Powerrrr!

While all this building has been going on I placed my order for the engine and transmission which have now arrived.

I went for a 350 Chevy from Roadcraft  - rated at 355hp - and a beautiful looking thing it is too!

I also went for the Tremec TKO500 box which I installed with a little help from my neighbor.

The engine shipped with the bell-housing attached, so mistake #1 was to attempt to attach the gearbox to the bell-housing which proved impossible in trying to line up the input shaft with the clutch release bearing and clutch centre. So off with the bell-housing, attache that to the gearbox and present the whole assembly to the engine - easy!

As with all these things there are questions I wish I'd thought of before placing the order. It turns out that the engine I have is certified as a 1978 block so that gets me in the right emissions band.
However, its clear that this engine has not been run in by the builder and the carb has not seen a drop of fuel. I would have thought that the engine would have been run and I'm pretty sure some other builders do this - I never though to ask!

That said, the installation and running in instructions are very informative and I'm not predicting any problems in getting it going. They do go on at length about the running in procedure and its importance and Brian @ Roadcraft did recommend using break-in oil and and using an oil priming tool to circulate oil and check oil pressure before first start so as not to ruin the camshaft. This is mentioned several times in the notes so must be a real worry.

Roadcraft evidently build their engines with flat tappets rather than roller - which is why they are more susceptible to wear. Also on these older engines, you need to be careful when selecting oil as the latest synthetic stuff doesn't contain the high zinc content needed to maintain the wearing surfaces of the cam lobes.

Finally the run in instructions say to run the engine at fast idle for 20 minutes and to make sure there is at least three gallons of fuel in the tank! - wow!

I think on balance I'd have paid extra for the roller cam but too late now and I'm sure with care all will be well.

Rolling Chassis

Bit of a while since last update but that's just because I'm behind on admin  -there's been lots going on.

The AK Gen 2 build manual is pretty good at getting you to the rolling chassis stage. Its a logical progression through the required tasks with some good photo's to assist.

One of the first things to do is to fit the ball joints to the top and bottom front wishbones. I wonder how many other AK builders get exited and frustrated by this first real assembly task only to find that AK don't supply the ball joints in the kit..... So, a good read through the manual to find all the parts needed to complete the rolling chassis is a great idea:

I needed:
Upper and lower front ball joints
Lower front ball joint set screws - 4 per side - threadlocked
Front Wheel Bearings
Front Disk Rotors and Pads
Rear Disk Rotors and pads
Steering rack bolts.
Lock wire for rear brake caliper bolts
Copper Grease and High Temp Grease
Rear Wheel Bearings
Rear Fulcrum Bearings
Universal Joints for drive shafts
Differential Oil
Build Wheels

Quite a parts list and a fair few quid. - aside from the  build wheels that I got for free from fellow builder Craig Perry.

Once all the parts are to hand, you do feel that you can make some rapid progress and get a sense of achievement.

In my case I was able to follow the manual quite successfully. I had one or two issues on the way. The first was the front wheel bearings. Once fitted and tightened according to the manual, the hubs were nearly impossible to turn by hand. The grease seal feels like its binding on the hub shaft. After a few minutes on the Cobra Forum - it turns out that this is normal and they ease off quickly once the car gets under way. I subsequently found this is correct; once I got the build wheels on and started moving the chassis around they started to turn freely.

It was quite an exercise leveling the chassis to perform the conjuring trick with the AK supplied paper castor gauge and a piece of string. It seems that the suspension points and chassis alignment are nearly right - I guess that s what you get with a hand built chassis. I persevered then discovered a plumb bob app for iphone ( there are loads of them). This was a lot easier to use and I suspect quite accurate. The procedure of shuffling washers between top and bottom wishbone bolts is a simple yet effective way of arriving at a reasonable setup.

I fitted the diff assembly on my own - and having done so I'd suggest getting someone to help. I loaded the diff onto a small trolley then jacked up the rear of the chassis to a suitable height to push the diff into the frame..

Here are a few pictures of some of the assembly

Handbrake Actuator

One item that didn't go according to the manual was the handbrake assembly. Basically the standard AK cables proved to be too long by about 1". This meant that the actuating lever which is on top of the diff was too far forward to get an effective pull. Impossible to modify the cables and I tried a different set from Craig Perry which had the same problem.
In the end I modified the bracket to allow for the extra cable length.

Another issue I'm not happy about is the rear brake flexy pipes. On my installation the pipes will bank on the chassis rail with suspension movement - an IVA fail - so I'll have to look at banjo angles to make sure the pipe is in free space.

