BOXMEER, Netherlands — July 19, 2016 — SPGPrints launches its new range of NEBULA Acid HD (High Density) inks at Febratex 2016 (Hall 1, Stand 18), 9-12 August, Parque Vila Germanica, Blumenau, Santa Caterina, Brazil. The exhibition also marks the first showing in the Americas of the JAVELIN® digital inkjet printer for companies printing up to two million metres of textiles annually.
High density colour for swimwear and silks
The NEBULA Acid HD inks, which can be used with any printer using Kyocera print heads, are a whole new formulation, developed and produced by SPGPrints, offering increased colour depth and improved runnability. The new ink range is ideal for Polyamide (PA) Lycra swimwear, luxury silk items like fashion scarves and neck ties, and wools.
NEBULA Acid HD inks meet all industry standards for colour and water-fastness, and the specifications for all major swimwear manufacturers. NEBULA Acid HD inks will be available from September 2016, initially in CMYK, orange, red, blue and grey.
Commentating on the launch of the inks, Jos Notermans, commercial manager digital textiles, SPGPrints, said:
“The swimwear industry puts high demands on textile printers with requirements for high performance, enduring bright colours, and complex designs with increasingly fine detail. NEBULA Acid HD inks rise to that challenge, setting a new benchmark for inks for active-wear.”
“These inks are such a major step forward in their chemistry that SPGPrints will be phasing out its current acid ink range. However, we will support customers making the transition, and help them recalibrate their colour profiles to run the new high density inks.”
Introducing the JAVELIN® digital inkjet textile printer to the Americas
Designed for annual production up to two million metres, the JAVELIN printer features the same innovative Archer® print head technology used in the recently launched, high-volume PIKE printer, which won the 2016 EDP1 Award for Best Industrial Textile Solution. PIKE’s nozzle plates are 4mm from the substrate, compared with the more usual 1.5mm nozzle-fabric distance. This means a wider range of substrates can be run, and the chance of print head damage is reduced. Using only six colours, Archer technology enables a wider gamut than the HD-gamut of other digital textile printing solutions.
Fine line details, smooth gradients, blotches and geometrics can be accurately printed thanks to JAVELIN’s variable drop-size capability (2pL – 10pL) in resolutions up to 1200 x 1200dpi. The JAVELIN uses multi-pass scanning action with an array of Fujifilm Dimatix Samba print heads to cover the 1850mm width with sharp image production.
JAVELIN is ideal for companies wanting to take the first step into digital textile printing, or with a need to supplement their existing capabilities. JAVELIN complements SPGPrints’ PIKE digital printer that is capable of printing up to 13 million metres per year. Its fixed array printing bar contains 43 print heads for single-pass printing in a width of 1850mm.
“The launch of the JAVELIN printer provides another powerful tool for companies operating in this highly competitive market. With the colour range and print quality combined with digital’s fast-turnaround, fast time-to-market, this technology delivers what brand-owners want and what textile printers need for a competitive edge,” Notermans concludes.
The fifth edition of the combined ITMA Asia + CITME show moves to a new venue.
TW Special Report
The new National Exhibition and Convention Centre (NECC) in Shanghai will host ITMA Asia + CITME for the first time. Photo courtesy of chinaexhibition.com
ITMA Asia + CITME returns to Shanghai October 21-25, 2016, at a new location – the National Exhibition and Convention Centre (NECC). Despite some controversy within the industry about the show’s decision to run on a biennial schedule rather than the expected four-year cycle, and therefore coming on the heels of a successful ITMA 2015 in Milan, Italy, the show is shaping up to be a well-attended event. As of TW’s press time, organizers reported approximately 1,600 exhibitors from more than 27 economies are expected to participate in October. At the close of space applications for exhibitors, more than 90 percent of the 180,000 square meters (m2) of exhibition space had been sold. In addition, organizers hope to attract more than 100,000 trade show visitors from around the globe.
The combined show is owned by the European Textile Machinery Manufacturers Association (CEMATEX), and its China-based partners the Sub-Council of Textile Industry, CCPIT (CCPIT-Tex); China Textile Machinery Association (CTMA); and China Exhibition Centre Group Corp. (CIEC). The event is organized by the Beijing Textile Machinery International Exhibition Co. and co-organized by MP Expositions Pte. Ltd. In addition, the Japan Textile Machinery Association (JTMA) is a special partner of the show.
