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Old 01-19-2016, 02:10 AM   #1
MaxPF
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A K5 Cummins Conversion: The saga continues...

OK, I'm gonna preface this build thread with an admission: It's a shameless rip-off Nick's (mosesburb) build thread, in that it will be told in quasi-storylike fashion. It actually helps because this saga spans some 9 years, from the time I got the truck to now. Nick says I owe him royalties for said shameless rip, so I guess that means I owe him a beer

Way back in 2006 I acquired a white 1991 K5 Blazer with a TBI 350 and a blown-up 700R4 automatic.. Actually, by this time GM was calling it a V1500, which reflected the fact that it was an old body style vs the new body pickups that came out in 1988. The 4WD new body trucks got the "K" designation, so the old body 4WDs got the "V" designation. The "1500", then as now, denoted a 1/2 ton chassis. It was a Silverado package truck, which meant power-everything and alloy wheels. Here's what she looked like back in the day:





As you can see, it was clean and straight. With a rebuilt trans it ran good as well, and it became my hunting and camping rig:



5-star hunting accommodations:



Then, one day it decided to spring a waterfall out of the drivers side head gasket With a truck I find it's easier to pull the engine to replace head gaskets, so that's what I did:



Pics with the heads removed:



Doesn't look to bad, eh? Well, take a closer peek at the coolant passages, Apparently, the PO didn't believe in cooling system maintenance. When I removed a freeze plug, this is what I saw:





Yuck! It didn't help that this happened right after new years in January of '07 and it was miserably cold and windy Since the oil pan leaked a bit I decided to pull it off and take a peek in there as well. It got worse:





It seems routine oil changes were also neglected. All that reddish-brown stuff is some kind of varnish-like residue. It was thick and hard (phrasing! ) and I have never seen anything like it. That said, the engine had good oil pressure, ran good, didn't burn oil, and passed emissions, so I put it back together. I flushed the block, installed new freeze plugs, and put the pan back on with a new gasket:



Likewise, I cleaned and re-assembled the heads and put them back on with new head gaskets:





I put the motor back in the truck and it ran great. I proceeded to wheel it, and at some point incurred some body damage









Now that I am faced with fixing the accumulated body damage I wish I had never taken the truck out on those trails without a lift. Live and learn, and boy did I learn!

To be continued...
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1991 V1500 Blazer (Silverado), 5.9L 12V P-pumped Cummins (5x .012 sac injectors, #6 fuel plate, WH1C with external 38mm wastegate running 30psi), NV4500 with 1-⅜" input shaft, SBC Con-O clutch, NP205, HAD, 4.10 D61/14BFF spinning 37" Nitto Exo's

"I got a shotgun, a rifle, and a four wheel drive and a country boy can survive."
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Old 01-19-2016, 02:16 AM   #2
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Re: A K5 Cummins Conversion: The saga continues...

I kinda skipped past an intermediate step: my first axle swap in the Blazer. This happened in October 2006. I wanted to eventually run 37" tires and I figured the 10 bolt rear wouldn't appreciate it too much. I found a 6 lug 9.5" 14 bolt for a reasonable price, stripped it completely apart, and got it ready to swap:



After re-gearing, new bearings, and paint it got swapped in:





Now, I know what you're thinking: Big f**kin' deal, right? As far as the axle itself you'd be right as it's nothing special. However, this swap marked the beginning of The Slippery Slope

Sometime around mid-January of 07 I found a pair of 10b E-Lockers for sale on Ebay for a smokin' price Since I got such a good deal on them (one for my truck, one for my friend Todd's Jeep) I figured why not get some traction aids for the 14b with the savings. Todd, who also decided to run a 6-lug 14b in his Jeep, agreed. A few days later a pair of these arrived:





A couple months later I added comms gear in the form of an Icom 2720H dual band ham transceiver and a Rat Shack TRC-485 CB radio along with a Larsen dual band antenna for the ham rig and a Wilson 1000 for the CB:





With newfound traction and comms I was able to tackle harder trails, and more body damage ensued i really, REALLY needed bigger tires, and to fit them I needed a lift.....
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1991 V1500 Blazer (Silverado), 5.9L 12V P-pumped Cummins (5x .012 sac injectors, #6 fuel plate, WH1C with external 38mm wastegate running 30psi), NV4500 with 1-⅜" input shaft, SBC Con-O clutch, NP205, HAD, 4.10 D61/14BFF spinning 37" Nitto Exo's

"I got a shotgun, a rifle, and a four wheel drive and a country boy can survive."
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Old 01-19-2016, 02:19 AM   #3
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Re: A K5 Cummins Conversion: The saga continues...

Most guys increase tire size progressively: 33's to 35's to 37's and so on. I started with 32's when I bought the truck, and put 33's on it shortly thereafter. 33's are the biggest a Blazer will take without a lift. Like many others, I decided at some point I needed to go bigger. I ended up buying 37" Dick Cepek Radial FC-II's and mounting them on 15" Black Soft-8 steelies. Now, thesde tires wouldn't fit on my truck without a lift, but I already had a plan.

I scored a set of 2-1/2" lift Rancho prerunner springs from another wheeler.



