My engine and transaxle are on the floor of the garage, waiting for me to change the head gasket.
The engine is a mechanical 1.6TD out of an '85 Quantum, unknown history. It now lives in a 1973 Transporter. Has K24 turbo, 2.25" mandrel-bent exhaust, Saab intercooler. The goal is a modest 100hp and top-tier reliability.
I've spent probably 4-5 hours on this site reading up on head gaskets, studs and tools, learned a lot but I'm still not 100% sure I am making the right choices for this job. So, I'm going to post here first in the hopes that if I'm about to make a huge mistake, one of you knowledgeable types (Andrew, Vincent, et. al) will save me from myself. Here's what I have planned:
ARP studs (251-4701) from Summit Racing. About $145 with shipping (ouch). Main reason I'm going with these is because I can't re-torque the head bolts without dropping the engine and I don't want to do that two more times after I put it back in. It is my understanding that I DO NOT have to re-torque the ARP studs after the initial install. One factory sequence to 80lb-ft with ARP lube, 120lb-ft with 30-wt oil and I'm done. Right?
Head gasket - I will measure the piston protrusion once I have the head off and buy the appropriate gasket. Going with the stock-style gasket, probably the Elring from Autohausaz:
http://www.autohausaz.com/search/product.aspx?sid=evn5mbz3iyqzl0jbdpotit45&makeid=800026@VW&modelid=1284780@QUANTUM%20GL%20CUSTOM%20TDI&year=1985&cid=109@Engine%20Overhaul/Rebuild%20Kit&gid=5412@Cylinder%20Head%20GasketIt is my understanding that there is no readily-available head gasket upgrade for the mechanical 1.6 engine like there is for the hydraulic engine. I don't think my power goals justify an upgrade but again I would like to hear from those with differing opinions.
Measured my IP timing before disassembly. I have the correct dial indicator but do not have the stock flywheel/bellhousing so I have no TDC mark to look at. I used a flat file in the notch at the rear of the cam to determine TDC. There was some slop so I turned it one way till it wouldn't go any more, then turned it the other way, then split the difference. Wouldn't you know it, the dial indicator said .0395" in the middle which I think is just about perfect. I am going to use a dremel with a cutoff wheel to make a TDC mark on the crank pulley so that it will be possible to find TDC with the engine in the van in the future. I know it's not as accurate as the flywheel mark but I think it will be good enough. I realize that if my cam timing is off, my TDC mark will be off also. I'm just going to hope that the cam timing is accurate. The timing belt is new and the engine ran great when I pulled it (except for the pressurized coolant system!).
I will stay away from Autozone and Pep Boys triple-square tools since the results seem to be mixed on those. I am going to stop by Napa tomorrow and pick up a 10mm Lisle triple-square tool so I can get the old head bolts out. Then remove the head, clean, check for straightness, etc.
Please let me know if I am making any errors here - Thanks!
-David
p.s. I re-used the factory torque-to-yield head bolts in my 87 Mustang more than once and never had a problem. I guess I won't chance it on this engine though.