“The high level of interest from exhibitors has reaffirmed ITMA ASIA + CITME as the leading marketing platform for textile machinery manufacturers seeking to tap the China market,” said Charles Beauduin, president, CEMATEX. “We are pleased to provide them with a recognized platform for their strategic promotion and will ensure that the combined show continues to be a relevant and effective platform for sellers and buyers to transact business and to take advantage of the vast potential that China offers.”
Exhibitor Make Up, Organization
More than 65-percent of the total exhibition space was reserved by Chinese exhibitors. Other countries that will be well-represented according to the organizers are Germany, Italy, Japan, Switzerland and Taiwan.
“We have seen a greater number of Chinese manufacturers signing up to exhibit at the combined show this year,” said Gu Ping, vice president, CTMA. “Interestingly, nearly 30 percent of the applicants are first-time applicants,” Gu added.
Exhibits will be organized by sectors that are based on manufacturing processes to aid visitors to find the machinery and other products they are seeking. Spinning machinery represents the largest sector, followed by finishing, knitting and weaving. Organizers report the nonwovens sector has grown by 20 percent since the show in 2014.
Organizers also promise that there will be stringent controls in place to protect intellectual property.
New Venue
The new facility, situated in the Hongqiao business district, offers easy accessibility and state-of-the-art amenities. This national center was co-built by the Ministry of Commerce of China and the Shanghai Municipal Government, and is operated by the Shanghai Exhibition Co. Ltd. The venue features 16 halls totaling 500,000 m2 of exhibition space — 400,000 m2 of which is indoor space, and 100,000 m2 comprised of outdoor display areas — a commercial center, office buildings and a hotel. The four facilities are linked by an 8-meter-high elevated pedestrian walkway.
Continuing Development In China
China’s 13th Five-Year Plan (2016-2020) continues to encourage infrastructure construction, accelerates urbanization and is increasing environmental awareness in China. It is likely there will be high demand for technical textiles and nonwovens in China over the coming years.
“As China’s textile industry continues its transformation, the demand for advanced machinery and technology is on the rise,” said CTMA’s Gu. “For textile manufacturers to keep ahead of the industry, they need to readjust their strategy to enhance overall production efficiency. They should adopt a longer-term outlook to focus on the quality of their products, which will ultimately contribute to their company’s bottom line. This will lead to a demand for new machinery and technology to modernize and upgrade their existing textile equipment,” Gu added.
According to CTMA, there were a total of 15,235 projects completed in 2015, which amounted to an investment of 1.09 trillion yuan.
“In view of these positive trends, which will spawn demand for better technologies, and the resounding success of the 2014 combined show, we are confident that participation in the upcoming show will be outstanding,” Gu said.
Each day, the show floor will be open from 9 a.m. until 6 p.m. Visitors currently can receive a pass discount of 40 percent when registering online. Registration online will close October 18, after which time visitors may purchase passes on site during ITMA Asia + CITME.
For more information about ITMA Asia + CITME 2016, visit itmaasia.com.
TORONTO — July 18, 2016 — Marilyn Tam, former senior executive of Reebok and Nike, top leadership speaker, entrepreneur and co-author of the just-released book, Soul Over Matter, is on a mission to ensure today’s global business world is armed with the information it needs to continue to make good, socially responsible choices and avoid a repeat of past mistakes. Her rise to the top of the apparel sourcing industry was meteoric, but she will never forget her humble beginnings as a child labourer in Hong Kong, making plastic flowers and embroidering needlepoint handbags.
Tam will share her experiences and trade secrets as keynote at the upcoming Apparel Textile Sourcing Canada (ATSC) show – making its debut in Toronto, August 22-24 at the International Centre. She will be one of dozens of leading acclaimed international and Canadian industry and government experts over the three days of conference sessions who will provide visitors with valuable insights and up-to-date information needed to more easily and effectively navigate through the sourcing process, including merchandising, marketing, e-commerce, compliance and trade agreements.
ATSC is a first-of-its-kind event for Canada, bringing together hundreds of apparel and textile manufacturers from around the world, including China, India, Bangladesh, Mexico, the U.S., Honduras, Peru, Japan, Taiwan and other countries. Delivering an unprecedented platform for making global industry connections, the event will feature 200 international exhibits showcasing a wide variety of merchandise, from everyday apparel, professional clothing and leisure wear, to carpets, linens and towels, to fashion accessories, hats and socks. A unique matchmaking service for apparel and textile buyers and sellers will also be provided by leading business trade platformsTopTenWholesale.com and Manufacturer.com.
