding amount, so that the same level of solids is applied.
 
Some applications, such as durable water repellents, are only applied on the face of the fabric, instead of the traditional method of saturation through dipping and squeezing. Drier fabric entering the stenter means lower drying temperatures and faster process speeds. Single-side applications also open up the opportunity to process back-coated or laminated fabrics in a single pass of the stenter, instead of two passes.

28.03.2022

Startups and AkzoNobel sign letters of intent for joint collaboration

Less than 24 hours after winning Paint the Future awards, three startups have already signed their letters of intent to continue working together on sustainable business opportunities with AkzoNobel.

It’s the next step of a continuing collaborative innovation journey. The startups had the opportunity to explore their solutions with their mentors and industry experts through each phase of the global startup challenge, including an intense three-day bootcamp. Now having signed the letters of intent, they will develop their solutions even further with AkzoNobel.

“The winning startups are joining our go-to-market acceleration program, connecting them to a global network of people and resources,” says Menno van der Zalm, Director of the AkzoNobel Incubator. “Over the next six months, we’ll work together to validate their solutions for our customers and develop a joint value case.”

The following three solutions won over the international jury of experts and business leaders:

Less than 24 hours after winning Paint the Future awards, three startups have already signed their letters of intent to continue working together on sustainable business opportunities with AkzoNobel.

It’s the next step of a continuing collaborative innovation journey. The startups had the opportunity to explore their solutions with their mentors and industry experts through each phase of the global startup challenge, including an intense three-day bootcamp. Now having signed the letters of intent, they will develop their solutions even further with AkzoNobel.

“The winning startups are joining our go-to-market acceleration program, connecting them to a global network of people and resources,” says Menno van der Zalm, Director of the AkzoNobel Incubator. “Over the next six months, we’ll work together to validate their solutions for our customers and develop a joint value case.”

The following three solutions won over the international jury of experts and business leaders:

  • Winner: SolCold
    The solution from Israeli startup SolCold is a sustainable self-cooling coating based on anti-Stokes. It uses the sun’s energy to keep the inside temperature much cooler without having to use any electricity.
  • Winner: Aerones
    Latvian startup Aerones brings a robotic solution to wind turbine maintenance. Their crawling robot allows technicians to safely and efficiently perform inspections, cleaning and repairs at height.
  • Winner: SprayVision
    From the Czech Republic, SprayVision brings a data-driven approach to optimizing spray application of paint, offering customers full control over the process. The solution helps to reduce environmental impact by saving material and improving quality.
Source:

AkzoNobel

Three Startups receive the Paint the Future award from AkzoNobel (c) AkzoNobel
24.03.2022

Three Startups receive the Paint the Future award from AkzoNobel

The three winners of the Paint the Future global startup challenge are all set to accelerate their innovative solutions for the paints and coatings industry. Following an intense three-day bootcamp, these startups were selected by an international jury to continue working with AkzoNobel on sustainable business opportunities.
 
These are the three winners of the Paint the Future global startup challenge:

  • SolCold (Israel) - Sustainable self-cooling coating based on anti-Stokes
  • Aerones (Latvia) - Robotics for wind turbine maintenance
  • SprayVision (Czech Republic) - Data-driven approach to optimal spray application of paint

“Through Paint the Future, we’re bringing innovation and sustainability together as a key driver of our business,” says Thierry Vanlancker, AkzoNobel CEO. “In our ecosystem, we collaborate with startups, suppliers, customers and academia around exciting solutions that will ensure a more sustainable future.”

The three winners of the Paint the Future global startup challenge are all set to accelerate their innovative solutions for the paints and coatings industry. Following an intense three-day bootcamp, these startups were selected by an international jury to continue working with AkzoNobel on sustainable business opportunities.
 
These are the three winners of the Paint the Future global startup challenge:

  • SolCold (Israel) - Sustainable self-cooling coating based on anti-Stokes
  • Aerones (Latvia) - Robotics for wind turbine maintenance
  • SprayVision (Czech Republic) - Data-driven approach to optimal spray application of paint

“Through Paint the Future, we’re bringing innovation and sustainability together as a key driver of our business,” says Thierry Vanlancker, AkzoNobel CEO. “In our ecosystem, we collaborate with startups, suppliers, customers and academia around exciting solutions that will ensure a more sustainable future.”

