Dual helical filament winding is the process of impregnating pre-stressed continuous glass fiber roving with a matrix resin, then applying the wetted roving to a steel mandrel under controlled tension in predetermined winding angles using dual helical winding pattern, thereby achieving optimum mechanical properties in both the principal axis, longitudinal and circumferential. Depending upon the requirements of chemical resistance, mechanical properties and temperature resistance, a suitable resin is selected. The whole process is fully computer controlled. This unique manufacturing process enables the designer to select a system best suited to meet the specific end product requirements such as high strength, light weight, corrosion and weather resistance, low maintenance etc.
The steel mandrel on which the pipe is wound is solid type for nominal size upto 1000 mm and collapsible type for above 1000 mm. The mandrel is wrapped with a thin film of terphane (demolding agent). In case of pipes with Integral Socket, the tool for socket is checked and cleaned. If the socket is for rubber seal, the rubber mould for the groove is put in position.
The construction of the Inner liner, the internal resin rich chemical layer, varies with the type of the piping series selected. For GRE pipes, the structural wall is wound directly on a wet liner.
But for GRP/GRV pipes, the inner liner is gelled by infrared ray heaters to ensure precise resin content and maximum corrosion resistance. After the curing, a layer of glass impregnated with resin is wound on the liner to enable a good bonding between the gel coat and the helical winding.
For the construction of the structural wall, a carriage, supporting glass roving spool, roving impregnation bath and the automatic resin feeding, travels to and fro alongside the face of the mandrel. The movement of the carriage and the rotation of the mandrel are controlled by the computer. For each diameter, the machine has a program containing winding angles and the number of layers required. The angles at which the glass fibers are oriented in reference to the axis of the mandrel may vary from 0° to 90°. The ratio of axial stress to hoop stress in the pipe wall is linked to the winding angle. At 55° winding angle, the hoop stress will be twice that of axial stress. The greater the winding angle, the higher the hoop modulus of elasticity of the pipe. The tension of the roving is precisely adjusted to give the pre-stress required by the design of the pipe. For gravity pipes, silica sand may be used as filler for nominal size 400 mm and above.
After that the pipe is cured in the oven for one hour at 100°C. The pipe rotates during the curing to avoid uneven repatriation of the resin. After curing the pipe is demolded from the steel mandrel. The pipe ends are calibrated according to the requirements.
Nominal size ranging from 25 mm to 2600 mm is manufactured by this process.
