International technology Group Andritz will be presenting its innovative nonwovens production and textile solutions at Techtextil Russia 2021 in Moscow, Russia, from September 14–16, 2021 (hall 7.2 at Textima booth 72B10).
The broad Andritz product portfolio covers state-of-the-art nonwovens and textile production technologies such as air-through bonding, needlepunch, spunlace, spunbond, wetlaid/WetlaceTM, converting, textile finishing, airlay, recycling, and natural fiber processing.
Recycling technologies by Andritz
Recently, Andritz acquired Laroche SAS, a leading supplier of fiber processing technologies such as opening, blending, and dosing, airlay web forming, textile waste recycling, and decortication of bast fibers. The product portfolio further complements and enlarges the ANDRITZ Nonwoven product range. One focus of this product range lies on complete recycling lines for post-consumer and industrial textile waste to produce fibers for re-spinning and/or nonwoven end uses. Customer awareness and regulations are pushing apparel brands to recycle their waste in their own products. Recycled fibers can also be used in the nonwovens industry for various applications such as automotive, insulation, mattresses, and furniture felts. To support Andritz customers, a process know-how team is at customers’ disposal to conduct customized trials in our advanced technical centre located at the Andritz Laroche facilities.
Needle punched nonwovens made with Andritz Technology – versatile and sustainable quality
Among the largest end-use markets for nonwoven products are materials for durable uses. Interior linings for cars, materials for construction, geotextiles, synthetic leathers for clothing and furniture, carpeting, filtration, and many other industries rely on the use of nonwovens produced using the needlepunch method.
Andritz needlepunch technology provides customers with a full range of solutions. For needlepunch materials, the AndritzProWinTM web control system optimizes web distribution, uniformity, profile, and structure. The ProWin system is a smart combination of the Andritz weight profiling control technologies – ProDynTM and ProWidTM – used to gain the most advantages from both technologies in terms of fiber weight profiling on delivery to the crosslapper.
Production of bio-wipes using various Andritz Technologies
Andritz Nonwoven’s processes play a pioneering role in the production of biodegradable materials. For many years, Andritz has offered different processes, like spunlace, WetlaceTM and WetlaceTM CP, all with one goal in mind: elimination and reduction of plastic components while maintaining the high quality of the desired product properties. Such processes achieve high performance entirely with plastic-free raw materials. The added benefit of using a blend of fibers, like wood pulp, short-cut cellulosic fibers, viscose, cotton, hemp, bamboo or linen, without chemical additives results in a 100% sustainable fabric, thus meeting customers’ needs exactly as well as supporting the strong tendency to move away from plastics and synthetics.
The latest development in this field is the ANDRITZ neXlinewetlace CP line. This process combines the benefits of two forming technologies (inline drylaid and wetlaid web forming process) with bonding by hydroentanglement. Natural fibers, like pulp or viscose, can be processed smoothly and generate a high-performance and cost-efficient wipe that is fully biodegradable and plastic-free.
The next generation in textile calendaring
The AndritzteXcalRaconip TT sets new standards in textile processing for technical textiles, such as sportswear, workwear, canvas, and parachute fabric, both in terms of technological maturity and of design. The teXcalRaconip TT is aimed at customers who require versatility and operator-friendly handling along with excellent process stability in addition to constantly high manufacturing quality.
This innovative calendar impresses with a deflection-controlled roll – the newly developed Raconip TT. It offers maximum flexibility thanks to unrestricted profiling across the entire fabric width by means of hydrostatic pistons. This guarantees highest quality, such as absolute flatness and precise air permeability.