2-1/2" wasn't quite tall enough, so I built a pair of 1 inch "zero-rates"



In order to avoid cutting the rear part of my fenders I moved the axle forward about 2 inches. Here's the result, with the then-new Cepeks mounted up:



To lift the rear I used a shackle flip. A popular easy flip was the "Echobit" flip, which was a bracket that converted the stock tension shackle setup to a compression shackle setup. It required no cutting or removal of stock brackets and gave about 6 inches of lift. Since old Blazers usually suffer from saggy butt syndrome the extra bit of rear lift is welcome. I built my own Echobit-type brackets:



And the final result:



With big tires and wheeling I eventually ended up with the dreaded frame cracks around the steering box bolt holes. I welded the cracks up and welded some thick washers around the holes to hopefully prevent a recurrence:

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1991 V1500 Blazer (Silverado), 5.9L 12V P-pumped Cummins (5x .012 sac injectors, #6 fuel plate, WH1C with external 38mm wastegate running 30psi), NV4500 with 1-⅜" input shaft, SBC Con-O clutch, NP205, HAD, 4.10 D61/14BFF spinning 37" Nitto Exo's

"I got a shotgun, a rifle, and a four wheel drive and a country boy can survive."
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Old 01-19-2016, 02:29 AM   #4
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Re: A K5 Cummins Conversion: The saga continues...

One thing everyone discovers about a lift and big tires is the effect it has on fuel mileage. Now, K5s aren't exactly the most aerodynamic design ever created, and in stock form I got 13-14MPG. With the lift and 37's I was getting consistent 11MPG tanks

From 1982-on, K5's were available with 6.2L diesels. They aren't powerhouses, but they are known for getting great fuel mileage. I had been on the lookout for one when a stroke of luck hit. My roommate at the time found a 1991 1 ton 4WD Chevy truck that was being sold by a county flood control department. He wanted the truck for the Dana 60 front axle, but I was interested because it had a 6.2L diesel engine! The best part was the fact that, being a flood control vehicle in AZ, it never had many miles put on it; the truck only had 50,000 original miles! We made a trade: the 6.2L diesel for my TBI 350. Within a couple days the truck was minus a front axle and this:



I had to pull the intake and do some cleanup. Mice had made a home in the valley, chewing through the supply hose to the injector pump and leaving all kinds of biohazard behind:



I got it all cleaned up, put back together, bumped the timing up a bit, and swapped it into my truck. Small block to 6.2 swaps are super easy since the engine drops right in using the same motor mounts and the trans bolts right up. I also swapped in the bigger diesel radiator and shroud, hydroboost, second battery tray, diesel instrument cluster, a Racor 10 micron filter assembly, and a few other odds and ends. Here's the result:





Not long after the swap it went on it's first off-road adventure as a diesel-powered K5. I went on a run to Crown King with members of the Hummer gang (yes, they actuallly wheel their H3's and H2's!). We even had some Jeep guys along for the ride, as well as an 80's Ramcharger:



The 6.2 ran great. This particular engine was the last year that the 6.2 was offered, and at 165HP it was the highest horsepower J code 6.2 made. 165HP may not sound like much, but thanks to the extra helping of torque vs the 350 it was pretty spry.

This run was done at the beginning of March 2009, and up near Crown King the elevation was high enough that there were still patches of snow on the ground:



Around the time we hit the first traces of snow I snapped a couple pics of my gauges. The temp ran lower than the gas 350:



The best gauge pic is this blurry pic of the fuel gauge. Note that this is with about 90 miles on the tank, and 30 or so at low speed off road:



Gotta love the efficiency of a diesel engine!

We finally roll into the thriving metropolis of Crown King and stop in the local watering hole for a hot burger and a frosty beer:



Well, that's it for now. Stay tuned for our next episode of "How Max ends up with a 12V Cummins in a K5 Blazer".
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1991 V1500 Blazer (Silverado), 5.9L 12V P-pumped Cummins (5x .012 sac injectors, #6 fuel plate, WH1C with external 38mm wastegate running 30psi), NV4500 with 1-⅜" input shaft, SBC Con-O clutch, NP205, HAD, 4.10 D61/14BFF spinning 37" Nitto Exo's

"I got a shotgun, a rifle, and a four wheel drive and a country boy can survive."
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Old 01-19-2016, 02:42 AM   #5
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Re: A K5 Cummins Conversion: The saga continues...

When we last left our intrepid swapper he was enjoying a burger and beer in Crown King after enjoying the fuel-sipping economy of a 6.2L GM diesel. At that point, I should have simply been happy with the swap, cleaned up a few odds and ends (i.e. wiring), and started on some bodywork to fix the previous wheeling damage. Had I done this I would have saved a bunch of money and time, and been using my truck for the last few years rather than working on it.

By this point my interests in wheeling and how I wanted to use my truck had changed dramatically. I was no longer interested in spending a day wheeling stupidly difficult terrain, only travelling a mile or three, damaging my truck, and not really going anywhere or doing anything. I preferred the type of wheeling I had just completed with the Hummer and Jeep guys, more of the scenic exploration over moderate terrain. I also wanted it to remain a camping and hunting rig - a RELIABLE camping and hunting rig! For these uses the increased range and economy were very welcome, but at 165HP I had lost 35HP over the gas engine, and it was most noticeable on mountainous highways. I had already researched adding a turbo, and in fact had laid my hands on a Holset HY-35 as well as a set of 6.5 turbo exhaust manifolds. I was also concerned about the future reliability of the 4L60 trans, so I had obtained a late model, aluminum-top SM465 manual transmission, but the trans swap wouldn't happen until after the 6.2 was turbo'd and had the fuel turned up.

Three things happened that would change my plans for the 6.2. The first was Nick's suburban build (the bastidge!!) This made me think a Cummins swap into my Blazer would be uber-cool, but I figured it would be too expensive and so I didn't really consider it too seriously at the time.

