Berikut paparan dari TWI yang dikutip dari: http://www.twi.co.uk/technical-knowledge/job-knowledge/butt-fusion-welding-of-plastics-058/
Butt fusion welding of polyethylene pipe
Job Knowledge
Introduction
Fig.1. Aligning and clamping the pipes
Butt fusion welding is the name given to
hot plate welding of thermoplastic pipes. It is one of two main
techniques for the fusion joining of polyethylene gas and water pipe.
After the heat soak phase, the hot plate is removed and the pipe ends brought together. The time taken to do this is called 'dwell time' and needs to be as short as possible. The final phase is the welding/cooling time, predetermined subject to pipe diameter and wall thickness.
The Process
The heating phase, sometimes referred to as 'bead up', is where the pipe ends are pressed against a heated plate for a period of time. This is followed by the 'heat soak' phase where the pressure is reduced to just hold the pipe ends on the hot plate. This allows time for the heat to soak into the material at the pipe ends.After the heat soak phase, the hot plate is removed and the pipe ends brought together. The time taken to do this is called 'dwell time' and needs to be as short as possible. The final phase is the welding/cooling time, predetermined subject to pipe diameter and wall thickness.
Machine set up
Before making any pipe welds, the butt fusion welding machine needs to be checked for smooth running and set up for the pipe materials to be welded.- Selection of the correct clamps or inserts, ensuring all fixings are tight, to reduce the possibility of misalignment due to axial movement.
- Correct temperature of the hot plate, for the material being welded; this should be checked with a surface temperature probe and digital thermometer in several positions after a stabilisation period of at least 20 minutes. Between welds the hot plate should be covered by a heatproof bag to protect it from surface contamination and to prevent heat loss.
- Check the planer blades used to trim and square the pipe ends; they need to be sharp, undamaged and firmly fixed to the planer surface to avoid slippage of the planer during rotation.
- Check all moving parts for smooth operation and, if using a hydraulic machine, check the hoses and fittings for signs of leakage.
Preparing the pipe
Fig.2. Planing the pipe ends so they are ready for welding
Prior to welding, correct preparation of
the pipes is necessary. When measuring pipe lengths, allowance should be
made for the trimming and melting sequences to guarantee correct
lengths after welding.
Before clamping the pipes into the machine, the ends should be checked for irregular shape, damage, or embedded grit. The maximum allowable depth of this must be less than 10% of the wall thickness. Damaged or deeply scored pipe should be discarded. Any loose contamination can be removed by wiping the pipe ends with a lint-free cloth on both inner and outer surfaces.
Once cleaned, the pipes are clamped into the machine. To help alignment, it is good practice to clamp the pipes in such a way that their stamped markings are in line. This also helps with identification at a later date if required.
Once securely fitted in the clamps, the pipe ends should be brought into contact with the rotating planer tool until continuous shavings are cut from each end. The planing process ensures the pipe ends are smooth and square ready for the welding phase. Loose shavings should be removed from the machine and inside the pipes taking care not to touch the planed ends. This ensures that no grease or dirt is transferred from hands to pipe ends. The pipes should then be checked for alignment and adjustments made to the clamps where necessary to ensure there is minimal mismatch in diameter.
Before clamping the pipes into the machine, the ends should be checked for irregular shape, damage, or embedded grit. The maximum allowable depth of this must be less than 10% of the wall thickness. Damaged or deeply scored pipe should be discarded. Any loose contamination can be removed by wiping the pipe ends with a lint-free cloth on both inner and outer surfaces.
Once cleaned, the pipes are clamped into the machine. To help alignment, it is good practice to clamp the pipes in such a way that their stamped markings are in line. This also helps with identification at a later date if required.
Once securely fitted in the clamps, the pipe ends should be brought into contact with the rotating planer tool until continuous shavings are cut from each end. The planing process ensures the pipe ends are smooth and square ready for the welding phase. Loose shavings should be removed from the machine and inside the pipes taking care not to touch the planed ends. This ensures that no grease or dirt is transferred from hands to pipe ends. The pipes should then be checked for alignment and adjustments made to the clamps where necessary to ensure there is minimal mismatch in diameter.
