The flexographic printing press will allow the Swiss company to further strengthen its leadership position in the highly competitive Swiss market

Comexi, a global supplier of solutions for the flexible packaging printing and converting sector, and Geissmann Papier AG, a Swiss company that specializes in the production of flexible packaging, have strengthened their strategic alliance with the acquisition by the Swiss company of a Comexi F2 MP. This central drum flexographic press machine, to be installed at the Dottikon headquarters in early 2022, will allow Geissmann Papier AG to further strengthen its leading position in the highly demanding Swiss market.

“We are very pleased to have Geissmann as a strategic loyal customer for many years,” explains Ramon Jonama, the Comexi Area Manager of this region, who highlights that the F2 MP flexographic press is the third Comexi machine acquired by the Swiss company. Jonama emphasizes that “once again we are able to offer Geissmann the highest quality and technology, as well as impeccable service.” The 10-color F2 MP press achieves these objectives through great mechanical robustness, the most precise electronics and automation at the highest level. Consequently, it is of no importance the difficulty level of print orders; the maximum quality and productivity will be achieved repeatedly. In reference to long runs, the machine effortlessly prints at 500 m/min. Simultaneously, due to the built-in automation, job changeover and set-up are rapidly performed, which greatly increases productivity when runs are short.

Geissmann also benefits from the latest advances in service and spare parts. Comexi has invested a great deal, and constantly integrates the best human team, advanced diagnostic
systems, as well as an exhaustive stock of spare parts that allows all the strategic parts and components ready to ship, etc. As a result, any problem, irregardless of size, is resolved in record time, and all Comexi machines, those installed many years ago as well as recently, unfailingly operate without interruption. Furthermore, production control and traceability are fully implemented.

Founded in 1942 as a family business, Geissmann Papier AG is currently managed by the third generation, with Daniel Geissman as the executive director; the company employs approximately 60 people. In the beginning, primarily mono films and carrier bags were produced. Throughcompany growth as well as high machinery investments, innovation, and new market orientation, Geissmann Papier AG presently produces, for many years, a variety of high-quality papers, films, and complexes. These products are supplied in the form of reels and bags for the flexible packaging industry, primarily food, from a wide range of raw materials.

“We have invested in this flexographic press because we know Comexi’s excellent technology. This press machine has evident synergies with our other Comexi machines, both printing and laminating,” says Daniel Geissmann.

The Comexi F2 MP has been designed to meet long run printing needs of the flexible packaging sector. The F2 MP is the origin and basis of the F2 family, and so it features every ergonomic and robust solution of the F2 family. It incorporates every GeniusTech solution that assists printers to conquer the main challenges they currently face, which include a lack of skilled operators, a job length reduction, and an increased number of job changes, among others.

Between all GeniusTech solutions, maximum importance has been given to all these that focus in providing the highest printing quality at high speed, like the GeniusRun which eliminates the bouncing, the GeniusDry for the maximum drying performances at high speed, and GeniusDoctoring for a trouble-free ink transfer.

Sustainability has also been taken into account in the design of the Comexi F2 MP, so along with the different energy efficiency solutions we can find a dedicated version for Water Base inks, or a hybrid machine for Water Base, Electron Beam or Solvent Base inks

Toyochem Co., Ltd., the polymers and coatings arm of Japan’s Toyo Ink Group, today launched a new low-odor, low-VOC acrylic pressure-sensitive adhesive (PSA), the Oribain™ EXK 21-046, for use in enclosed spaces such as vehicles and building interiors. EXK 21-046 PSAs not only demonstrate good bonds to metals, plastics, textiles and other substrates, but they are also are capable of reducing total volatile organic compounds (T-VOCs), or the indoor air concentration of a mixture of multiple VOCs, to levels less than one-tenth of that of conventional products. The new low-VOC acrylic PSAs also effectively reduce odor levels, resulting in the increased health and comfort of indoor occupants.

The demand for low-impact interior materials has become a global trend as VOC emission regulations tighten worldwide due to growing public and industry awareness of the importance of indoor air quality. VOCs are suspected to be one of the major causes of sick building syndrome and sensory irritation, so building interior materials made from low VOC-emitting materials are being used where possible. In addition, the rise in electric vehicles and automated driving technology is expected to drive the demand for low-odor, low-VOC materials used in automobile interiors.

