Weaving Technical Textiles


T
echnical textiles are a much-heralded segment of the industry, synonymous with
opportunity, innovation and profitability. Although there is a technical component to virtually
every textile product, technical textiles stand out with either a high-performance application
end-use or a rigid slate of specifications that must be achieved in order to perform properly.

Woven technical textiles capitalize on a long tradition of incorporating weaving machinery
innovations with developments in fiber, yarn and finishing to achieve state-of-the-art products. In
a brief survey of weaving machinery producers conducted by

Textile World Asia
, there is consensus that this is a vital sector that continues to optimize weaving machinery
developments, particularly with air-jet and rapier machines, to drive the business forward.


A Healthy Segment

“Technical fibers, technical yarns and, at the end, technical fabrics have been growing year
by year thanks to specific features that such technical articles can exploit,” said Luciano Corain,
president, Smit S.p.A., Italy. “As a consequence, the weaving machine has been developing [with] a
kind of Darwinian evolution in order to specialize its ability and make available more and more
sophisticated performance, in line with the requests of such an important niche market.

“Technical fabrics include a very wide range of types, ranking from the heaviest to the
finest, with extreme variation of material, count and type of yarn — and the weaving machines must
be able to handle all of them, from metallic to glass, from carbon to aramid or synthetic as well
as natural fibers,” Corain continued. “Besides the specific features of the frame and the
technological geometry of the machine itself, the weft-insertion technique and the control means of
the weft-transfer devices are of primary importance.”

According to Riccardo Mautino, marketing manager of Italy-based Promatech S.p.A., the market
can be divided into two segments from the weaving machinery manufacturer’s perspective. “On one
side, there are all the products made starting from new fiber and yarns, or that must respond to
particular requirements like flame retardancy, strength or permeability,” Mautino said. “On the
other side, there are all the special fabrics like geotextiles and tire cord. The first type doesn’t
need particular modification of the weaving machine, while the second sees the weaving machinery
manufacturer deeply involved in the modification of the standard loom to be adapted to the
different requirements.”

Japan-based Tsudakoma Corp.’s Norio Yamashita, manager of the sales promotion section of the
sales department, observed, “We see a trend in the abilities that our users require to respond to
wide fabrics, high density, high tension, fine yarns with low tension, and special materials. As
far as quality is concerned, the strength and the air permeability of the technical textiles are
sometimes quantified for evaluation of the specifications. They are different from apparel fabrics,
which emphasize sensuous evaluation. For weave, almost all the technical fabrics are plain.
However, the shedding motion must be chosen according to the user’s needs. The crank shedding
motion is chosen for speeds, and the cam shedding motion is chosen for high density.”



Global Effects

According to the machinery suppliers, the stability of the North American and European
technical textile markets is apparent.

“The main markets are still the United States and European countries like Germany, France and
Belgium, but other markets like Turkey, China and India are interesting developing markets in this
sector,” said Peter Brust, executive vice president of Charlotte-based American Dornier Machinery
Corp. “In total, the interest regarding technical textiles has noticeably risen within the last few
years, although we, as a niche producer of weaving machines, have always been strong in the
technical textiles sector, thanks to Dornier’s flexible filling insertion systems. In [Dornier’s]
portfolio, the share of weaving machines for technical textiles increased from 17 percent to 25
percent within the last year.”

“We see growth in Eastern and Western Europe and North America in almost every segment except
glass-fiber-based fabrics,” reported Filips Lombaert, market manager, technical textiles, for
Belgium-based Picanol NV. “China is particularly active but seems to choose both local as well as
imported machinery, depending on end-uses. The Indian market seems to need some technical fabrics,
but a large part is still imported. There is good activity in Korea, Taiwan and Japan in general.
Russia is mainly active in polyester-based fabrics.

”There is a need for high-speed and flexible weaving machines,” Lombaert added. “High speed
because some segments become more and more commodity. And flexible because people want to be able
to react to sudden changes in the market.”

