Nikolai
TY 4 Stroke God
That’s a great tip, I’ll do that!
Nikolai
TY 4 Stroke God
Took a shock apart tonight, not much to them.
The shaft is 1.125 solid aluminum, 7” long and weighs 0.77 lbs. I was going to make 0.60” spacers to go over the shaft to shorten the shocks but I’m going to call around and see what a machine shop will charge to just cut 0.60” off the end and drill the hole a little deeper so I can tap some more threads. The bolt that holds the valve stack is 3/8-24 threads. I really wish I had the ability to drill the shaft out somehow, there’s no reason that needs to be solid aluminum, you could get the shock weight way down.
The shaft is 1.125 solid aluminum, 7” long and weighs 0.77 lbs. I was going to make 0.60” spacers to go over the shaft to shorten the shocks but I’m going to call around and see what a machine shop will charge to just cut 0.60” off the end and drill the hole a little deeper so I can tap some more threads. The bolt that holds the valve stack is 3/8-24 threads. I really wish I had the ability to drill the shaft out somehow, there’s no reason that needs to be solid aluminum, you could get the shock weight way down.
Nikolai
TY 4 Stroke God
I cut the shafts down with my bandsaw and was able to crudely rig them in my small lathe and turn them down to the correct length. Not the most accurate but it saves me some money at the machine shop. Dropping them off at a local machine shop tomorrow to have them faced flat and the holes drilled 0.50” deeper so I can tap additional threads.
Nikolai
TY 4 Stroke God
Back of secondary sheave when open. Hub flush with sheave.
Clearance is tight with correct offset but it does clear.
About .010 clearance to the flange
Only part I’m not happy with is having to use the Yamaha steel flanges on the jackshaft but it is what it is. I wanted to use a nice aluminum one but they are all too large and stick into the tunnel too far that my track would hit them. Thought about using standard triangle flanges (52 MSTR) but they use the spherical bearings and that doesn’t seem as strong to me as using Yamaha’s cylindrical bearing and squared flanges.
Any input on the flanges? Are the triangle flanges and spherical bearings just as good?
Clearance is tight with correct offset but it does clear.
About .010 clearance to the flange
Only part I’m not happy with is having to use the Yamaha steel flanges on the jackshaft but it is what it is. I wanted to use a nice aluminum one but they are all too large and stick into the tunnel too far that my track would hit them. Thought about using standard triangle flanges (52 MSTR) but they use the spherical bearings and that doesn’t seem as strong to me as using Yamaha’s cylindrical bearing and squared flanges.
Any input on the flanges? Are the triangle flanges and spherical bearings just as good?
- Joined
- Nov 11, 2016
- Messages
- 548
- Location
- Cedarville, MI
- Country
- USA
- Snowmobile
- Yamaha, Polaris, AC and Ski-Doo
- LOCATION
- Cedarville, MI
- WEBSITE
- www.thunderproductsclutching.com
Anytime bud!
Nikolai
TY 4 Stroke God
Got the jackshaft jigged in place. Yamaha center to center spec is 267-270mm. I double checked my tool I made and it was 269mm so I ovaled the hole just a fuzz and machined a tight fitting washer to weld on so the center to center is right in the middle at 268.5mm. Ready now to start doing the plating for the bearing flanges and brake caliper.
With the secondary machined the chaincase can be against the frame tubing.
With the secondary machined the chaincase can be against the frame tubing.
Here are specs you will need for doing those shocks. Since you shortened them you will have to experiment with amount of oil to add. It will be less than the 200cc shown. I would do them for you for free if you want. I have learned alot from your builds and am looking forward to doing a Turbo Phazer build with Cat front geometry some day. Your Posts will be invaluable. Just need to learn how to TIG weld better myself! Hope this helps.