Paint the Future startup challenges are designed to connect startups with industry knowledge and expertise to help accelerate their solutions in the paints and coatings industry. This Paint the Future global startup challenge launched May 18, 2021, attracting 245 submissions from 62 countries. Ten finalists were invited to Amsterdam to participate in the bootcamp program.
 
This is AkzoNobel’s second global startup challenge, following its industry-first predecessor in 2019. Regional startup challenges have since been held in Brazil (2020), China (2021), and most recently in India (2022).

More information:
AkzoNobel Sustainability Coatings
Source:

AkzoNobel

Baldwin receives three FlexoCleanerBrush™ orders in 30 days (c) Baldwin Technology
Baldwin’s three new FlexoCleanerBrush installations are located in Bevaria (Germany), Michigan (US) and Florida (US). The Florida order was secured in partnership with local agent Technoflex in South Carolina (US).
23.03.2021

Baldwin receives three FlexoCleanerBrush™ orders in 30 days

  • Full-width automated cleaning system will be installed on high-graphics corrugated presses

Baldwin Technology Company Inc. has successfully landed three new FlexoCleanerBrush orders, with a total of 16 cleaning heads, from customers in the US and Germany. During the COVID-19 pandemic, Baldwin has delivered a total of 30 FlexoCleanerBrush cleaning heads, thanks to close collaboration between onsite team members, local agents, the company’s global sales organization, and support from its product and technology center in Germany. With the FlexoCleanerBrush system, an inline cleaning station installed within each print unit uses a brush that runs the full width of each printing plate. Paired with a precision spray application system, the FlexoCleanerBrush evenly distributes a mixture of detergent and water across the plate as it spins, gently cleaning its surface. The plates are then dried by the integrated air knife.

  • Full-width automated cleaning system will be installed on high-graphics corrugated presses

Baldwin Technology Company Inc. has successfully landed three new FlexoCleanerBrush orders, with a total of 16 cleaning heads, from customers in the US and Germany. During the COVID-19 pandemic, Baldwin has delivered a total of 30 FlexoCleanerBrush cleaning heads, thanks to close collaboration between onsite team members, local agents, the company’s global sales organization, and support from its product and technology center in Germany. With the FlexoCleanerBrush system, an inline cleaning station installed within each print unit uses a brush that runs the full width of each printing plate. Paired with a precision spray application system, the FlexoCleanerBrush evenly distributes a mixture of detergent and water across the plate as it spins, gently cleaning its surface. The plates are then dried by the integrated air knife.

“With two of the recent orders, the customers had already installed the FlexoCleanerBrush in other locations. One of them reported as much as a 30 percent production capacity increase, thanks to the  installation,” said Lee Simmonds, Regional Sales Manager at Baldwin. “Both customers have experienced insufficient results with their original traversing cloth cleaning systems, which will now be removed and replaced with the full-width, stand-alone, automated FlexoCleanerBrush technology from Baldwin.”

Improving sustainability is one of the key drivers for investments in the corrugated printing industry. The FlexoCleanerBrush dramatically cuts water waste by cleaning plates more efficiently. In a recent independent study that was conducted to validate the capacity of the automated system, the FlexoCleanerBrush could fully clean and dry all printing plates in less than four minutes and pick hickeys in seconds.

Besides offering efficient cleaning during runs and fast end-of-job cleaning, the FlexoCleanerBrush system also enables operators to remove dry plates from the machine without the potential risk of plates sticking together once they are placed back in the plateracking system. This helps to ensure increased board throughput, less downtime and a safer working environment by eliminating operators’ contact with nip points, moving parts and chemicals.

Source:

Baldwin Technology

TMAS member imogo develops new sustainable spray application technologies (c) TMAS
The roundtable discussion, Sustainable Finishing Methods in Textile Finishing, during ITA 2020.
16.11.2020

TMAS member imogo develops new sustainable spray application technologies

In a roundtable discussion during the recent Innovate Textiles & Apparel (ITA) textile machinery exhibition, imogo Founding Partner Per Stenflo and representatives from a number of like-minded European companies discussed the opportunities for new spray application technologies for the dyeing and finishing sector.

These technologies can achieve tremendous savings for manufacturers compared to traditional water-intensive processes it was explained at the event, held online from October 15-30th.

