Dclary, I clamped drilled and cleco'd that piece then removed and stored it safely out of the way. I was too worried about dropping a hammer on it. It will be one of the last pieces I rivet in.
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Dclary, I clamped drilled and cleco'd that piece then removed and stored it safely out of the way. I was too worried about dropping a hammer on it. It will be one of the last pieces I rivet in.
A well stocked beverage fridge is the key to any successful project.
Drilled all the holes for the "under battery tray cover". Didn't install it; the cross bar in that area is just too good of a jacking point to cover with .040" aluminum. Didn't want to worry about bending the aluminum while I'm piecing the car together.
Had to trim down the supplied interior side panel FFR shipped. It was designed for the 818s and didn't fit correctly on my 818r. I'm still a little irked that FFR did't even bother to make interior panels specific to the R's chassis bars and just shipped S panels that don't even fit. Drilled, applied silicon, and riveted both panels to the frame.
Last edited by Rasmus; 09-15-2014 at 10:58 PM.
Well while I was out of touch over the summer the SCCA classified the 818 into E Modified instead of my preferred class of X Prepared. So that's a bummer.
They also moved the Factory Five GTM out of XP and into EM.
Well that's whack. At least...
classified.png
A well stocked beverage fridge is the key to any successful project.
YEAHHHHHH!
Motor-wise. The case halves returned from Motion Machine. Dale cleaned it up, did a line bore, decked the block back to flat, and opened up my cylinder bores a bit with a hone.
Here's a picture of it at Motion Machine getting ready for the line bore. He had me send him all my case bolts (OEM) and the head bolts (ARP) I intend to use. He torqued everything up to spec before doing anything.
According to Dale:
Originally Posted by Motion Machine
Main Line
Dale had to deck down the case mating faces to get the main line bore to bore straight and true with everything torqued down.
Right half
Left half
Regarding the deck heights:
Originally Posted by Motion MachineOriginally Posted by Rasmus a.k.a 68CadillacSo rather than run an OEM MLS head gasket that's 0.60 mm (?) thick I'll probably end up running a JE Pro Seal 1.00 mm thick MLS head gasket to make up for the deck height decrease and lower the static compression from 8.96:1 to 8.64:1Originally Posted by Motion Machine
The cylinder bores were opened up to 3.9270" (99.746mm). Pistons are 3.9235" (99.657mm) diameter when measured 7mm up from the bottom of the skirt. Giving a piston to wall clearance of .0035". Jeremy from JE Pistons recommended the .0035" PTW clearance for my power goals, and this application, with this piston.
Here's a copy of the machine work spec sheet provided to me from Motion Machine.
Last edited by Rasmus; 09-17-2014 at 02:58 PM.
2.33 liters. Building a long rod, destroker. I'm using 'stroker' pistons that have had their wrist pins moved up 2mm so they can run a 83mm throw crank with stock rods. And instead running +4mm rods and a 75mm throw crank.
I need to get the heads down to a machine shop to resurface them. Plus I need to get all the old parts out of them so I can put some new shiny in. So the valves have to come out. So I made my own valve spring removal tool from a pipe my kid found in the desert.
Here's how it looks finished. I intend to chuck it up in the drill press and use the press's mechanical advantage to compress the valve springs. I also made that white topped 'table' to cradle the head. I figure I'll be doing a bit of head work and don't want to mess up the finish. That white top was a cheap HDPE cutting board I bought at a big box store.
How it looks with the head on my cradle and my valve spring removal tool in position.
Close up.
Oh, I did. New valves are going in. Just not Subaru's, but Subaru sized. I'm trying to stick by my personal rule not to show pictures of stuff I'm not immediately working on. I've learned to dislike build threads with a long list of parts that never get installed. So I'm trying to be the change I want to see in the world. I'm sure to get to valve lapping here in the new few weeks.
The tools I made worked perfect.
Head are all empty and ready to go to the machine shop for a resurfacing. I finally found a shop here in town that has a PCD (polycrystalline diamond) finish insert for their head resurfacing machine. Motor Mission Machine & Radiator. Took a while to fine one. Most shops were like, "Oh ya we do aluminum heads. We'll get it nice and smooth. PCD insert? Nah. We've got CBN (cubic boron nitride). Really nice finish. We've never had a problem with the heads we do. So bring 'em on in!".
"Thanks, man. Will do. Bye."
Contacting Jimmy over at Motor Mission
When I read that Jimmy could hit a specific target Ra but it would cost a bit more:We do have PCD inserts for the cutting head of our machine but we primarily use CBN.
Our machine is adjustable/variable for the spindle speed, traverse speed, and feed rates in order to achieve a desired finish such as your RA of 10.6.
However, we do not rely on the cutting inserts material make or the machines settings to achieve a specific RA.
In order to do that, we check the surface with our Mitutoyo profilometer whenever we are trying to meet a specific finish.
Once the RA is given by the profilometer we will sometimes hand lap the surface of a head/block by hand as the machined finish will sometimes be on the high side, too rough, and sometimes even on the low side, too smooth.