| Ski | ||||
| Shock Part # | IFP Depth | Nit Pres (PSI) | Service Kit | Rebuild Kit |
| 7041255 (F) | 1.700" | 200 | 10-02001 | 11-02004 |
| 7041266 (F) | 2.000" | 200 | 10-02001 | 11-02004 |
| 7041291 (F) | 0.728" | 200 | 10-02001 | 11-02004 |
| 7041292 (F) | 0.728" | 200 | 10-02001 | 11-02004 |
| 7041346 (F) | 0.728" | 200 | 10-02001 | 11-02004 |
| 7041349 (F) | 0.616" | 200 | 10-02001 | 11-02004 |
| 7041385 (F) | 1.142" | 200 | 10-02001 | 11-02004 |
| 7041401 (F) | 1.139" | 200 | 10-02001 | 11-02004 |
| 7041474 (F) | 0.728" | 200 | 10-02001 | 11-02004 |
| 7041490 (F) | 0.600" | 200 | 10-02001 | 11-02004 |
| 7041494 (F) | 1.000" | 200 | 10-02001 | 11-02004 |
| 7041536 (F) | 1.000" | 200 | 10-02001 | 11-02004 |
| 7041537 (F) | 2.000" | 200 | 10-02001 | 11-02004 |
| 7041540 (F) | 1.000" | 200 | 10-02001 | 11-02004 |
| 7041545 (F) | 0.675" | 200 | 10-02001 | 11-02004 |
| 7041593 (F) | 1.000" | 200 | 10-02001 | 11-02004 |
| 7041612 (F) | 1.000" | 200 | 10-02001 | 11-02004 |
| 7041692 (F) | 1.000" | 200 | 10-02001 | 11-02004 |
| 7041697 (F) | 1.000" | 200 | 10-02001 | 11-02004 |
| 7041747 (F) | 0.950" | 200 | 10-02001 | 11-02004 |
| 7041801 (F) | 1.110" | 200 | 10-02001 | 11-02004 |
| 7041803 (F) | 0.900" | 200 | 10-02001 | 11-02004 |
| 7041811 (F) | 1.100" | 200 | 10-02001 | 11-02004 |
| 7041838 (F) | 1.150" | 200 | 10-02001 | 11-02004 |
| 7041848 (F) | 1.050" | 200 | 10-02001 | 11-02004 |
| 7041881 (F) | 0.800" | 200 | 10-02001 | 11-02004 |
| 7041926 (F) | 1.050" | 200 | 10-02001 | 11-02004 |
| 7041971(R) | 2.100" | 10-03002 | 11-03002 | |
| 7041972(R) | 2.100" | 10-03002 | 11-03002 | |
| 7041976 (R) | 6.560" | 280 | 10-03001 | 11-03004 |
| 7041978 (R) | 6.520" | 10-03001 | 11-03004 | |
| 7041990 (R) | 6.780" | 200 | 10-03001 | 11-03004 |
| 7042059 (R) | 7.460" | 10-03001 | 11-03004 | |
| 7042072 (W) | 2.500" | 200 | 10-27006 | 11-27006 |
| 7042109 (R) | 6.360" | 200 | 10-03004 | 11-03006 |
| 7042111 (R) | 1.900" | 10-03002 | 11-03002 | |
| 7042112 (R) | 1.900" | 10-03002 | 11-03002 | |
| 7042126 (R) | 6.840" | 200 | 10-03001 | 11-03004 |
| 7042146 (R) | 6.570" | 200 | 10-03004 | 11-03006 |
| 7042147 (R) | 7.960" | 10-03001 | 11-03004 | |
| 7042180 (W) | 2.000" | 200 | 10-27006 | 11-27006 |
| 7042183 (R) | 6.950" | 200 | 525083-040 | 11-03006 |
| 7042211 (R) | 5.510" | 10-03004 | 11-03006 | |
| 7042215 (R) | 6.210" | 200 | 10-03004 | 11-03006 |
| 7042249 (R) | 6.510" | 10-03004 | 11-03006 | |
| 7042258 (R) | 6.920" | 200 | 525083-040 | 11-03007 |
| 7042280 (W) | 2.000" | 200 | 10-27006 | 11-27006 |
| 7042293 (W) | 2.000" | 200 | 10-27002 | 11-27004 |
| 7042296 (W) | 2.000" | 200 | 10-27006 | 11-27006 |
| 7043082 (R) | 6.270" | 280 | 525083-040 | 11-03007 |
| 7043083 (R) | 7.770" | 525083-040 | 11-03007 | |
| 7043090 (R) | 6.540" | 200 | 525083-040 | 11-03007 |
| 7043095 (W) | 2.250" | 200 | 10-27006 | 11-27006 |