The second thing was another friends decision to do a 12V swap into his 1991 square body crew cab Chevy to replace his gas-swilling 454. Now, normally a Cummins swap donor comes in the form of either a complete Dodge truck, or an engine pulled from a Dodge truck, and the price tags are usually north of two grand for a real high miler and three+ for something between 100k and 150k miles. Minimum. Often they are even more.Then we found a guy who scraps out medium duty delivery trucks and busses and had P-pumped Cummins engines that he had pulled. And he was asking only a grand for a good runner! We went down there, fired one up, and it purred like a very loud kitten. Good oil pressure, minimal blowby, immediate starting, everything you look for, Cash changed hands and my friend hauled his prize home..

Which brings me to the third thing: I had just got my tax return from Uncle Sam, and it was way more than enough for one of these MD engines. I already had the Cummins itch, and now I had money burning a hole in my pocket. With a complete lack of forethought or planning I piled into my friend's crew cab, headed down to the guys yard, listened to another engine run, and traded money for a half ton of Cummins:





The first thing you notice is that it is BIG. The second is that it is incredibly scuzzy. It took a whole day of degreaser, oven cleaner, pressure washer, and elbow grease to get it cleaned up. The oven cleaner, pressure washer, and elbow grease also blew off much of the paint, so I had to paint it. I sprayed 5 Star Xtreme epoxy primer on first, since there was a fair bit of bare metal showing after the cleanup job. The paint used is Western's 3rd Dimension acrylic urethane in genuine Cummins beige (for future reference, the 3rd Dimension number for that color is DS-7366-A). I used 3rd dimension because I already had the reducer and hardener from another project, it's fairly durable, and it only costs $20 a pint.





Those who notice little details will see that the pic of the engine in the bed of the crew cab has a front sump and an SAE #2 flywheel housing, while the painted engine has a rear sump and a Dodge second-gen flywheel housing. The pan on a Cummins is reversible, but the oil pickup isn't. Getting a rear sump pickup required a trip to the local Freightshaker parts joint and trading the counter guy a sizeable wad of cash for the pickup I needed. The flywheel housing came from a guy on 4BT swaps and was much more reasonably priced. I also installed a new pan gasket and replaced the rear main seal, but that wouldn't be the last of the repairs needed before the engine could be installed.

When I had the pan off to rotate it and swap the pickup I decided to check the main and rod bearings. The mains were in excellent shape.



The rod bearings, not so much...



You can see the bearing material is completely worn off in one area of the top bearing half, exposing the copper layer beneath, while a strange mark is eroded into the other half (looks like a three pointed star). I did some research and found that the exposed copper is likely due to lugging the engine excessively, while the strange mark is cavitation erosion. The cavitation erosion is apparently common on Cummins rod bearings after enough hours are on the engine and don't seem to do any harm since that portion of the bearing is lightly loaded.. The lugging damage is not normal, but is expected from the types of folks who drive busses and delivery vans Anyway, the crank surfaces were fine so I replaced the rod bearings with gen-u-ine Cummins replacements.

The next item that needed attention was the turbo. It had lost it's thrust bearing causing the compressor wheel to get cozy with the compressor housing. That required another significant outlay of cash, this time to the local turbo parts shop:





As my wallet gets bled dry I keep telling myself "This is fun!"

Stay tuned for the next episode called "Ramen noodles and Cummins mods"...
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1991 V1500 Blazer (Silverado), 5.9L 12V P-pumped Cummins (5x .012 sac injectors, #6 fuel plate, WH1C with external 38mm wastegate running 30psi), NV4500 with 1-⅜" input shaft, SBC Con-O clutch, NP205, HAD, 4.10 D61/14BFF spinning 37" Nitto Exo's

"I got a shotgun, a rifle, and a four wheel drive and a country boy can survive."
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Old 01-19-2016, 02:57 AM   #6
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Re: A K5 Cummins Conversion: The saga continues...

In the last installment I was talking about mods and repairs to get the engine ready for the swap. I forgot to show pics of the inside of the crankcase and rocker boxes. I don't know how many miles this engine had on it, but it definitely had it's oil changed at proper intervals. In fact, it was likely changed more often than needed judging by the level of cleanliness:





Of course, while I had the valve covers off I went ahead and adjusted the valves.

I also bumped the timing from 12.3° to 15°. This requires removal of the injector lines and #1 delivery valve holder from the injector pump. Removal of the timing cover isn't necessary, but it definitely made the job easier:



I won't go into details, but suffice it to say that plunger lift (indicated with the dial indicator) correlates to a certain amount of timing advance. It's a pretty simple procedure really. By advancing the timing I gained power AND economy. A win-win.

In my previous post where I showed a pic of a turbo rebuild kit there were also steel braided teflon AN hoses and a bag of fittings. The fuel, turbo oil, and IP oil feed lines were pretty beat, and stock Cummins replacements were ridiculously high priced, so I replaced them with lines I had built. This required converting the fuel and turbo oil feed fittings to AN, and even then it was still substantially cheaper than buying just the hoses from Cummins. Here's the IP fuel feed line in place, along with a new fuel filter:



I also installed the IP oil feed line (the small -3 line in the pic with the turbo parts). Oil lubrication, as opposed to fuel lubrication, is one of the reasons the P7100 pump has the reputation for being as tough as an Army boot.