This is why we charge $75 per head whenever we are surfacing for a specific RA number rather than our normal surfacing charge of $47.50 per head.
I also contacted Dale again over at Motion Machine concerning the Ra target I should tell them to shoot for. Dale's spec sheet read that he got the blocks deck surface to 10.6 Ra. He said that 12 Ra or better should be the goal I give them.Perfect.
I'll bring my heads in on Monday next week.
Also right out of the Factory Service Manual:
Warp Limit: 0.035 mm (0.0014")
Grinding Limit: 0.300 mm (0.0120")
Standard height of cylinder head: 127.5mm (5.02")
Last edited by Rasmus; 09-20-2014 at 07:22 PM.
Measured the rod journal thicknesses. My micrometer states it's accurate to 0.0001". So I zeroed it up on my 2.0000" gauge block, and got to mic'n.
Journal 1 & 2 results
Journal 3 & 4 results
Journal #2 is the smallest at 2.0470"-2.0471"
Journal #1 is slightly bigger at 2.0470"-2.0471"
Journal #4 is next at 2.0471"-2.0472"
Journal #3 is the fat kid at 2.0472"-2.0473"
The factory service manual states that the limits for a "Standard Size" Rod bearing are 2.0466"—2.0472". So I'm definitely on the upper end of that scale. Which makes sense considered the crank is new and it's been nitrided.
Pulled out the rods so I could measure the big ends' bore sizes. My bore gauge states it's accurate to 0.00005". I labeled each of the rods so I could tell them apart. I zeroed it out in my micrometer which I set to 2.1500" and got to it.
Results. This bore gauge is super touchy. I have to hold my breath. Plus, I can see my heart beating when reading the measurements: "Tha'; +0.01500" ;Thump; +0.01505"; Tha'; +0.01500" ;Thump; +0.01505"
Rods B & C tie for narrowest at 2.1650"
Rod A is next at 2.1651"
Rod D is biggest at 2.1651"-2.16515"
So for a starting pair up without bearings
Rod B and C goes with Journal #2 and #1
Rod A goes with Journal #4
Rod D goes with Journal #3
Next I need to order up a standard size set of rod bearings from King and get to matching
Measured the crankshaft's bend. Service Manual limit is 0.0014". My dial gauge's graduations only measure to 0.001", but there's a bit of space between the the graduations so I can read to about 0.00025". Once I zeroed out the dial I couldn't get the dial to read anything else. So either this crank is bent less than 0.00025" or I don't know how to use a dial gauge. I'm gonna go with the former: dead-straight crankshaft.
are you going 1/2 over or 1 on the valves?
A well stocked beverage fridge is the key to any successful project.
Neither. +0. OEM size.
One thing that irks me about the 818R kit is that I paid an extra grand over the 818S kit and I get interior panels that don't fit. So, here we go making panels to get the foot-rest/coolant pass through tunnels to work.
Plus I'm waiting for rod bearings and a whetstone (for piston rings) to arrive so I might as well tackle this. Here's the panel I made.
Got ribbed for bragging how few cleco's I used on my last panel install, so I when full kit-airplane-tarded. Even missed a hole.
Final install.
Tunnel side.
Looks good, I do have a template made for a one piece plate that will cover that whole area, I just have to ask my guy cut it. When I verify fitment I will send it over to all the R boys.
A well stocked beverage fridge is the key to any successful project.
I have been looking at that piece for a couple of weeks thinking about how to finish it. There are a lot of pieces that came in the kit that don't fit the R model and a lot that could have been included.
Finished the passenger-side footrest/coolant tunnel.
Who likes speed holes and has two thumbs?
THIS GUY!
After querying the forum about the purpose of the door hinge mounts on my 818R and getting the answer that they served no purpose.
I removed them.
I had to replate in the missing section but all the new metal I had on hand was too thick for this purpose. I did, however, have some left over metal from my 1968 Cadillac Coupe deVille's rear subframe which was just the perfect thickness. So I cut it up. Ground off the rust and welded it on.
Came out nice. Drilled a few holes. (towel for contrast)
"Drilled" two large holes on the structure to which the front firewall attaches. Passenger side pictured.
Mass-wise:
Less 1352g - Door hinge mounts and a bit of extra bar
Plus 110g - '68 Cadillac end plates
Less 120g - 18 rice-a-riffic speed holes in body mounting tabs
Less 172g - 2 large holes in front firewall structure
Less ???g - metal lost to cut off wheels, grinding, and plasma cutter
Plus ???g - metal gained from welding filler wire
Altogether removed 1.534 kg of mass.
Plus the 818's a little bit Cadillac now.
Last edited by Rasmus; 09-28-2014 at 11:06 AM.
Hahaha, I predict your obsession with weight savings is going to become a running joke in other people's threads (all good natured of course). But I guarantee you'll end up with a finished car below 818kgs while the rest of us are always over. I'm trying not to go over 1900lbs on my S.