| 7043102 (W) | 2.250" | 200 | 10-27006 | 11-27006 |
| 7043103(W) | 2.250" | 200 | 10-27006 | 11-27006 |
| 7043141 (F) | 1.420" | 200 | 10-02016 | 11-02025 |
| 7043194 (W) | 2.250" | 200 | 10-27006 | 11-27006 |
| 7043206 (W) | 2.250" | 200 | 10-27006 | 11-27006 |
| 7043233 (W) | 95 cc | 215 | 10-27004 | |
| 7043245 (R) | 6.920" | 200 | 525083-040 | |
| 7043268(F) | 2.550" | 200 | ||
| 7043269 (F) | 2.550" | 200 | ||
| 7043315 (R) | 5.750" | 11-03014 | 11-03014 | |
| 7043345 (W) | 200 | 10-27001 | 11-27003 | |
| 7043357 (R) | 5.750" | 11-03014 | 11-03014 | |
| 7043364 (W) | 95 cc | 220 | 10-27004 | |
| 7043404 (W) | 200 cc | (225psi main, 325psi res.) | 10-27004 | |
| 7043429 (W) | 6.875" | 200 | 10-27003 | |
| 7043436 (W) | 2.000" | 200 | ||
| 7043446 (R) | 5.750" | 11-03014 | 11-03014 | |
| 7043447 (R) | 5.750" | 11-03014 | 11-03014 | |
| 7043452 (W) | 2.125" | 10-27001 | 11-27005 | |
| 7043490 (W) | 95 cc | 225 | 10-27004 | |
| 7043534 (W) | 2.000" | 10-27001 | 11-27003 | |
| 7043568 (W) | 2.000" | 200 | 10-27001 | 11-27003 |
| 7043599 (W) | 2.000" | 10-27001 | 11-27003 | |
| 7043631 (F) | 1.750" | 200 | 10-02016 | 11-02025 |
| 7043636 (W) | 2.000" | 200 | 10-27001 | 11-27003 |
| 7043650 (W) | 2.000" | 200 | 10-27001 | 11-27003 |
| 7043725 (F) | 1.070" | 200 | 10-02016 | 11-02025 |
| 7043730 (W) | 2.250" | 200 | 10-27001 | 11-27003 |
| 7043731 (W) | 2.00" | 200 | 10-27001 | 11-27003 |
| 7043749 (W) | 2.00" | 200 | 10-27001 | 11-27003 |
| 7043757 (W) | 2.00" | 200 | 10-27001 | 11-27003 |
| 7043827 (W) | 2.00" | 200 | 10-27001 | 11-27003 |
| 7043835 (W) | 7.000" | 200 | 10-27003 | |
| 7043861 (F) | 6.650" | 200 | ||
| 7044009 (W) | 2.250" | 10-27009 | 11-27010 | |
| 7044120 (W) | 2.000" | 200 | 10-27001 | 11-27003 |
| 7044137 (W) | 2.000" | 200 | 10-27005 | 11-27005 |
| 7044224 (W) | 2.250" | 200 | 10-27009 | 11-27010 |
| 7044288 (W) | 2.000" | 200 | 10-27001 | 11-27003 |
| 7044384 (W) | 2.000" | 200 | 10-27005 | 11-27005 |
| 7044388 (F) | 2.300" | 150 | ||
| 7044298 (W) | 6.800" | 200 | 10-27003 | |
| 7044302 (W) | 2.000" | 200 | 10-27007 | 11-27007 |
| 7044343 (W) | 2.000" | 200 | 10-27005 | 11-27005 |
| 7044388 (F) | 2.300" | 150 | ||
| 7044518 (F) | 7.250" | 200 | ||
| 7044564 (w) | 2.000" | 200 | 10-27005 | 11-27007 |
Nikolai
TY 4 Stroke God
Thanks, I have the Polaris chart and I spoke with Fastrax Motorsports before I tore them apart, they did the original rebuild on them years ago and have a lot of experience with the WE air shocks. They told me the same thing, start with 95cc of 3wt oil and 225 psi nitrogen. If shocks are too soft then add 1cc of oil at a time, if too stiff then subtract 1cc of oil at a time. Luckily these are super fast to work on compared to my RZR shocks, no IFP or resi to mess with. I’m guessing I’ll have to play around them a few times to get them setup correctly.