Brake Pipes

I bought this bit of kit from Draper to make up the brake pipe flares. Its easy to use and seems to make good quality flares ( I will find out in due course!). Added bonus that it can be used without a vice or bench.

Must admit I'm quite chuffed with the pipe runs I've managed to create - look quite neat. I decided to use Cupro-Nickel pipes rather than the standard copper. Price is not much higher and they have a much higher burst pressure. I've fixed the pipes using rubber lined p-clips, drilled and tapped into chassis.

And now its on wheels....

Feels great to have got to the stage where I can wheel the chassis around. The build wheels I have are 15" and actually too small for the front brake calipers. I had to put washers over the wheel studs to push them out of contact with the calipers.

More refurbishment

Several other builders send their rear hub carriers off to Wards or other refurbishers and I have to admit they do seem to come back looking pristine. I took a leaf out of my old mans book - if you can do it yourself - get on with it!
The first job is to remove the brake disk backing plate and torque plate by removing the four allen screws. The plates were fairly well corroded onto the carrier but a dose of WD-40 did the trick.
The thinner disk splash shield can be discarded.
The next operation is to drift out the wheel bearing races and the fulcrum races. The wheel bearing races are easy to remove, just have to be careful not to damage the soft alloy housing. The fulcrum races are a complete pain. There may well be a special puller for removing these but as I didn't have one I had to use a piece of bent rod to drift them out. The problem is the fulcrum tube is narrower than the races so you cant get a straight drift on them. I reckon it took over an hour to get these things out - and there are four of them!
With the carriers now completely stripped I set about cleaning them up with rotary wire brush then a quick coat of aluminium spray paint.

Before and after!

Its then a case of pressing in the new bearing races. A press would be really handy for this but all I had was a hammer! I hit on the idea of using the old bearing races, reversed, to drive in the new races. This plan was working well, right until both the new and old races bound into the hub...so drifting them out again and back to the drawing board. Then I realised that cutting through the old races with the angle grinder allowed me to spring the old races out when they started to bind. Job done!

Next job was to refurb the torque plates, so wire brushing, degreasing then hammerite was applied. The torque plate also contains the brake shoe expanders which should be dissasembled and regreased. Lots of small parts in here so need to make sure they don't get lost. There is a good image in the build manual to help with reassembly.

I managed to obtain a new set of brake shoe retainers and springs from Jaguar Heritage and remembered to insert the retaining pins before refitting the torque plates.
I decided that now would be a good time to fit the brake shoes and springs on the bench rather than on the car - saves your back and a lot easier to see whats going on.

So at the end of all this I had two refurbished hub carriers - looking pretty smart too. However I'd say with the cost of parts, you don't save very much by doing this job yourself.

The next bit of refurbishment was the front hubs which required new bearings. These were reasonably easy to drift out, then used the old bearing races suitably slotted to press in the new bearings. I had an issue with the bearing kits - I ordered them from British Parts - JLM1707. The issue was that, while the part number is correct, the bearings supplied are not to Jaguar specification. The inner and outer bearings are different sizes, however the inner bearings were too small. The bearings were branded PowerTune and on investigation it looked like the kits which come as an inner, outer bearing plus a grease seal - were incorrectly assembled. I contacted BritishParts who didn't believe there could be a problem but nevertheless refunded the items but annoyingly not the cost of delivery or my return shipping costs. Very annoying given their faulty parts. I subsequently obtained the same JLM1707 part from Dave Manners, (branded Timken) and funnily enough were a perfect fit!

And finally - the brake calipers. As I live near Worcester, I took them down to Bigg Red for a complete refurb, new seals, pistons etc. The brakes are definitely not something I wanted to DIY and I was particularly keen on the pressure test service. Bigg Red will do various finishes and colours, however as the boss hadn't decided on colour scheme I just had them painted silver. Have to say BiggRed did a great job and not a bad price either. I've subsequently painted them with Hamerite to create a better and more durable finish.

Derek Hill

Derek Hill - 1935-2015 RIP

Not strictly a post about my car build but this bank holiday my dad suddenly and unexpectedly passed away. A passionate engineer with a real can-do attitude, my dad was a major inspiration in undertaking the Cobra build and was a source of advice, guidance and leg pulling that I will sorely miss.
To most of us our dad is some sort of hero; mine was a super-hero. There was no problem, mechanical ,electrical or hydraulic that he couldn't work out and I hope in some small way I can follow that style.
I'm gutted he will not be here to see the Cobra completed but there will be a part of him in it and I'll always remember that when we hit the road.