Smit’s Corain views it this way: “Technical fabric is a specialized application requiring
most times deep know-how, which can’t come from improvisation but must come from tradition and
long-standing technological development. Newcomers are uncommon in this field, even if
business-wise it looks attractive, so areas for technical fabrics are mostly those with tradition
in this respect, like the United States, Europe, Japan, Korea and Taiwan, without forgetting that
others are pushing to develop and expand in such applications.”

“Europe, Korea and Japan are the countries where we receive the higher demand for machines
suitable for technical textiles, while China is growing also in this sector,” Promatech’s Mautino
said. “The main reason is the demand from other sectors. Automotive, construction, agriculture,
among other sectors, have expanded in each country.”

Switzerland-based Sultex Ltd. reports steady growth, with Turkey, India and China as emerging
markets. “This sector has the biggest growth potential of all,” commented Fritz Legler, vice
president, head of sales, marketing and service, Sultex. “Projections go from 2 to 4 percent per
annum with new materials, and technologies — like, for example, using more electronics or
fiber-optical materials — will enhance this segment. Furthermore, new applications — for example,
nanotechnology — will help users apply targeted finishes to specifically engineered textiles.”

picanol
Picanol’s Omni-Jet is made in Suzhou, China.

Summarizing Picanol’s machinery offerings in this segment, Lombaert said: “
Picanol always offered solutions for certain segments in technical textiles. Since 2000, however,
after the acquisition of Guenne, Picanol decided to explore the market more actively. This
coincided with the fact that a large portion of existing Western European weaving plants moved into
technical textile markets under pressure of globalization. Picanol has been successful by the
introduction of high-speed solutions in both air-jet and rapier technology.

“In some technical textiles, the weft yarn is suitable for air jets, and the OMP800 air jet,
introduced in 2005, therefore is very successful in tire-cord, air-bag, car-seat and parachute
fabrics. Speed and a reliable and sturdy machine design with high beat-up power is offered. Sumo
direct drive that reduces power consumption and maintenance costs is appreciated in technical
textiles as much as in other markets,” Lombaert said.

For rapier applications, Picanol recently introduced the OptiMax flexible rapier loom. “The
OptiMax offers a wider range of applications, mainly due to its versatile gripper system, and
offers much more beat-up power thanks to the new arrangement of the sley drives and a new shed
geometry,” Lombaert said. “The new widths of 430 and 460 centimeters open new fields of application
in technical textiles. The high-speed leno system on OptiMax — the OptiLeno, available in single-
and double-beam arrangements — can be transformed in two hours towards normal frames. It offers the
highest speeds in leno weaving on rapiers.

“The Omni-Jet air jet, assembled in the Chinese plant in Suzhou, will become more and more
successful in electro-glass and gauze fabrics since it simply offers the best price/performance
ratio, and makes use of OMP-800 technology,” he added.

promatechalpha
Promatech’s Alpha PGA rapier machine finds wide applications in the glass-fiber sector,
air-bag and automotive products, heavy canvas, and fabrics with aramid fibers.


Promatech

Of Promatech’s Somet line of rapier machines, Mautino said: “In the technical textiles
sector, the most diffused loom is the Alpha PGA — thanks to its mechanical principle and the widest
versatility for a negative rapier weaving machine. The Alpha PGA finds important and wide
applications in the glass-fiber sector, air-bag and automotive textile products, heavy canvas, and
fabrics with aramid fibers.”

From Promatech’s Vamatex line, Mautino pointed to the Silver HS machine. “The Silver HS, in
the FTS [Free Transfer System] execution, is particularly appreciated for the weaving of
high-density fabrics or with parallel filament yarn products.” The FTS version is also noted for
production with delicate yarns, even in wide fabrics.

smitgs900
Smit has developed the GS900T, a gripper weaving machine suitable for technical fabrics.


Smit

Corain pointed to Smit’s long tradition in the development of weaving machines for technical
fabrics, with key technical features like weft insertion grippers and relevant control system, shed
geometry, reed beat-up and warp control.