I wrote down the valve stacks as well in case I need to make valving changes. I’ve read that sometime around 2008 Polaris used a different(better) piston, I have no idea if I have those or not. If you saw a picture would you be able to tell?
I wrote down the valve stacks as well in case I need to make valving changes. I’ve read that sometime around 2008 Polaris used a different(better) piston, I have no idea if I have those or not. If you saw a picture would you be able to tell?
Nikolai
TY 4 Stroke God
I realized something really stupid today that I did years ago. I had cut off the end of jackshaft and cut a groove to retain the gear with snap ring. But over the last few years it never occurred to me until yesterday that the Jack shaft would just lose all the chaincase fluid out the clutch side since it’s hollow. Definitely felt like an idiot last night. Thought about plugging it with a rubber plug. Then measured the ID and it’s .503 which is the perfect size for an M14x1.5 tap which is the same threads as the clutch bolt. So I’m thinking at this point I’ll just tap the jackshaft and retain the upper gear with an M14-1.5x30 bolt and use thread sealant on the bolt threads.
Couldnt you just push a Aluminum plug into there? Lighter and Snapring works so.
Nikolai
TY 4 Stroke God
I could, that’s a good idea and easy to do. I’ve been wondering the last few days if the snap ring would be strong enough? I don’t think there should be much lateral force on the snap ring. Shouldn’t be any from the gear, maybe only from the secondary clutch opening?
74Nitro
VIP Member
- Joined
- Feb 18, 2013
- Messages
- 5,265
- Age
- 52
- Location
- Dublin Ontario
- Country
- Canada
- Snowmobile
- 2019 Sidewinder LTX
74Nitro
VIP Member
- Joined
- Feb 18, 2013
- Messages
- 5,265
- Age
- 52
- Location
- Dublin Ontario
- Country
- Canada
- Snowmobile
- 2019 Sidewinder LTX
Part number for that rubber fitting is 82M-17699-00-00
Nikolai
TY 4 Stroke God
Thanks! That’s an easy fix.
Nikolai
TY 4 Stroke God
My bent 3/4 frame tube is not vertical and made the drivetrain plate slightly more difficult. I drilled & tapped some holes in the jig and bolted a couple pieces of 1” angle to it for my drivetrain plate to rest against. I put a straight edge across the lower frame tubes and then a square on top of that, and then shimmed behind the bottom of the 1” angle pieces until they were square with the lower frame tubes. Now when I go to fit the drivetrain plate I can clamp it to the angle for welding and it will be vertical.
Had to make a paper copy of the brake caliper to get the mounting bolt locations for proper template.
Drivetrain plate will be a single piece of .090 4130 plate that both flanges and the brake caliper bolt to.
I’m unsure at this point how rigid a flat piece of plate will be. 0.090 is fairly thick and once it get welded and shrinks it should be stiff. If it does flex then I’ll weld some additional tube or plate in to stiffen it up but I want to wait and see. Trying to come in under 1.25 lbs for the plating on this side. That gives me .75 lbs for the chaincase side.
Had to make a paper copy of the brake caliper to get the mounting bolt locations for proper template.
Drivetrain plate will be a single piece of .090 4130 plate that both flanges and the brake caliper bolt to.
I’m unsure at this point how rigid a flat piece of plate will be. 0.090 is fairly thick and once it get welded and shrinks it should be stiff. If it does flex then I’ll weld some additional tube or plate in to stiffen it up but I want to wait and see. Trying to come in under 1.25 lbs for the plating on this side. That gives me .75 lbs for the chaincase side.