Collection day

12th February had arrived and as promised my kit was ready for collection. As I live in Worcestershire, I pondered getting AK to deliver it, but in the end, I decided collecting it would be good as I could ask  load of questions while up in Peterborough. Also, It would be an entertaining day trip out. I had already had a towbar fitted to the trusty Kuga, so I hired a trailer for the day from the local Hire-It. These guys were very helpful, however when the guy saw my brand new tow ball, the inevitable "have you towed before?" question followed. To which I had to reply "no"! He seemed to think I was very brave taking a 25" long trailer all the way to Peterborough on my first attempt but nevertheless I set off with my mate Bill Holden for moral support.
The journey was great fun and we arrived unscathed at the AK factory.
Jon at AK didn't reckon much to my parking and so took over the trailer reversing task so we could load the kit.

Loading up at AK

Here's one I prepared earlier!

 

So we loaded up with all the parts for my phase 1 build.

AK Gen II Chassis and Body, complete with engine bay stainless steel cladding pre-fitted.

All AK modified suspension components all bubble wrapped.

Twin three legged roll hoops.

Radiator.

Steering rack and power steering pump.

Coil spring/damper units

Handbrake cables and brake flexies.

 

The ride home was great fun with loads of rubber necking from folks all wondering what was on the back of the trailer.

 

 

Finally cracked the reversing!

 Once at home, I'd arrange for four people to be around so we could safely lift the body from the chassis. I had previously built a timber framed sledge with casters to place the body on, hopefully making it easy in future to move the body out of the way. Fortunately I have a double garage so the chassis now occupies one half and the body the other.

The new man cave



Preparation - Front axle

It didn't take me long to work out that the front coil springs were a bit too dangerous to mess with. The Haynes manual describes a special tool that inserts inside the coil from below and can be used to compress the unit. These are hard to get hold of and your standard external compressors are very difficult to fit on the Jaguar as the coils are fairly well enclosed by the subframe . So, another trip to my mates at Capricorn Engineering who promptly removed the offending coils with a cutting torch.


Chris Youren from Capricorn

Once the coils were removed I could carry on dismantling the various bits. The front brakes callipers were easy to remove but the disks were badly corroded to the hubs and I ended up removing the disks/hubs together and then soaking in WD40 prior to using the big hammer.

Dead coil springs!

The next problem was separating the top and bottom ball joints to release the front uprights. As usual one was easy but three of them fought back. One of the lower ball joint nuts had to be sawn off and the tapers were broken by heating up the joints with a gas torch.
Finally its a case of removing the top and bottom fulcrum shafts to release the wishbones. The lower fulcrum bolt requires a 38mm socket to remove and once again, the bolts need to be retained for the rebuild.

So after two weeks elapsed, I finally had all the parts I needed to take to AK for exchange which was just as well as my kit delivery date had arrived!

Preparation - Rear Axles

AK provide a comprehensive list of donor parts needed to complete the build. The main items for a Gen II car are the front and rear axle/subframe assemblies from a Jaguar XJ40. Some people buy a whole car and dismantle the required parts, however I followed the simpler route of purchasing the axles from a breaker - in my case Black Country Jaguar. these guys are reasonably local for me and they helpfully provided them on a single pallet so I could pick up in a transit van. I also purchased a V5 document from Black Country Jaguar, so technically I am now the proud owner of a 1988 Jaguar Sovereign ( well I have the axles anyhow!). The V5 is important later on when registering the final vehicle with an age related plate. Total cost for the axles and V5 was £400.
I sent the V5 off to Swansea to register the Jaguar in my name and completed a SORN declaration to avoid road tax.

When you buy the kit from AK they provide you with some modified components so as part of the deal you have to recover the following parts from your donor car and give them to AK.

• Front Uprights
• Lower Front Wishbones
• Lower rear Wishbones
• Halfshafts (centre section)

I timed my activity to make sure that I had these bits ready when I collected the kit from AK.

Stripping down the axles is a seriously grubby task as might be expected for something that been steadily corroding for 25 years. Some bits came apart quite easily but others fought back hard!

I started with the rear end and removed the rear brake callipers and disks. The disks are effectively scrap and need to be replaced.  The rear brake shoes were then removed as per the Haynes manual instructions. I kept all the springs and adjusters in case new ones couldn't be found for reassembly. You need to disconnect the handbrake cable from the expander mechanism on each side. This is a held on by a small clip which can be found by looking at the hub carrier from the bottom. One of these came off easily - the other was rusted on and took an overnight soaking in WD40 to shift.
The first major problem is undoing the rear centre hub nuts. These are on unbelievably tight and I ended up assembling a 4 foot breaker bar before I could get enough leverage to shift them. I used a pry bar to jam the wheel studs to prevent the hub rotating while trying to free it.
The next problem is  removing the rear hubs from the hub carrier and drive shaft splines. I read a few articles where folks had real problems with this, however I was lucky and managed it with a standard hub puller.

