Continuous Filament Winding Machine
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A continuous filament winding machine (CFW Machine / CW Machine) is a machine for laying
filament winding Filament winding is a fabrication technique mainly used for manufacturing open (cylinders) or closed end structures (pressure vessels or tanks). This process involves winding filaments under tension over a rotating mandrel. The mandrel rotates arou ...
s continuously over a cylindrical steel band. The steel band is carried on a forward moving
mandrel A mandrel, mandril, or arbor is a gently tapered cylinder against which material can be forged or shaped (e.g., a ring mandrel - also called a triblet - used by jewelers to increase the diameter of a wedding ring), or a flanged or tapered or ...
which is able to collapse and return to the beginning of the travel. The steel band is released after the mandrel collapses and is continuously fed back to the start of the travel where it is again wound on to the mandrel. This machine is mainly used to manufacture
fibre-reinforced plastic Fibre-reinforced plastic (FRP; also called fibre-reinforced polymer, or in American English ''fiber'') is a composite material made of a polymer matrix reinforced with fibres. The fibres are usually glass fibre, glass (in fibreglass), Carbon fib ...
(FRP) pipes and couplings, especially
glass-reinforced plastic Fiberglass (American English) or fibreglass (Commonwealth English) is a common type of fiber-reinforced plastic using glass fiber. The fibers may be randomly arranged, flattened into a sheet called a chopped strand mat, or woven into glass cloth ...
(GRP) pipes. They are used for the manufacture of large diameter pipes and there is a minimum diameter below which the technique becomes unrealistic. Machines are available for diameters from . A raw material storage and mixing areas for resins, catalysts, etc. is needed to feed the machine. This will usually involve heating of the chemical mix. The raw material is fed on a continuous steel band. The steel band moves forward a distance equal to its width for each turn. The mandrel does not move forward and there is no collapsable mandrel in the process. The process of Continuous filament winding is also known as the Drostholm Process. In addition to the continuous advancing band, many alternative methods of filament winding also exist. While the process is innovative in many ways, the work performed on the machines proved to carry HS&E risks caused by fumes, emissions, fire risks and mechanical pinch points.


History

The first winding machine for production of GRP-pipes was invented in 1965 - 1967 by Danish and Norwegian engineers: Peder Ulrik Poulsen, Tage Debess and Agnar Gilbu in cooperation between two companies, the Norwegian Vera Fabrikker (later,
Flowtite Technology Flowtite Technology AS is a Norwegian technology company, owned by Amiantit Group. It develops GRP pipe manufacturing technology and designs tailor-made manufacturing equipment under the brand name ''Flowtite''. Its predecessor, Vera Fabrikker, w ...
AS) and the Danish Drostholm Ltd. The Danish engineers mainly focused on the invention of the winding machine, whereas the Norwegian ones were responsible for the development of the process enabling this machine to produce GRP pipes and tanks. Peder Ulrik Poulsen invented the rotating mandrel with an endless steel band (strip) in 1967, which made the continuous filament winding process possible. The corresponding patent application was filed in August 1968, and the patent granted in 1969.P.U., Poulsen Peder. "Driven mandrel rotatable about its longitudinal axis for continuous production of tubing in running lengths, preferably glass fibre reinforced plastic tubing." U.S. Patent No. 3,464,879. 2 Sep. 1969 At the time, Poulsen worked with Drostholm Ltd., the company that acquired all the rights to utilize his inventions. That is where the continuous winding process derives its “Drostholm Process” name from. The first winder was built in Copenhagen, Denmark in 1968 and shipped to Vera Fabrikker in Sandefjord, Norway for the production of GRP-pipes.


References

*Michael G. Bader, Leif A. Carlsson, John W. Gillespie, ''Delaware composites design encyclopedia: Processing and fabrication technology'',pp. 197–198, CRC Press, 1990 . *Leonard Hollaway, ''Handbook of polymer composites for engineers'', p. 98, Woodhead Publishing, 1994 . *J. G. Teng, ''FRP-strengthened RC structures'', p. 149, John Wiley and Sons, 2002 . {{reflist Industrial machinery