Way back when, I had a V6 Camaro that I turbocharged. Before I sold that car I reverted it back to stock, and I sold off most of the parts. However, I still had the wastegate and the variable pressure regulator valve used to control it. I decided it would be cool to tie the turbo's internal wastegate shut and run the external gate. That way I could adjust the boost as needed, and the dual ported external gate would better compensate for altitude... in theory. It also would look cool, right? Right!

I picked a spot on the exhaust manifold between the two discharge plenums where I wanted to mount the wastegate and welded the mild steel flange in place with Eutectic 680 rod. I used a lot of preheat, welded 1" long stringer beads, and peened the welds with a needle scaler in order to prevent cracking. It must've worked, because it remains crack-free to this day. Next, I cut a 1-½" round hole with a hole saw. Then I used a drill to cut away the part connected to the center divider until the holesaw-cut part came free. I cleaned up the cuts a bit with a rotary file, drilled and tapped the 5/16" coarse thread holes for the wastegate mounting bolts. At that point I ended up with this:



After milling the mounting flange flat I bolted the wastegate on with stainless steel bolts:





After painting and baking the manifold and bolting it to the engine with new stainless steel bolts (anti-siezed of course) it looks even better:



While I was at it, I cleaned, painted, and baked the turbo cast iron parts since they looked like rusty pieces of you-know-what:



In this first incarnation I had decided to use an SM465 4 speed manual with 3.42 gears in the axle to eliminate the need for overdrive. The common manual trans for a Cummins swap is the NV4500, but I didn't like the 4500 for numerous reasons (just wait till later in the saga - you're gonna laugh your asses off ). The 465 has a big 1-1/2" input shaft available for it, and along with an NV4500 bellhousing and South Bend clutch it was an easy matter to get it to bolt up to the Cummins:













In that last pic you can see the turbo is assembled and mounted to the manifold. I had the turbo rotating assembly balance-checked at the turbo shop and it was perfect, so there were no show-stoppers. The last minor doo-dad I made for the turbo setup was an AN drain fitting for the block. The stock drain is simply a pressed in pipe, and I wanted to use -12 AN, so I turned down a -12AN male to male pipe, pressed a piece of 3/4" OF steel onto it, and ended up with a fitting that would press into the block and give me the -12AN drain port that I wanted:



At this point the engine was ready to mount into the truck. Things like accessory mounts were still needed, but I wanted to put the engine in the truck before I designed the mounts.

Stay tuned for the next episode appropriately titled
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1991 V1500 Blazer (Silverado), 5.9L 12V P-pumped Cummins (5x .012 sac injectors, #6 fuel plate, WH1C with external 38mm wastegate running 30psi), NV4500 with 1-⅜" input shaft, SBC Con-O clutch, NP205, HAD, 4.10 D61/14BFF spinning 37" Nitto Exo's

"I got a shotgun, a rifle, and a four wheel drive and a country boy can survive."
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Old 01-19-2016, 03:04 AM   #7
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Re: A K5 Cummins Conversion: The saga continues...

The next step in the swap was to remove the 6.2, trans, and transfer case and get the engine bay ready to accept the Cummins. Removal of the existing drivetrain was easy, but then I was at a crossroads. The existing frame had been cracked and repaired multiple times in the steering box area:





These cracks are pretty typical, particularly on the 1/2 ton frames. All of the force from the steering box is concentrated on the area under the four bolt spacers, and 1/2 ton frames are particularly thin. I had two options: repair the frame, or replace it. I chose option 3: replace the front frame section with this:



That is a front frame section from a 1 ton square body truck. By replacing my existing front section with this, I get a crack-free frame that is nearly twice as thick as the 1/2 ton frame Now all that is needed is to the existing front section:



Then the ends, put them together, get it aligned, and it up:



As with the original frame I sat the front axle 2" forward, and within 48 hours of making the first cut it was sitting back on the tires:



There were still a few mods to be made though. The existing crossmembers are in the wrong places, and they are flimsy and weak, so they needed to go. Before their removal I welded in a new front (i.e. under-core-support) crossmember made from a piece of 2x4x3/16" rectangular tube:



After that I was free to air-chisel the heads off the rivets retaining both stock crossmembers and remove them, and finally do the first test fit of the Cummins in the engine bay:



Fortunately for me, my roommate had some big pieces of rectangular wood that were perfect for supporting the engine atop the front axle There was plenty of clearance between the engine and the frame and axle:



At this time the main limitation to how low I could set the engine was interference between the power steering pump inlet fitting and the frame:



I could of rotated the pump and changed the fitting to set the engine lower, and in fact I considered it. You will see later in the saga why it's a good thing I didn't!

At this point the major issue was that the bellhousing bolts were touching the tunnel:



My truck still had the stock 19-year-old body mounts, which had probably crushed around 1/2 inch. New ones would give clearance, but I figured a bit extra would be nice. With that in mind I ordered a new set of urethane body bushings and a one inch body lift kit from Off Road Design. This gave a comfortable amount of clearance everywhere and allowed me to flatten the front-rear engine angle a bit more.

I also a large hole for the transmission shift tower. I would fab a cover for it, and the extra room made trans R&R much easier.





Otherwise, the amount of setback was good:



Next episode: Motor mounts n' things.
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1991 V1500 Blazer (Silverado), 5.9L 12V P-pumped Cummins (5x .012 sac injectors, #6 fuel plate, WH1C with external 38mm wastegate running 30psi), NV4500 with 1-⅜" input shaft, SBC Con-O clutch, NP205, HAD, 4.10 D61/14BFF spinning 37" Nitto Exo's

"I got a shotgun, a rifle, and a four wheel drive and a country boy can survive."
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Old 01-20-2016, 04:37 AM   #8
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Re: A K5 Cummins Conversion: The saga continues...