“All these allow Smit to offer a positive solution to the requirements coming from mine heavy
conveyor belts to finest mesh for bolting cloth through fabric for composite, electronic boards,
air bag, synthetic as well as metallic filters, respecting all the technical and quality
specifications required,”Corain said.

smitfabric
Technical fabric photograph courtesy of Smit S.p.A.


“Smit has developed a range of machines suitable for four different lines of
application, one of which is the GS900T, a gripper weaving machine for technical fabrics.

“All Smit machines share a common platform designed and developed aiming to make available
the proper competitive solution to different requirements of each specific application,” Corain
said. “It is worth pointing out on this subject that important applications such as heaviest and
finest fabrics require by chance similar design solutions, matching well in the GS900T.”

sultex
Sultex claims its P7300 HP fulfills the highest quality standards in jacquard fabric
production.


Sultex

Sultex’s Legler remarked that clients are looking at heavy-duty applications like densely
picked, multi-layer, pick-insertion fabrics woven very wide. “The marketplace tends to invest in
projectile weaving machines up to 6.5 meters wide,” he said. “The projectile weaving machine
P7300HP is predominantly used in this field [technical textiles] due to its flexibility, sturdiness
and quick turnaround time.

“Floor coverings — in flat constructions or leno weaves — heavy-duty filtration materials,
geotextiles and agrotextiles are almost uniquely woven on projectile machines,” Legler said.

“Other applications like OPW [One Piece Woven] air-bag constructions favor rapier weaving
machines. Sultex’s rapier G6500s are used by leading weavers around the globe in fields like air
bags – flat or OPW -coating fabrics, wire fabrics, finest filter applications, canvas, sail cloth
and so forth.”

tsudakoma
Tsudakoma’s ZAX9100 air-jet weaving machine is suitable for producing tire cord and
glass-fiber fabrics.


Tsudakoma

Tsudakoma’s Yamashita said it is “indispensable to respond to the increasingly diversified
yarns and new materials. For this purpose, we think binding the know-how of not only weaving, but
also preparation process is important. It is Tsudakoma’s advantage having accumulated the know-how
to be the textile machinery specialist that can provide both preparatory machines and weaving
machines. ”

For technical textiles, Yamashita referred to Tsudakoma’s ZAX9100 air-jet looms for products
such as tire cords and glass-fiber fabrics. He referenced Tsudakoma’s ZW408 water-jet looms for air
bags and products using flat yarns.

“Better quality and performance including running costs are required more [and more],”
Yamashita said. “The production field by rapier looms has gradually shifted to the air-jet and
water-jet looms field. We think this tendency continues further. For example, air bags are woven by
water-jet looms, glass-fiber fabrics by air-jet looms, tire cords by air-jet looms and so forth.”

dornierawsr
Dornier’s AWSR 4/E4 air-jet weaving machine, which features automatic tabby weaving, is
suitable for weaving tire cord.



Dornier

Dornier is well-known to weavers in the technical textiles market. “With our system family of
rapier and air-jet weaving machines, we have two different filling insertion systems that
complement each other for all kinds of technical textile production,” Brust said. “The whole range
of extremely heavy fabrics, open mesh fabrics and very dense fabrics can be produced with these
machines.”

Regarding the future, Brust said: “In our opinion, this sector will rise even more in the
future due to developments in other industries and market sectors. Demands for higher security
standards will, for example, cause a higher request for ballistic fabrics. Environmental
considerations will lead to more sophisticated filtration systems. Rising energy costs will create
demands for lighter composites for airplanes. Also, in the leisure activities, lighter and more
sophisticated components are required.”


Staying Ahead Through Innovation

With key weaving machine manufacturers excited about technical textiles, the future, from a
technology standpoint, is bound to hold promise for those weavers looking ahead. The opportunity to
develop innovative products in a growing global market is sure to attract new companies and
competition to the technical textiles marketplace. Innovation will be the differentiator for those
companies that want to stay on the leading edge of technical textile product life cycles and avoid
the trap of commoditization. The partnership between weavers and weaving machine producers plays a
key role in making sure weaving machine technology is pushed to its limits and technical solutions
become applied technologies.

May/June 2007

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