Welding
Fig.3. The hotplate is positioned between the pipes
Fig.4. Bead formation needs to be monitored carefully
Before the welding sequence, heating and
cooling times and fusion pressures should be noted for the specific pipe
diameter and written down for quick reference during the welding cycle.
Some machines have all the relevant tables on them for convenience. A
timer or stopwatch should be available for accurate timing.
The heatproof bag should be removed from the hotplate, and the temperature should be checked using a digital thermometer and surface probe.
It is good practice to complete a dummy weld before undertaking actual welding. This is to ensure the surface area of the hotplate in contact with the pipe ends is totally clean of any dust particles or other contaminants.
Place the hotplate between the pipe ends, ensuring that it is properly located and square to the pipe faces. Move the pipes into contact with the surface applying an axial force. The force should be applied smoothly making sure that the required pressure is not exceeded. The force needs to be held securely, allowing the formation of a bead of molten material around the pipe.
The bead needs to be even around the pipe circumference, on both sides of the hotplate. This is the 'bead up' phase of the process.
The means of applying the force will vary with the type of equipment. On certain types of machine the force will be applied by mechanical means using a spring loaded mechanism with the force being maintained by a locking screw. On other types of equipment, hydraulic rams are used with the pressure maintained by switching valves in the hydraulic power pack.
When the required bead has been achieved, the pressure is reduced for the heat soak phase. The pipes rest on the hot plate which allows the heat to permeate the material, reducing the possibility of cold welds.
This time will vary subject to pipe diameter and wall thickness, therefore manufacturers recommended times should be used.
The heatproof bag should be removed from the hotplate, and the temperature should be checked using a digital thermometer and surface probe.
It is good practice to complete a dummy weld before undertaking actual welding. This is to ensure the surface area of the hotplate in contact with the pipe ends is totally clean of any dust particles or other contaminants.
Place the hotplate between the pipe ends, ensuring that it is properly located and square to the pipe faces. Move the pipes into contact with the surface applying an axial force. The force should be applied smoothly making sure that the required pressure is not exceeded. The force needs to be held securely, allowing the formation of a bead of molten material around the pipe.
The bead needs to be even around the pipe circumference, on both sides of the hotplate. This is the 'bead up' phase of the process.
The means of applying the force will vary with the type of equipment. On certain types of machine the force will be applied by mechanical means using a spring loaded mechanism with the force being maintained by a locking screw. On other types of equipment, hydraulic rams are used with the pressure maintained by switching valves in the hydraulic power pack.
When the required bead has been achieved, the pressure is reduced for the heat soak phase. The pipes rest on the hot plate which allows the heat to permeate the material, reducing the possibility of cold welds.
This time will vary subject to pipe diameter and wall thickness, therefore manufacturers recommended times should be used.
Fig.5. The pipes should be kept clamped during the welding/cooling phase
When this phase is completed, the pipe
faces are moved away from the hotplate as smoothly as possible to ensure
that none of the molten bead sticks to the surface and the hotplate is
removed. The pipes are then brought together as smoothly and quickly as
possible to minimise the possibility of temperature drop, taking care
not to exceed the required force.
The welding/cooling phase begins when the required force has been achieved. The weld force should be maintained throughout this phase, to ensure maximum weld strength
On completion of the cooling time, the pressure can be reduced to zero, and the pipe removed from the clamps. The finished weld can now be visually inspected for uniformity and alignment.
More information on TWI's work on plastic pipe can be found here.
See further information about plastic pipe welding and testing or please contact us
The welding/cooling phase begins when the required force has been achieved. The weld force should be maintained throughout this phase, to ensure maximum weld strength
On completion of the cooling time, the pressure can be reduced to zero, and the pipe removed from the clamps. The finished weld can now be visually inspected for uniformity and alignment.
More information on TWI's work on plastic pipe can be found here.
See further information about plastic pipe welding and testing or please contact us
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