Since much of what I am about to show was done hurriedly and got changed later on I will quickly go through it. First, the engine is no longer sitting on wood:







And has a crossmember:



For those who say "I can't see the motor mounts very well", that's probably a good thing. I was welding it with my roommate's Miller 180, and it is in desperate need of a new wire conduit/hose assembly. The wire keeps hanging up and feeding in stuttering, jerking fits, making it just about impossible to get anything resembling a clean, decent looking weld Anyway, they are nothing special. Pretty much similar to ORD's motor mounts for the SBC/BBC, but made to fit the Cummins. They are also much beefier than the ORD mounts to deal with the weight and torque of the Cummins. The bushings used are 1-5/8" OD with a 3/4" sleeve in the middle and a 9/16" bolt holding everything together.

Some underside pics:







The trans crossmember is the same one I used with the 6.2. Somewhere in here I got good used 3.42 gears and re-geared the axles. 3.42s were necessary to get the road RPM reasonable with a non-OD transmission.

I initially had done a turbo oil drain, decided I didn't like it, and made a new one:





Drain is connected using -12AN steel-braided hose:



Exhaust downpipe:



Installed:



And accessory brackets:





Here it is mostly put together:











I drove this setup for over a year and found what was good, bad, and ugly. It had adequate, but not spectacular, power. It was still stock, which is rated at 160HP and 400LB-ft of torque. It ran cool, even in the middle of the AZ summer. The engine fan, which was driven by an electromagnetic clutch, was only needed when the AC was on. Speaking of AC, it didn't work very well for a number of reasons. First off, the "134A" condenser was a serpentine type, which sucks. Second, I used the 6.2 fan, and it just didn't seem to pull enough air through the cooling stack.

The gearing left a bit to be desired. With the stock governor the engine would run out of RPM, require a shift, and the next gear would pit you on the low side of the torque peak. This was only a problem in the mountains. Combined with EGT issues after I slid the stock fuel plate forward (a common issue when doing that mod) I would sometimes end up stuck in third gear doing 45MPH on 6 and 7% grades. If I hit the hill doing 70+ I could stay in 4th, but often traffic conspired to slow me down, and once RPMS dropped below 1600 in 4th EGT's would skyrocket if I tried to accelerate. I would have to shift into thrid and stay there until the hill was crested. That sucked really, really, REALLY bad. The fix is either different gearing, 3k or 4k governor springs, a proper fuel plate and pump tuning, intercooler, or a combination of those. We will see which one(s) I choose

The stock push-pull steering left a lot to be desired, but replacing it with crossover steering was already planned. What wasn't planned was replacing ball joints :roll: It seems the extra weight combined with 37" tires is a recipe for frequent ball joint replacement. Since frequently replacing ball joints brings the suck, a permanent fix was needed.

Leaks, leaks, LEAKS!!!! Every friggin thing on this swap leaked!. The t-case leaked, the trans leaked (due to the wrong sealer being used - never use Ultra Grey, it sucks), the power steering leaked (worn sector shaft bearing causing a leaky seal, thanks to big tires and push-pull steering), but worst of all the engine leaked. BAD!!!! It started out clean, and a year later it looked like it did when I brought it home The final straw was when the head gasket started leaking oil out one side and coolant out the other. Nothing beats the joy of replacing a head gasket on a Cummins

Finally, there was fuel economy. In the city it was quite good: 18mpg tanks were easy when I stayed below 60mph, even with in-town stop-and-go driving. On the highway the engine was operating WAY above it's most efficient RPM due to gearing. When I planned the setup I wanted to run 3.23 years, but they proved impossible to find, so I settled for 3.42's. At 65mph I could do 17ish, but at 80MPH I would drop down to 14mpg. Better gearing would improve mpgs at all speeds, but especially highway MPG. Diesel efficiency drops rapidly at higher RPMs, so keeping it as close as possible to the torque peak during highway cruise is necessary to get the kind of mileage the engine is capable of. Something would have to be done!
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1991 V1500 Blazer (Silverado), 5.9L 12V P-pumped Cummins (5x .012 sac injectors, #6 fuel plate, WH1C with external 38mm wastegate running 30psi), NV4500 with 1-⅜" input shaft, SBC Con-O clutch, NP205, HAD, 4.10 D61/14BFF spinning 37" Nitto Exo's

"I got a shotgun, a rifle, and a four wheel drive and a country boy can survive."
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Old 01-20-2016, 05:46 PM   #9
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Re: A K5 Cummins Conversion: The saga continues...

OK, so I drove the truck around for a year and a half or so (not sure exactly) before I decided something needed to be done. By this time I had gone back and forth several times on swapping an Allison 6 speed slushbox in it. The Ally would fix the gearing issue, but it would also alleviate the need to use a clutch. At this point my old ankle injury from my Army days had made walking with a cane necessary. My truck was sitting, partially disassembled, and I was driving a Ford (gasp!) with an automatic. As I mentioned in my above post. I was quite disgusted with the overall dissatisfaction of my swap, and the truck ended up sitting for quite a long time while I messed around with drivetrain parts or simply ignored it altogether.