In her keynote (Tuesday, August 23, at 10:30 a.m.), Tam will send a strong reminder that child labour, sub-standard wages and deplorable working conditions still exist in some places and that those responsible for global sourcing need ask the right questions of suppliers to protect both their corporate reputation and bottom line. Drawing on her own experiences helping to establish and reform labour laws, as well as taking the initiative to demand positive changes in industry standards for apparel factories while at the helm of Reebok, Tam will share important lessons learned throughout her remarkable career.
“Many people hear the word ‘ethical’ but they don’t really know what that means,” Tam said. “How are suppliers disposing of waste? Do they sub-contract? These are questions we need to be investigating. We need to band together as retailers, manufacturers and suppliers to make sure our industry is above board and doing things that really serve the greater good.”
Additional ATSC conference highlights include:
Monday, August 22, 8:00 a.m. – An expert panel moderated by Canadian Apparel Federation Executive Director Bob Kirke will examine world trends in responsible sourcing, including what to look for when choosing a destination to source from. It will feature two of the top executives from the foremost accredited organizations responsible for researching and certifying apparel and textile products around the world: Clay E. Hickston, Vice President of Strategy and Business Development for WRAP and Marc Sidler, Head of Marketing & Sales for TESTEX.
Tuesday, August 23, 8:00 a.m. – A look at why it pays to be a member of Canada’s Least Developed Countries Program and how those benefits directly affect the Canadian apparel buyer.
Tuesday, August 23, 10:00 a.m. – Avedis H. Seferian, President and CEO of Worldwide Responsible Accredited Production (WRAP) will provide insights into responsible sourcing, including tips to ensure social compliance is “baked into” a company’s normal course of doing business and not an after-thought.
Tuesday, August 23, 11:30 a.m. – The demands of today’s consumers have changed. Jeff Streader, former Global COO of Billabong and Executive Consultant for American Apparel, Board Member of Worldwide Responsible Accredited Production (WRAP) and lecturer at the Fashion Institute of Design & Merchandising (FIDM) in Los Angeles, will illustrate how social media is changing consumer buyer habits and what that means for apparel manufacturers and retailers.
Tuesday, August 23, 1:30 p.m. – An inside look at the benefits of the North American Free Trade Agreement (NAFTA) and why Canadian business should better utilize imports, presented by Rodrigo Contreras, Trade and Investment Commissioner of Mexico.
Wednesday, August 24, 8:00 a.m. – A must-attend session for manufacturers planning to enter the U.S. market. Trish Concannon, Executive Director, Fashion Business Inc., outlines the factors to consider in selecting the right distribution channel and establishing final selling price.
Wednesday, August 24, 9:30 a.m. – The fashion industry is undergoing one its biggest transformations in decades as retailers respond to the growing “see it now, want to wear it now” mindset of consumers. This session, presented by NGC Software’s Mark Burstein, will examine the secrets behind Zara’s amazing performance, and how the retailer benefits from lead time optimization.
Presented by JP Communications, parent-company to TopTenWholesale.com and Manufacturer.com, ATSC is supported by the Ottawa-based Canadian Apparel Federation (CAF), the Consulate General of the P. R. China in Toronto, the Trade Office of Peru, and exporting agencies ProMexico and ProColombia.
Researchers at Fiber Innovation Technology and MMT Textiles engineered a fiber that can curl and uncurl reversibly in response to humidity in the environment.
By Jeff Dugan
In recent years, there has been increasing use of the biomimesis concept in product design, and textile products are among the best-known examples of where this concept is employed. Biomimesis is simply the adaptation of solutions found in nature to solve related problems in the design of man-made products.
Perhaps the best-known example is the hook-and-loop fastener technology popularized by Velcro®-brand products. The hook-and-loop fastener mimics the barbed bristles of certain seed pods that are so adept at hitching a ride on the fur of a passing animal or the pants legs of humans hiking through the brush. Speedo’s LZR swimsuits, made famous in Beijing during the Olympics, seek to mimic the micro-roughness of a shark’s skin to reduce drag. More recently, nanotechnology fabric coatings have mimicked the surface morphology of the lotus leaf, giving rise to the “lotus effect” water-repellence and self-cleaning abilities. And yet to come are potential adhesive surfaces designed to mimic the toes of a gecko, which can climb vertical surfaces because of the fine surface features of its toes.