Keep up the weight loss program Rasmus,
I'm not going as high as the bar you set for weight loss, but lower weight is good even for us S guys. I've been dieting as much as I can right along. It all adds up as you are continually pointing out.
More! MORE!!
Good job. Keep it up and thanks for documenting it. Will save me a lot of time...
On the issue of weight: What is the perfect balance (weight bias) for a mid-engined car like this? I know it is wrong-headed thinking, but with past front-engined cars it's always been an effort to shift weight to the rear. With the 818 I think that I should be moving some weight to the front. Not lightening the front at all, but moving things like the battery to the front. In my dreams I see all the cooling in the rear, which will dramatically change the weight bias.
BTW, I was at Lime Rock on Thursday and went out in a friend's '04 STi that is race prepared. He just put the last of the bushings in the rear. He had been putting it off since it requires pulling the rear subframe which requires a complete rear suspension/drivetrain dis-assembly. The car was rotating like a Mo-Fo. Way more than mine. We put the rear sway bar to full-soft and it handled great... as great as a Subie can.
Then I went out in a Lotus Evora S. Though not really faster, it was so composed and smooth and faster through some corners that it unnerved me at the beginning.
I can only imagine what the 818 will be like with 8:1 power rather than the lesser power combined with great handling that I just experienced in the Evora or the heavy, poor handling Sti's.
Last edited by Scargo; 09-27-2014 at 06:02 AM.
"Scotty, give me all the TRACTION she's got!" Pictures of what I drive till 818R is finished
Track Car Journal on IWSTI (with build info)
OK, no full size windshield for you!
While you're deleting brackets, who knows what this bracket is for?
mystery bracket.jpg
John Huft -- #154 R
Yes, yes, and yes!
My kit arrives soon, and that may well be the very first thing I do. Chop that big ugly thing off! I know FFR is considering bringing it back to their mules and testing with it some more, but I figure if ever I wish to consider a front bar, I'm not going to use the Subie part anyway so a scratch built design would be in the works.
Best,
-j
So you aren't running the FSB? Do you think the weight savings will overcome the benefit in cornering/weight transfer or do you just not feel this car needs a FSB? To me, it seems important to have a front bar on a mid-engined car to help transfer more weight to the front during cornering.... at least, that is how I understand it to work. IE in front engine, FWD cars, you often run no front bar, and a huge rear bar to help transfer weight to the rear to even out the tire loading and let the rear tires pitch in their fair share of the work.
If I recall correctly the ideal weight distribution should be around 40:60 (front:rear). I know the high end Solo cars are prepped this way. Weight distribution doesn't tell the whole story though. You also want a low moment of inertia (a.k.a the Flywheel Effect or how difficult it is to turn an object of a given mass). That is, most of the weight lumped at the 40:60 point in the 'center' of the car. Any weight you can move from overhanging past the front or rear axles, the better. Get it all between the axles.
The ideal car layout to get this is a Mid-engined, Rear Wheel Drive car. Which is one of the reasons I purchased this kit.
Of course once you get that low moment of inertia with 40:60 weight distribution you end up with a car that's more than happy to rotate. One that'll snap oversteer if you treat it wrong.
So stop thinking about putting that large tank, full of water, 22 inches out behind the rear axle and leave it where Jim Schenck and company designed it: 12 inches out in front of the front axles leaning forward so it's mass is even lower to the ground.
Last edited by Rasmus; 09-27-2014 at 09:13 AM. Reason: engrish bee reel hard, yo
40:60 and low moment of inertia is not all. You need good corner weights too and a hell of a great gearbox with perfect ratios. Now we're talking.
Frank
818 chassis #181 powered by a '93 VW VR6 Turbo GT3582R
Go-karted Aug 5, 2016 - Then May 19+21, 2017
Tracked May 27/July 26, 2017
Build time before being driveable on Sep 27, 2019: over 6000h
Build Completed Winter 2021
There are lots of pieces of the frame that I always thought could have been cored out for decent weight savings. Its all done on a laser so the labor is zero cost, just a little more time to cut.
Zero Decibel Motorsports
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You are right, I had it backwards!
Removed the front sway bar mounts. Probably had to grind off an extra 20-30 grams of weld and plate that where still on the frame after cutting. So we'll call it 900 grams removed.
Blew a hole through the frame with the plasma cutter doing it. Had to weld it up and then grind that down.
Turned out nice.
Fast Cars, Fast Women, Fast Haircuts!
Looks much better without those brackets!
Independent suspension!
John Huft -- #154 R
Independent indeed!!
Finally you changed your thread's title.
Scargo, Rasmus is not dieting, he's anorexing.
Frank
818 chassis #181 powered by a '93 VW VR6 Turbo GT3582R
Go-karted Aug 5, 2016 - Then May 19+21, 2017
Tracked May 27/July 26, 2017
Build time before being driveable on Sep 27, 2019: over 6000h
Build Completed Winter 2021
If you make 95lbs, you'll be able to wrestle 5th graders and totally dominate!
please remove battery tray and weigh. a lightweight battery should easily bolt direct to frame
A well stocked beverage fridge is the key to any successful project.