Keeping 26043 alive.....No1 end.....Show me the good metal..
First a bit of nostalgia :)
26043 2 weeks off the production line from BCRW and at the time was on commissioning trials, as 26043 is a series 1 class 26 it never had cab droplights fitted, we see the tablet catcher recess, and its front connecting doors, we also see that like all 26s its boiler fitted. Note it does not yet have the opening window instead it has a boiler filler hatch.
26/1s incorporated a number of weight saving measures, such as the cantrail grills being made out of aluminium instead of steel, a thinner gauge bodyside skin, and the internal radiator ducting being made from fibreglass instead of aluminium, OLEO Buffers and all coil spring suspension. By this time is was already decided that the class 26s were destined for a life in Scotland, so in order to appease the Scottish civil engineer, they needed to shed a few pounds to bring the axle weight down. Note this is probably the only time 26043 has carried the correct pattern series 1 bogies, these have the correct series 1 footsteps fitted and also are missing the link arms required to lift the bogies attached to the locomotive as the series 1 underframe was missing the bracketry required for this.
Another fact is the drivers side windows are not the same as what is fitted now, they are mounted on the inside whereas at the last HGR they were changed to an outside mounted frame to try and reduce water ingress into the cab.
The location of the photo is unknown its thought to be somewhere up north but not scotland.
The cab as built. a lot of people when they look in a class 26 cab see exposed pipework, and think there are panels missing......as you can see...there never was any panelling the cabs were very spartan, and all that protects you from the Scottish wilderness and freezing temperatures is 3mm of steel......not known for its insulating properties! This photo shows a 26/0 as built its vacuum only and has a drop light next to the drivers seat, identifying this as a 26/0. You can clearly see the bellows for the connecting corridor.
In a previous blog we saw the drivers side cut away awaiting new steel framework, this has now been applied with a coat of protective primer the lower portion of the grab handle recess has been found to be badly twisted which will affect the fitting of the new doors...this has been cur away to be replaced by a brand new fabricated section.
The secondmans windscreen has now been removed to assess the extant of the corrosion above the cab windscreens. We already knew this was a problem area having exposed it a few years ago but ran out of time to be able to affect a repair before the locomotive was due back in service. A good indication of what you can hide with filler.....once again note the complete absence of any paint on the steel work.
Looking towards the drivers side the filler has been chipped away to expose the base of the roof dome. The cause of the corrosion is quite simple at some point Scotrail completely fiberglassed over the join between the cab steel and the roof dome (assuming to stave off water ingress). This works as long as the fibreglass stays attached but as the body flexes....it pulls away, this means water can leak from the base of the gutter behind the fibreglass and sit there....which causes the corrosion.
Moving down the right hand side of the windscreen towards the connecting doors we see significant corrosion, and also wastage around the extremities of the screen, refurbished class 26s used a clayton-rite windscreen seal, which meant the internal window frame could be removed, a clayton right seal is commonly found on classic cars and is recognised by the filler strip in the centre of the seal to clamp it to the window glass and the frame work, however...its not unusual for water to penetrate and site in the channels and rot the supporting steel ( as a lot of classic car owners will know) the reason for the change is unknown.. but its assumed it was connected with the switching of class 27 type windscreens around the time 26s had a HGR. which would have required the changing of the internal frame, so the cheap option was to the do away with it in its entirety, which left only the steel to support the window which required a different type of seal. the reason for the change of windscreens was an attempt to cut costs by standardising parts accross the fleet. The chipping of the filler and its thickness indicates "further bodgery" is present! this was found to be a 2 inch overlap with the steel above.
As a result we decided to cut the entire panel off!!! You can clearly see where the water tended to sit (at the bottom right hand side of the screen).
Here we see the front with the panel removed the corrosion around the centre doors extends to the shelf in the cab, it can also be seen that the supporting framework is also missing for the front panel!
At the rear of the removed panel we see...what survives of the framework! You can also see that while this is a BR panel its not the original.... And you can see the original light has been gas axed from the original front and welded to the new panel! you can also see the red-oxide primer likely applied during preservation...which means the lower portion of the frame has been absent for a very long time!
Work starting to re-instate the frame work first a piece of horizontal steel is inserted and welded below the shelf to the correct front profile.
Then a front pieced welded on to strengthen the framework and give a surface to weld new panels to at the top.
The curve is quite complex and the next stage is to fabricate the sill, there is no room for error here if the sill is slightly misshapen then windscreen will not fit! You can see the internal window shelf, this is quite badly corroded and will be removed.
if we look again at the rear of the removed panel you can see the complex curve at the top and its sill which can be made out (just) by the shadow!
The replacement repair panel being "fettled" before being welded in.
The panel being fitted!
Also being repaired if that unsightly corrosion at the side of the connecting corridor, the welds will be cleaned up shortly.
At this stage the curves for the windscreens can be fitted, as can be seen here...
And finally the welds cleaned up! A lot more steel will have to be removed to get the correct hole for the screen.
Edited by pheaton
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