Let me jet back a bit here: before the ankle became a real issue, I was shopping around for a Dana 60 front to replace my sad, overloaded 10b. One day, a fellow wheeler posts up that he has a first gen Dodge Cummins rolling chassis (no engine, trans, or body) with 3.07-geared Dana 61 front and Dana 70 rear. This would absolutely fix my gearing issue, and the price was right, so I jumped on 'em! It wasn't long after I dragged the pair of axles home that my anke issues started up, and got worse and worse. Somewhere in there I decided to go the Ally route, which means I no longer needed 3.07 gears. The Allison 6 speed has two overdrives: .71 (fifth gear) and .61 (sixth gear), so ideally gears in the 4.10-4.56 range would fit the bill, depending on tire size. This left me with two options: either sell the pair of axles and buy a D60 and 14b, or keep the oddball axles and re-gear the, if it's even possible.

I ended up choosing option #3. To begin with, nobody had ever bothered to attempt to re-gear the unique 3.07 D70U since regular D70's and 14BFF's are a dime a dozen, and I wasn't going to for that same reason. Besides, D70u's have wussy 32 spline axle shafts :roll: Also, re-gearing a 3.07 D70U or D61 is more than a simple gear swap: the pinion head on a 3.07 gear set is massive compared to lower (numerically higher) gears. Here's a 3.07 D61 pinion next to a 4.10 D60 pinion:



The pinion is too large to fit in a regular D60 or D70 case, so Dana cast special housings with the pinion moved further away from the ring gear. These became the D61 and the special 3.07 D70U. So, what to do? Well, I would never find a Chevy or Dodge kingpin 60 for as cheap as I scored the kingpin 61 AND D70 rear, so it made sense to keep the D61 iand re-gear it, f possible. Also, Dodge kingpin 60''s and the otherwise identical Dodge D61 front actually have a track width that more closely matches the rear axle, and the perches only differ by 1/4" per side so they are very easy to fit into a square body Chevy in place of a Chevy front axle. Like the Chevy axles, they are right hand drop, have internal hub locks, nearly identical brakes, and non-neckdown 35 spline inner/30 spline outer shafts (slightly different lengths from the Chevy, due to the axle being a bit narrower). In other words, from the pumkin-out they are identical to the same year Dodge D60, including the desirable kingpin knuckles. So, there is nothing to be gained by replacing it with a Chevy (or Dodge) 60... if I can re-gear it.

A lot of people online said the D61 is junk because it can't be re-geared. I did some research, including talking to Carl Jantz (of SuperJeep fame) who does lots of cool axle upgrades (like fitting 10.5" D70 gears in a Dana 60!) and measurements of my own housing, and found that the pinion is offset 7/16" from a standard D60. Which means all I need (in theory) is a 7/16" ring gear spacer, some suitable bolts, and I'm set! With that plan in place, I sold the rear D70 to a guy on 4BT swaps, and got started rebuilding the D61.

One of my reasons for dissatisfaction with the swap was that a lot of stuff got hurriedly slapped together. It was reliable, but looked like crap. With that in mind, I completely stripped the axle apart and cleaned it. Cleaning it was not particularly enjoyable; it required liberal use of a needle scaler to get all the crud off it:



The crud came off in chunks:



The upper kingpins themselves were hashed, so they needed replacement. If you ever have to remove them, forget about suggestions of using a long bar (likely to split the pin, at which point you're in for a real ball of laughs getting it out) or the smoke wrench (didn't work for me). Get your cutoff wheel and slit it a short distance above the C. After that, you can break it free with a regular breaker bar:



The equally fun part is torqueing the new ones. The spec is 600ft-lbs. Yes, SIX HUNDRED. I used a 3/4" drive Snap-On ratchet with a 7/8" socket, a 7/8" hex long lug nut, a 5 foot long bar with a nut welded on one end, and a 1/2" drive torque wrench with a socket that fits the welded-on-the-bar-nut. The total length of bar+torque wrench was 6 feet from kingpin to torque wrench handle, so by setting the torque wrench to 100ft-lbs, the bar multiplied it to 600ft-lbs at the kingpin. It ended up being a three-man job, but you don't want to skimp here: if the kingpin comes loose it will wallow out the threads in the C, ruining it.

I also cut off the cheesy Dodge shock mounts and welded on some proper ones.



I figured while I was at it I might as well weld the tubes to the pig to prevent them from ever spinning. I used my trusty Eutectic 680 rod and needle scaler to weld and peen, weld and peen, weld and peen. I also added a bracket for a future panhard rod. Then, finally, paint!



I cheated on the rest of the parts and had them sandblasted. After the axle, I was DONE with cleaning crusty crap! I did get remanned calipers though.





Remember when I said the Dodge and Chevy D60's have nearly identical brakes? Well, the non-Cummins Dodge 60's (or perhaps the pre-89, not sure, actually) have 1-¼" wide rotors, while the Chevy 60's and Dodge Cummins 60's and 61's have 1-½" wide rotors (same part number, in fact). Which means mine has 1-½" rotors. The calipers are identical except for the banjo bolt that retains the brake hose: The Chevy calipers are 10mm, while the Dodge is 7/16". Since I already had a pile of Chevy banjo bolts I went ahead and got Chevy remanned calipers:



Yeah, they're big and they weigh a ton. So much for better fuel economy

Also, remember when I mentioned that re-gearing would require a spacer? Yeah, I got a certain machinist [cough]Todd[/cough] to make me one. That+proper length ARP bolts+good used 4.10 R&P set = a regeared D61.