“While our conventional PSAs clear the indoor VOC concentration guidelines set by the Japanese government, the newly developed EXK 21-046 system were able to dramatically reduce trace amounts of T-VOCs that remain in standard-type products and to improve air quality,” explains Nao Nakamura, general manager of Toyochem’s adhesives division. “Toyochem research teams achieved this by developing a material that is not easily retained in the adhesive system and by applying our original polymerization and compounding technologies to better control viscoelasticity of the adhesive material. This results in a substantial reduction in T-VOC concentrations and lower odor intensity without compromising adhesive performance – a feat that had once been difficult to achieve. We believe the new EXK 21-046 PSA will help to realize indoor living spaces that are healthier for their occupants and for the Earth.”

As depicted in Figure 1, the EXK 21-046 PSA achieves T-VOC emissions rates of 18 µgC/g, substantially down from 310 µgC/g registered by Toyochem’s conventional PSAs. Moreover, the new PSA system realizes a 3.5 grade (clearly noticeable, but still not objectionable) on a 6-grade odor intensity scale, a reduction of 1.5 points from the typical 5 grade (very objectionable) recorded by the company’s standard-type products.

BB Engineering GmbH (Germany), a subsidiary of Oerlikon Textile, is pleased to announce that Thai Polyester Co., Ltd (Thailand) has placed a major order for four VacuFil systems for recycling bottle flakes with connected direct spinning. The polyester manufacturer, established in 2001 and with an overall annual capacity of 316,800 tons, is one of Thailand’s leading producers and exclusively uses German technology. To this end, the company already operates Oerlikon Barmag and Oerlikon Neumag systems. The BB Engineering VacuFil systems will be deployed to convert existing spinning plant equipment from processing polyester to processing PET bottle flakes without loss of performance.

BB Engineering supplies the complete recycling process – from the drying stage and extrusion, all the way through to the spinning plant-appropriate fine filtration stage. Thanks to decades of experi- ence in spinning plant technology, the German machine constructor also provides comprehensive spinning plant know-how and is aware of how the recycling process must be designed to ensure that the product manufactured using the spinning plant ultimately has the right quality. The four new VacuFil systems will be integrated into the existing building infrastructure and process landscape at Thai Polyester, with a total output of approx. 4,000 kg/h. The VacuFil systems will be complemented by BB Engineering 3DD mixers for directly feeding dyes into the recycled melt flow. Commissioning has been scheduled for 2023.

Thai Polyester will be using the new VacuFil systems to manufacture its ‘EcoTPC’ recycling-brand yarns. 100% of these polyester yarns are produced from bottle, fiber and yarn waste and are all GRS certified.

The Brazilian company, with 27 years of experience in the sector, chooses the Comexi flexographic press for its production quality and development

Girona, March 24, 2022.- Comexi, a specialist in solutions for the flexible packaging printing and converting industry, and Bomplastic, a company that specializes in practical and innovative solutions for the flexible packaging sector, have reached an agreement for the Brazilian company to acquire a Comexi F2 MB flexographic press. This acquisition will allow Bomplastic to offer more diversified and innovative products, thus meeting the needs of various market niches.

“We are very pleased with the acquisition of a Comexi F2 MB”, explains César Mangaravite, manager of Bomplastic, who highlights that “we are among the leading Brazilian companies in the packaging sector, and this flexographic press will allow us to enter new markets”. In this regard, Mangaravite adds that the Comexi F2 MB will contribute to the development of the company, which invariabily pursues continuous improvement, as well as innovative and distinctive technologies. “We are going to generate more employment opportunities in the region”, concludes the manager of the Brazilian company.

The quality of production and development are the two main principal characteristics that have made Bomplastic choose the Comexi F2 MB; the Brazilian company will use the flexographic press to print packaging of high-quality and high-definition. Mangaravite highly and positively values the relationship between the two companies. Furthermore, he expresses that Bomplastic is interested in acquiring more Comexi machinery in the future, thus reinforcing the new partnership between the two companies.