Pinecone Effect
The natural phenomenon mimicked by Inotek™ products — a fiber and fabric concept conceived by Dr. Veronica Kapsali, technical director of London-based MMT Textiles Ltd.; with fibers developed by Johnson City, Tenn.-based Fiber Innovation Technology Inc. (FIT) — is known as the “pinecone effect” (See Figure 1). In nature, pinecone scales hold the seeds tightly within the folds when the environment is humid. But in dry air, a part of the scale shrinks, causing the scales to open up and release the seeds. Probably not coincidentally, it turns out that dry conditions are more beneficial to pine seed scattering than wet conditions.
Figure 1
Similarly, fabrics featuring Inotek fibers are engineered to spontaneously and reversibly change their structure depending on the humidity in their immediate environment. At low humidity, there is no need for accelerated vapor transport, and thermal insulation is desirable. Under these conditions, the pores between yarns in the Inotek fabric are conventionally sized, comparable to standard knit or woven fabrics. If the wearer begins to sweat though, even in the early stages before sweat becomes noticeable, the humidity in the fabric increases. As humidity increases, Inotek yarns spontaneously contract, providing larger openings between the yarns and facilitating increased vapor transport through the fabric (See Figure 6). Thus, the body’s natural evaporative cooling is facilitated, rather than frustrated, by the garment.
Figure 6 Images provided by MMT Textiles Ltd.
The fabric’s adaptability is enabled by the structure of the fiber from which the yarns are made. It is a bicomponent fiber with an eccentric sheath/core cross-section, which causes the fiber to reversibly curl and uncurl in response to humidity.
Sheath/Core Fibers
Eccentric sheath/core fibers have been used for some time in applications that use heat to cause the fibers to curl. A conventional concentric sheath/core fiber will shrink if heated above the polymer’s glass-transition temperature. The two polymers have different natural shrinkage rates, but the polymer with the higher shrinkage will only shrink as much as is allowed by the lower-shrinkage polymer because the fiber cross-section is concentric, and the higher-shrinking polymer cannot compress the lower-shrinking polymer.
But in an eccentric sheath/core configuration, the force generated by the higher-shrinking polymer is not equally balanced by the lower-shrinking polymer, so the forces are resolved by the curling of the fiber into a helical shape. This functionality is useful in a number of applications, but it is not a reversible process. That is, once heat is applied and the fiber curls into a helix, a subsequent return to lower temperatures does not cause the fiber to uncurl.
Unlike these thermally-curled fibers, the Inotek fiber responds to humidity rather than temperature, and its curling is reversible, repeatedly curling as humidity increases and uncurling as it decreases. Spun into a yarn, the curling action causes the yarn to contract to a smaller diameter, which opens larger pores between the yarns in a fabric.
In the thermally curled example, the curl comes from differences in shrinkage between the two polymers. In the Inotek fibers, curl results from a difference in swelling caused by differences in moisture uptake — commonly known as regain. The fiber’s core is polypropylene (PP), which has virtually no moisture regain even under high humidity conditions. The sheath is made using nylon 6, which has a moisture regain that is dependent on humidity, with a maximum of 4.5 percent by weight at a relative humidity of 98 percent. As the nylon absorbs water, the polymer expands. Only a relatively small expansion, in absolute terms, produces the stresses necessary to cause the fiber to curl.
Fiber-Development Process
The tighter the curl in the fiber, the greater the observed effect in the fabric. Therefore, during the fiber’s development a good deal of effort focused on how to optimize the amount of curl that the fiber would produce.
Figure 2
The degree of curl is most strongly influenced by the distance separating the centers of mass of the two polymers (See Figure 2). So the highest degree of curl is produced not by an eccentric sheath/core cross-section, but by a side-by-side cross-section. However, a side-by-side cross-section was not an option for the Inotek fiber because in the side-by-side cross-section, the two polymers have only the adhesion between the two polymers at their interface to maintain their unity as a single fiber, which is required to achieve curling. Unfortunately, nylon and PP do not adhere well, and the stresses resulting from the swelling of the nylon are sufficient to split the two polymers into separate fibers, thereby destroying the forces that produce the curl. Beyond destroying the curl, if the two components separate prior to carding and yarn spinning, it also may not be possible to efficiently convert the fiber into a yarn.