A small amount of machining was required on the carrier so the spacer would clear:





I musta done something right, because the 4.10 D60 gears set up perfectly:



All buttoned up, put together, and ready to go:



But wait! I still need a rear axle with 8 lugs and 4.10 gears. Hmm.... guess we will have to wait and see what I end up with
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1991 V1500 Blazer (Silverado), 5.9L 12V P-pumped Cummins (5x .012 sac injectors, #6 fuel plate, WH1C with external 38mm wastegate running 30psi), NV4500 with 1-⅜" input shaft, SBC Con-O clutch, NP205, HAD, 4.10 D61/14BFF spinning 37" Nitto Exo's

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Old 01-21-2016, 02:30 AM   #10
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Re: A K5 Cummins Conversion: The saga continues...

During the last nail-biting cliffhanger, I had to get an 8 lug rear axle to complement my brand used D61 front. I could have re-geared my existing 14bsf, replaced the 6-lug shafts with 8 lug units, threw on 8 lug drums, and headed down the road (metaphorically, at that point). However, I have a mental block when it comes to having a rear axle with a smaller R&P than the front.

With that, my ultimate choice was boringly predictable: I got a 14bff. In this case, it's a 2003 AAM 10.5" 14bff with disk brakes, 4.10 gears, and a gov-bomb diff. The first thing I did was shave the bottom to hopefully reduce the number of the dreaded code 14's:





After that came the usual to relocate perches and add new shock mounts. Before I slung the axle up under the truck I had a couple other things to do. First was rebuilding the rear spring packs:



Then replacing the echobit flips with regular bolt-on flip brackets. This required liberal use of the air chisel, which makes the neighbors oh-so-happy The result was this:





So now I had axles, springs, and mounts ready to go, but I still needed 8 lug wheels with a minimum of 16.5" diameter to clear the rear calipers, along with tires on said wheels. For that, Craigslist came to the rescue. I found a guy selling a set of just what I needed:



Yup, good ol' H2 wheels with good BFG Mall Terrains. Guy was asking 6 bills, but I chewed him down to 4. Or, more precisely, his wife made him take the offer of 4 in order to get the tires out of the garage You shoulda seen what he replaced the perfectly good factory wheels and tires with on his poor H2

With that last piece of the puzzle fit I can finally get the truck resting on tons:





So far, so good. Now, if you read the whole drama thus far you recall that I had replaced the entire front section of frame with a 1-ton section due to massive cracks in the steering box mount area of the original frame. After a year and a half or so the new 1 ton frame was showing no signs of fatigue around the box mounts, but I wanted to make sure it would NEVER be an issue. The usual method of prevention on a stock frame is a bolt-on brace from outfits like ORD, but my removal of the original crossmembers (and reluctance to buy stuff I can fab myself) made that no longer an option. The second method is boxing in that section of frame. That is the route I chose, and it was made easier and better by the non-stock crossmember that I added which would tie everything together.

First step is to trace out the pattern and cut it out of 1/4" steel plate. Then clamp the piece inside the frame and use a drill bit to transfer the box mount hole locations to the plate. Drill out to 3/4", put in the frame, add spacer sleeves, tack, remove, weld sleeves, and you have this:





After thoroughly cleaning the frame area where the plate will weld in and spraying both it and the plate with weld-through primer, it got welded in, painted with chassis paint, and the box bolted up:



My truck, like all solid axle 4WD GM trucks, originally had push-pull steering. Mine worked fine until I moved my axle forward 2 inches, which shortened the already short stock drag link by the same amount. Now it had serious issues turning when flexed, and had developed bump steer This sucks, so I was going to convert to crossover steering, which requires a box with a 2WD sector shaft. By this point I already had new tie rod and drag link ends from Parts Mike, as well as a 2WD box and suitable Pitman arm from a friend. I also had a stick of 1-½" .120 wall 4130 tubing and these parts that Todd made:



With the box bolted up, I installed the Pitman arm and temporarily installed a DLE to check stuff out. Hmm, looks kinda close





A quick cycling of the box confirmed that the DLE mount bolt clears the frame (BARELY!). As for the clearance between the spring and DLE, that will require bumpstops. Eventually. In the meantime, there's no danger of contact with my truck holding down concrete
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1991 V1500 Blazer (Silverado), 5.9L 12V P-pumped Cummins (5x .012 sac injectors, #6 fuel plate, WH1C with external 38mm wastegate running 30psi), NV4500 with 1-⅜" input shaft, SBC Con-O clutch, NP205, HAD, 4.10 D61/14BFF spinning 37" Nitto Exo's

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Old 01-21-2016, 02:42 AM   #11
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Re: A K5 Cummins Conversion: The saga continues...

OK, so I got axles in, Yay... But I still can't even roll the truck forward because I don't have a tie rod to keep the front wheels straight. Well, remember those built-by-Todd parts in the cardboard egg tray in the previous posts? They just happen to be ⅞-18 right and left hand tapped bosses for building tie rods, drag links, and Panhard bars. I combined one right and one left with a suitable length of 1-½ .120" wall 4130, some TIG welding, a coating of wrinkle paint, and some tie rod ends from Parts Mike end ended up with this:





Now that I had a rolling chassis again, I could address the next item: a transmission. I was originally going to run an Allison, and even had one built and ready to go, but I sold it to someone who needed it worse than I did. Then I brought home an Eaton-Fuller FS-6406. I got it for a good price, and planned on throwing OD gears into it, but it was just too much trans for a Blazer. A one ton truck that tows a lot (and routinely breaks NV5600s and G56's), yeah it's the hot ticket, but a 365lb 6 speed is just too much gearbox for a K5. I would have to substantially surgically alter the floor and firewall to accommodate the trans, and i just didn't have it in me anymore. So I sold it off to a guy who actually needs it for his dually on 37's.