“At Comexi Brazil we are very delighted with this new business relationship; we are certain that the acquisition of an F2 MB press by Bomplastic will be successful. This is the first step of many”, explains Ariston Galli, the commercial manager of Comexi Brazil.

Bomplastic, founded in 1994 in the city of Bom Jesus do Itabapoana (Rio de Janeiro), has 27 years of experience in the development, manufacturing, and production of plastic containers. The company prints high-performance technical films, polyethylene and polypropylene containers, laminates, 3-barrier protected coextruded materials, food containers, and a variety of bags. “We produce 350 tons per month as a result of our investment in state-of-the-art machinery,” says the company’s manager. Bomplastic has a strategic position in Brazil, as it is located on the border between the states of Rio de Janeiro and Espírito Santo. Furthermore, the company is a few kilometers from the border with the state of Minas Gerais.

The Comexi F2 MB press is an advanced machine designed to satisfy the print needs of medium runs in the flexible packaging sector of the retail and wholesale channel. This flexographic press shares the patented FLEXOEfficiency concepts of ergonomics and accessibility, as well as the level of performance and robustness with the rest of the Comexi F2 range. This is all integrated with a simplified drying system design. Without a doubt, the Comexi F2 MB is a highly productive and performing machine.

• Graphene nanotubes ensure compliance with international ESD safety standards for personal protective equipment at automotive, electronics, and ATEX facilities.
• Nanotubes outperform competing anti-static solutions in all elements of uninterrupted grounding chain of industrial wear, including gloves, clothing, and footwear.
• Ultra-low dosage of nanotubes provides stable anti-static properties and makes it possible to maintain standard material processing and final product color flexibility.

Automotive, electronics manufacturing, oil and gas, chemical, medical, even flour-milling facilities—all require the use of personal protective equipment (PPE) with anti-static properties. Beyond protection of workers from ignition risk, the use of anti-static clothing prevents the failure of static-sensitive devices that can lead to large financial losses. Further growth of the PPE market is driven by new safety regulations aimed at keeping pace with the increasing automation of industrial facilities.

Graphene nanotubes, applied as an advanced conductive material, are being rapidly adopted by the growing PPE market. The world’s largest graphene nanotube manufacturer OCSiAl has developed a multitude of solutions for protective wear applications, from safety suits shielding the body from extreme temperatures and flames to anti-static shoes and clean room gloves.

Thanks to their high strength, electrical conductivity, and flexibility, the working dosage of graphene nanotubes is 10-40 times lower than that of other solutions. A content of just 0.05-0.06% graphene nanotubes makes it possible to produce anti-static latex gloves with electrical resistance of 10^7 Ω. In contrast to ammonium salts, which are easily evaporated, nanotubes grant permanent and humidity-independent resistance in full compliance with the new European standard EN 16350:2014 and ATEX regulations. The anti-static properties of these gloves also allow for smooth operation of touchscreens without the gloves having to be removed to ensure worker and product protection.

Besides all types of latexes, graphene nanotubes are being applied in the silicone, fluoroelastomer, and PVC plastisol-based textile coatings used for workers’ ESD protection against aggressive fuels, chemicals, hot temperatures, and sparks to ensure they match the global standards for protective wear. One remarkable example is fireproof and anti-static clothing designed for protection against sparks, splashes of molten metal, high temperatures, and risk of sudden electrostatic discharge. In this application, anti-static metal yarn has been replaced with graphene nanotubes, giving anti-static properties to the fabrics at the fluoroorganic treatment stage. Nanotube technology has proven effective after 15 washes, demonstrating uniform anti-static protection throughout the product, with electrical resistance of 10^7 Ω.

To ensure proper grounding, polyurethane elastomer with graphene nanotubes is used in the outsole and midsole of footwear, enabling anti-static shoes to be used in various static-sensitive facilities in the chemistry, oil and gas, electronics, and mining industries.

The use of graphene nanotubes grants a unique combination of permanent anti-static properties with original production processing and color saturation of the product—a combination that is difficult to achieve with other conductive solutions. A tiny dosage of nanotubes facilitates the creation of safer, longer lasting, colorful clothing and contributes to the global sustainable consumption approach thanks to the use of less raw materials to obtain better performing products.

Learn more on graphene nanotubes at tuball.com.