The next task was to remove the halfshafts from the diff. There are 4 bolts that need to be removed each side and once again a judicious use of a pry bar to prevent the diff rotating was needed.

Next task is to remove the rear hub carriers from the lower wishbones. These are held in by a fulcrum shaft with nuts/washers at each end. One side almost fell apart. Needless to say the other side did not and took about 3 days worth of soaking with WD40 and some serious hammer work to persuade the shaft from the assembly. It is important to remember that the fulcrum shafts need to be retained for reassembly as they are expensive to replace, so don't mess up the threads on each end.

The diff is a little bit awkward being an integral part of the rear suspension. The diff is fixed to a lower transom bracket and the diff pinion end is bolted to a cross member. The lower wishbones are fixed by large fulcrum bolts that need to be removed and retained for reassembly. Fortunately these came out with no problems. You have to remove the diff pinion shaft before you can unbolt the diff nose from the crossmember as the pinion cannot be withdrawn through the crossmember aperture. Now the Haynes manual suggests you shouldn't mess with the diff pinion too much as there is a collapsible spacer behind the pinion which is used to preload the pinion bearings. The technique is to mark the pinion and nut for alignment then undo the pinion nut counting the number of turns. On reassembly, the theory is that by reversing this process, you end up with the same preload on the bearing. I'll find out in due course if this is the case! Note you need a 36mm socket for this job and also remember that despite the size of the nut - the torque setting is very low due to the collapsible spacer.
There are two mounting brackets on the rear of the diff that need to be removed and saved.
I forgot to drain the diff of oil before starting the disassembly and ended up with foul smelling diff oil coming out of the breather - at least I know the breather is clear!
Generally speaking, most folks seem to be sending their diff to a specialist for refurbishment. I decided to give mine a good inspection and check for lash and bearing play. External inspection showed no obvious signs of seal problems or cover gasket leaks. I have a suspicion that the diff I have may have been rebuilt at some stage; The diff oil was pretty clean, no seal leakages and the lash was acceptable. I measured the lash by locking the pinion and one output shaft, then at a radius of 6" checked that the free output shaft would not turn by more than half-inch.

Removing the diff cover to inspect the internals proved a real challenge. There are two bottom bolts that pass through the diff cover into the diff casing and these have fulcrum extensions to mount part of the suspension brackets. These bolts are really difficult to remove as even a deep 30mm socket will not reach over the bolt extension. A 30 mm ring-spanner kept slipping off the bolt head and started to round off the a hex faces. In the end, after much swearing,  I took the whole thing to a local engineering firm called Capricorn. This is a father and son engineering company near Stourbridge specialising in mechanical and electrical engineering. I can't recommend Neil and Chris Youren enough for their help and patience. In fact I suspect nothing defeats them! Anyhow, the guys came up with a great solution and within 20 minutes manufactured a special tool by using a lathe to drill out the square drive from the back of the socket then
welded on a long steel tube, thus providing socket access to the bolts. This tool shifted the bolts which turned out to be fine threaded and loctited in - hence the problems. I refitted the diff to the lower transom just to stop the diff rolling around while trying to turn the bolts - good job I didn't scrap the old parts by this stage!
With the bolts removed the diff cover came off easily and I could inspect the internals. I have a 1:3.58 non-powerlock diff which will be fine for our touring setup. No teeth missing or pitting, no burrs or obvious problems so all appears well to run this diff with no refurbishment. I will change the diff pinion seal on reassembly just as a precaution.

Moving on to the half shafts, these have to be dismantled to release the centre sections. AK modify these to shorten them on an exchange basis. The Haynes manual describes a very simple procedure to remove the universal joints. You simply remove the circlips then drive through the end cap on one side using a hammer and a suitably sized socket. Once the opposite end cap protrudes from the housing, use stilsons to grab it and twist off. No chance! I tried grabbing the protruding end cap in my vice and ended up ripping the vice from the bench!. Adimiting defeat I paid a second visit to Capricorn where using a combination of heat, a man sized vice and a friendly gorilla called Chris, the two of us managed to separate the items. As you are going to need to replace the UJ's in any case, I've heard from other builders that they simply cut out he UJ's with a cutting torch - I now know why!