Pioneer
imogo – one of the latest companies to join TMAS, the Swedish Textile Machinery Association – is one of the key pioneers in this area with its Dye-Max system. Dye-Max spray dyeing technology can slash the use of fresh water, wastewater, energy and chemicals by as much as 90% compared to conventional jet dyeing systems. This is due to the extremely low liquor ratio of 0.3-0.8 litres per kilo of fabric and at the same time, considerably fewer auxiliary chemicals are required to start with.

In a roundtable discussion during the recent Innovate Textiles & Apparel (ITA) textile machinery exhibition, imogo Founding Partner Per Stenflo and representatives from a number of like-minded European companies discussed the opportunities for new spray application technologies for the dyeing and finishing sector.

These technologies can achieve tremendous savings for manufacturers compared to traditional water-intensive processes it was explained at the event, held online from October 15-30th.

Pioneer
imogo – one of the latest companies to join TMAS, the Swedish Textile Machinery Association – is one of the key pioneers in this area with its Dye-Max system. Dye-Max spray dyeing technology can slash the use of fresh water, wastewater, energy and chemicals by as much as 90% compared to conventional jet dyeing systems. This is due to the extremely low liquor ratio of 0.3-0.8 litres per kilo of fabric and at the same time, considerably fewer auxiliary chemicals are required to start with.

Obstacles
Such technologies, however, face a number of obstacles to adoption and during the ITA discussion it was agreed that 2020 has not provided the ideal climate for adventurous investors. “The textile industry is quite conservative and is definitely in survival mode at the moment and it is not the time to be a visionary,” said Stenflo. “Day to day business is about staying alive – that’s the reality for many of our customers.” Nevertheless, all of the panellists agreed that sustainable production will remain top of the agenda for the textile industry in the longer term and spray technologies for dyeing and finishing processes will be a part of it.

“Any investment in something new is a risk of course, and we have to be able to explain and convince manufacturers that there’s a good return on investment, not only in respect of sustainability, but in terms of making good business sense,” said Stenflo. “Here we could use the help of the brands of course, in putting pressure on their suppliers to be more sustainable. Governments also have a role to play, in providing incentives for producers to move in the sustainable direction. Sustainability alone will never cut it, there has to be a business case, or it won’t happen.”

Marketing
The marketing of sustainable new fibers is comparatively easy for the brands compared to explaining the difficult textile processes and the chemistries involved in fabric and garment production, he added.

“These fibers, however, currently go through all the same dirty processes that we need to get away from, so it must happen,” he said. “In developing our technologies, it has been important for us to avoid disrupting existing supply chains, stick with using off-the-shelf chemistries and dyes, and involve the dye manufacturers who are an essential part in how operations are driven today. “In fact, collaboration across the entire textile supply chain – from the brands right back to the new technology developers – is essential in moving the sustainability agenda forward.

Business models
“We are also looking into new business models in terms of how to reduce or lower the thresholds for investment and minimise the risk for the manufacturers who are looking to be the innovators,” he concluded. Also taking part in the ITA roundtable discussion were Simon Kew (Alchemie Technology, UK), Christian Schumacher (StepChange Innovations, Germany) Tobias Schurr (Weko, Germany), Rainer Tüxen (RotaSpray, Germany) and Felmke Zijilstra (DyeCoo, Netherlands).

European innovations
“It’s fantastic that all of this innovation is taking place in Europe based on established know-how and forward thinking,” said TMAS Secretary General Therese Premler-Andersson.

“Spray application technologies are a perfect illustration of how new digital technologies can lead to more sustainable production, in this case by replacing water-intensive processes with the highly precise and controlled application of dyes and chemistries as vapour.
“There was a major project by the Swedish research organisation Mistra Future Fashion recently, involving many brand and academic institute partners. The project’s Fiber Bible 1 and 2 reports conclude that it’s very difficult to make assumptions that one fiber is better than another, because it’s so much about how fabrics and garments are being produced from them. The study also found that 55% of the chemicals used in a garment comes from the dyeing. This is where a number of TMAS companies can make a difference.
“An organic or recycled cotton t-shirt is not automatically more sustainable than a conventional cotton t-shirt, or even one made from synthetics – the alternative fibers are a good start but you have to consider the entire life cycle of a garment, and that includes the smart technologies in textiles production.
“TMAS members – backed by Swedish brands and advanced research institutes – are playing an active part in pushing forward new concepts that will work, and I have no doubt that digitalisation now goes hand in hand with sustainability for the textile industry’s future.”          