So while a sheath/core fiber cannot achieve as great a distance between the two components’ centers of mass, it does offer the advantage of physically encapsulating the PP within the nylon, thereby preventing fatal delamination. Then within the constraints of the sheath/core cross-section the next design consideration was how to maximize the degree of eccentricity. Pushing the core too far to one side of the cross-section however risked breaching the outer wall of the sheath at its thinnest point, giving rise again to delamination of the sheath from the core. FIT researchers needed to find a way to push the core as far off-center as possible, without creating a section of sheath so thin that eruption of the core from the sheath was favored.
Examining the fiber cross-section after extrusion, it was possible with some cross-sections to observe fibers with a vanishingly thin sheath section, or even a minor breach of the sheath by the core that nevertheless appeared to be fully unitary with little incidence of delamination. But there is a good deal of physical agitation downstream from extrusion including mechanical crimping, carding, yarn spinning, knitting or weaving, and even laundering and repeated curling and uncurling in the garment. These forces exacerbate the tendency toward delamination, if the “retaining wall” of the thinnest part of the sheath is too thin.
In seeking to optimize the cross-section, the first option FIT explored was, of course, the easiest — it made fibers with smaller cores. While the center of the core remains in place, and its separation from the center of the sheath is maintained, the reduced diameter means that the thickness of the retaining wall is increased. However, testing revealed that the curling performance of these fibers was reduced. FIT researchers continued to work to find a way to keep the retaining wall in place, while maximizing the separation of the polymers’ centers of mass without reducing the total mass of the core. This structure required some highly challenging modifications to the shape of the PP core.
Fortunately, FIT has an exceptional capability to achieve very subtle and precise changes in bicomponent cross-sections, and the company was able to improve both the curling performance of the fiber and its resistance to delamination.
Figure 3
Employing precise control of the cross-section, FIT evaluated fibers with an elliptical core (See Figure 3). Converting the core’s cross-section from a circle to an ellipse offers a way to move more of the mass of the core farther from the fiber’s center without breaching the sheath. In this evaluation, though, the company discovered that while an elliptical core was an improvement over a circular one, nevertheless there still were a couple of points at which the outer edge of the ellipse did not conform well enough to the circular outer edge of the fiber resulting in “pinch points” where the sheath was dangerously thin.
Figure 4
FIT sought to overcome these pinch points with a nominally D-shaped core, with a nominally circular outer edge (See Figure 4). This configuration did a good job of maintaining a sheath of constant thickness along its thinnest section. The core in this fiber had an opposite edge that was nominally flat, which maximized the separation of the centers of mass of the polymers. However, the relatively sharp corners where the shape transitioned from circular to straight resulted in tear points where abrasive forces could concentrate and cause breaches in the sheath at those points.
Figure 5
Finally, FIT made a small compromise with regard to the separation of the centers of mass, by rounding out the corners and relatively flat edge of the D-shaped core. The result was a core with an outer edge that is circular, but which curves gently away to transition to an elliptical inner edge. This shape could be called a “D-liptical” cross-section (See Figure 5). This cross-section produces a high degree of reversible curl that is a function of humidity, and survives downstream processing without delamination problems.
Figure 7 Air permeability data courtesy of MMT Textiles Ltd.
Fabrics made from these fibers exhibit adaptive breathability, with significant changes in open pore area and corresponding changes in fabric air permeability as a function of humidity.
Editor’s Note: Jeff Dugan is vice president of research at Johnson City, Tenn.-based Fiber Innovation Technology (FIT). This article is based on Dugan’s presentation given at the 2015 Textile World Innovation Forum.
South Korea-based Hyosung Corp. recently launched creora® Fresh, an odor-neutralizing version of its spandex fiber. “In response to the continued growth of sports underwear, we have developed creora Fresh using our proprietary ingredient technology to chemically bond to substances that cause body odor and to neutralize them,” said CH Kim, president, Hyosung. “creora Fresh has been demonstrated with nylon and polyester fibers to last longer than traditional antimicrobial finishes.”
“Globally sports participation is on the rise as consumers continue to be concerned about wellness,” said Ria Stern, textiles global marketing director, Hyosung. “As a result, we see growth in demand for sports bras and underwear . … We also have developed this odor neutralizing technology in freshgear® polyester and MIPAN freshgear nylon.”