24.06.2020

VPK Group invests in FlexoCleanerBrush™ from Baldwin Technology

  • New system automatically cleans corrugated printing plates in less than four minutes

Baldwin Technology Company Inc. has announced that corrugated packaging market leader VPK Group has recently installed a FlexoCleanerBrush. This new system—which automatically cleans and dries corrugated printing plates in less than four minutes—has been added to VPK’s advanced 2.1-meter-wide six-color Göpfert Ovation High Board Line flexographic printer at the company’s new high-bay factory in Halden, Norway.

  • New system automatically cleans corrugated printing plates in less than four minutes

Baldwin Technology Company Inc. has announced that corrugated packaging market leader VPK Group has recently installed a FlexoCleanerBrush. This new system—which automatically cleans and dries corrugated printing plates in less than four minutes—has been added to VPK’s advanced 2.1-meter-wide six-color Göpfert Ovation High Board Line flexographic printer at the company’s new high-bay factory in Halden, Norway.

With the FlexoCleanerBrush system, an inline cleaning station installed within each print unit uses a brush that runs the full width of each printing plate. Paired with a precision spray application system, the FlexoCleanerBrush evenly distributes a mixture of approximately five percent detergent and water across the plate as it spins, gently cleaning its surface. The plates are then dried by the integrated air knife. Cleaning cycles can be controlled through the FlexoCleanerBrush’s operator panel or the integrated Göpfert human-machine interface. Besides offering efficient cleaning during runs and fast end-of-job cleaning, the FlexoCleanerBrush system also enables operators to remove dry plates from the machine without the potential risk of plates sticking together once they are placed back in the plate-racking system. This helps to ensure increased board throughput, less downtime and a safer working environment by eliminating operators’ contact with nip points, moving parts and chemicals.

Source:

Baldwin Technology Company Inc.

DyStar: Breakthrough in bulk production of Indigo spray dyeing © DyStar
01.02.2018

DyStar: Breakthrough in bulk production of Indigo spray dyeing

DyStar and RotaSpray successfully developed their indigo spray dyeing procedure for production on a bulk level which allows denim producers to significantly reduce their environmental impact.

The solution was first introduced at ITMA Milan in 2015. Since then, DyStar and RotaSpray have been working together to develop it further and make it available for bulk production in important Denim markets like Turkey, India and Pakistan. With the recent breakthrough, they are now announcing a salt-less dyeing solution for the denim industry. This new technology is awarded important ECO certificates and offers high flexibility for dyeing small lot sizes, reduced water usage and effluent discharge lower impact on yarn in the dyeing process and simplified recipe changes.

DyStar and RotaSpray successfully developed their indigo spray dyeing procedure for production on a bulk level which allows denim producers to significantly reduce their environmental impact.

The solution was first introduced at ITMA Milan in 2015. Since then, DyStar and RotaSpray have been working together to develop it further and make it available for bulk production in important Denim markets like Turkey, India and Pakistan. With the recent breakthrough, they are now announcing a salt-less dyeing solution for the denim industry. This new technology is awarded important ECO certificates and offers high flexibility for dyeing small lot sizes, reduced water usage and effluent discharge lower impact on yarn in the dyeing process and simplified recipe changes.

The new Spray dyeing technology combines DyStar Indigo Vat 40% Solution, Sera® Con C-RDA (a unique organic reducing agent) and the effective optimization of spraying parameters of the EPO patented RotoDyer® and the RotoCoater® spraying technology. Although rotary atomizers have been established for several decades in the textile industry they were mainly used for rewetting textiles with moisture. But recent cost pressure and a global demand for more sustainable solutions were motivators for the R&D of the industry and led to the recent technology leap.

On sheet dyeing ranges (slasher), with process and layout modifications, coatings including DyStar Indigo Coat, Cassulfon®, Remazol®/Levafix® and Imperon® dyes can be applied by spray dyeing as well. The spray application of fixing agents and oxidation chemicals can be integrated into sheet dyeing (slasher) as well as rope dyeing machines.

More information:
DyStar
Source:

DyStar