Stony Brook, N.Y.-based Applied DNA Sciences Inc. (ADNAS) has introduced its DNA-based SigNature® T DNA technology to the man-made fiber market after partnering with Kingstree, S.C.-based Palmetto Synthetics and Techmer PM, Clinton, Tenn. SigNature T DNA molecular tags were attached to Techmer PM polyester (PET) formulations. The custom-made, tagged material was then sent to Palmetto to be spun into polyester fiber, which was converted into fabrics for commercial and industrial applications. The initial collaboration produced 5 million pounds of tagged PET fiber, a quantity that will be scaled up to many millions of pounds over the next year, according to the companies.
“We have been a change agent for the cotton fiber market, by bringing certainty to a complex supply chain,” said Dr. James Hayward, president and CEO, ADNAS. “With our entry into synthetic fibers, Applied DNA Sciences is entering a market that is more than three-times larger than cotton, and is the basis of 60 percent of the global textile industry.”
“SigNature T DNA ensures traceability and transparency at every stage of the supply chain, with performance and strength delivered consistently,” said David Poston, President, Palmetto Synthetics.
“We are honored to be working with ADNAS and Techmer, and excited about the many benefits this partnership will bring to consumers and manufacturers.”
Atlanta-based industrial fiber distributor Hamilton International Group has acquired Martinsville, Va.-based TSI Yarns, formerly known as Texturing Services Inc.
“TSI can produce 450,000 pounds of textured yarns per week at its modern, ISO 9001 certified, Martinsville facility,” said Art Hamilton, CEO, Hamilton International. “Access to raw materials available through other Hamilton businesses expands the range of solutions that TSI Yarns can provide to its customers.”
“The investment and enthusiasm that comes from being part of an organization committed to growth and American manufacturing gives TSI Yarns a unique opportunity to expand our products and services solutions,” said Ken Carder, general manager and CFO, TSI Yarns.
Charlotte-based Custom Synthetic Fibers LLC — owned by a group of investors including the majority owners of Charlotte-based Custom Polymers Inc. and Athens, Ala.-based Custom Polymers PET LLC — will open an 80,000-square-foot recycled polyester fiber plant mid-summer 2016. Initially, the plant will produce 40 million pounds of recycled polyester staple fiber per year, with the ability to expand in the future to produce an additional 80 million pounds each year. Custom Synthetic Fibers will hire up to 50 people to staff the facility, which will be led by CEO Joseph Ku.
End products for the recycled fiber include automotive, home furnishings, industrial, apparel and consumer goods.
“We are extremely excited to announce the impending operational start-up of Custom Synthetic Fibers,” said Ku. “Our plant will produce high quality recycled polyester fiber by incorporating recycled polyester raw materials in an environmentally friendly and cost effective manner. Our state-of-the-art technology will enable our customers to benefit from fiber in various denier sizes to meet their stringent quality and consistency requirements.”
Trion, Ga.-based Mount Vernon FR has added Arapaho R, Hopi N2X and Navajo N2X fabrics to its Resilience® line of flame resistant fabrics. Engineered to offer increased abrasion resistance, the fabrics meet all industry standards including NFPA 70E, NFPA 2112 and ASTM F-1506. Arapaho R is a 7.5-ounce cotton/nylon/Kevlar® blend; and 8.5-ounce Hopi N2X and 9.5-ounce Navajo N2X fabrics feature cotton blended with 25-percent high-tenacity nylon.
“Our survey of 400 environmental, health and safety (EHS) professionals found that the greatest challenge they experience is the need for more durable flame resistant clothing,” said Mike Woods, vice president of FR fabrics for Mount Vernon FR.
To support the needs and demands of local markets and customers, Denver-based Johns Manville (JM) plans to significantly enhance a glass fiber nonwovens line at its facility in Wertheim, Germany. The upgraded line is expected to be online by the end of 2017. During the construction phase, JM assures customers it will work to provide a reliable supply of product.
“This investment clearly shows the strong commitment our U.S.-based parent company has to the Wertheim plant,” said Heinrich Bein, managing director, JM’s Germany-based glass plants. “I am proud of the JM employees who have worked hard to make this development possible, and I am proud of the way they support our Made in Germany manufacturing process on a daily basis.”
“Johns Manville has decades of experience in the development and production of glass fiber nonwovens,” said Martin Kleinebrecht, leader of marketing and portfolio management for Nonwovens in Europe and Asia, JM. “This line enhancement will help us to further expand our market position.”