I still needed a trans, and there was only one practical choice. The problem is, I don't like it. I'm talking about the NV4500, and anyone who knows me knows I hold this trans in very low regard. The first through fourth gear portion is decent enough (although the 465 is better IMO), but fifth gear is a complete crap design, and the gearbox has smallish countershaft bearings. OTOH, it can be fixed up and it has the OD I need, so it's what I ended up with if I ever want this heap to roll under it's own power again.

Because I wanted to run a round pattern 205 that I already have, and it has a GM bolt pattern and GM 32 spline input, I chose to run a late GM NV4500. Parts are interchangeable with the Dodge version, which allowed me to run the aftermarket 1-⅜" input shaft designed for hot-rodded Cummins apps. I found one for sale from a guy on 4BTswaps for a good price. It was out of a 350 Vortec truck, so it had no mainshaft damper but a spacer sleeve instead. Not a big deal, but the damper was put on the units that went behind the 4.3 V6 to keep gear rattle down, so I expect I may end up with some gear rattle. We shall see. Anyways, here's the trans in pieces:







If you look at the following pic you will see that the end of the countershaft has 16 wide-spaced splines in it. The shaft can accommodate 48 splines that size, but New Venture chose to only run a third of the maximum. Why? I dunno. SInce the input-to-countershaft multiplication is something like 1.8:1 there is a LOT of torque applied to those splines when at full throttle, even in a gas motor. That they survive at all is a miracle.



Usually, it is the mainshaft gear that has issues. It's small and retained with a spanner nut. Over time the torque can work the gear back and forth, eventually working the nut loose. The nut backs off and the gear follows it, walking off the splines. There are numerous fixes, but my favorite is this. Unfortunately, they only make that lock for the Dodge 29 spline shaft, so I used a piece of female 32 spline input that was cut off of a NP241 and a piece of chromoly tubing with 4 tangs cut in it, welded it together, and made my own.

The 4500 does have one outstanding feature: good synchros.



Those fiber-layered rings make the synchros work way better than older grooved brass synchros in transmissions like the 465. The only drawback is that they work best with the special fluid made by Castrol with costs $20 a QUART! And the trans holds a GALLON! Since the trans doesn't oil well with only a gallon it is recommended to put 4.5 quarts in it, so I was forced to buy 5 quarts. Did I mention it's $20 a quart? Yay....

I did need two new hard parts though. The synchros in third were completely wasted, and the owner obviously kept grinding it to find it. This destroyed the 3-4 slider and the coupler splines on the third synchro hub. I was lucky that a fellow wheeler had a good assortment of NV4500 parts on hand and was able to hook me up. Other than that the trans was in very good shape. I was even able to re-use the bearings, although how long they will last behind a Cummins I can't say. I did put all new synchros in the trans, of course.

Eventually I got it all together:



Those with sharp eyes and familiar with the NV4500 will notice that the bolts retaining the aluminum tailhousing aren't the stock 12-point New Venture units. I managed to windmill the head on one of them, and the rest were a bit sketchy. Regular 6 point bolts don't leave enough clearance for the socket, so I used metric Allen bolts instead.
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1991 V1500 Blazer (Silverado), 5.9L 12V P-pumped Cummins (5x .012 sac injectors, #6 fuel plate, WH1C with external 38mm wastegate running 30psi), NV4500 with 1-⅜" input shaft, SBC Con-O clutch, NP205, HAD, 4.10 D61/14BFF spinning 37" Nitto Exo's

"I got a shotgun, a rifle, and a four wheel drive and a country boy can survive."
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Old 01-21-2016, 03:02 AM   #12
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Re: A K5 Cummins Conversion: The saga continues...

Next up was this pile o' parts:





That is my round pattern 205, all cleaned up and ready to re-assemble.

By this time I had acquired an audience of sorts:





With my pal the dragonfly watching my back I worked on getting the t-case assembled. One thing I never liked with the 205 was the fact that the shifter shafts would get grooves rusted in them right at the seal, which would often cause some leakage, and mine were in pretty bad shape New ones are available, but they are spendy and still made out of steel. So, I ordered some .750 ground rod in 17-4PH stainless steel. Then I carefully blueprinted the stock shafts (minus the rust grooves) and gave the rod and the blueprints to Todd. A week later I had a set of stainless steel 205 shifter shafts. I actually modified the blueprint to make the shafts twin-stickable. Might as well, right? Never know when I might need to do a front dig

The shafts were machined, but still needed to be heat treated. The nice thing about 17-4 is the simple heat treat: 900°F for one hour then air cool. Since it is a precipitation hardening alloy there is no oil quench or temper steps needed. That made it extra easy to do myself in my little heat treat oven. Here's the result:





The cool color is the thin layer of chromium oxide that forms at 900°F in air. I was going to Scotch-Brite it off, but I decided it looked cool so I left it alone.

About this time the Law Of Murphy kicked in. Turns out, the stock shafts measured .748" not because of loose tolerances, but because the bores in the shift forks were reamed to EXACTLY .750"! Actually, they were .7497" when measured with a dial bore, while my precision ground 17-4 stainless rod mic'd at .7504 after heat treat. A press fit. Which makes it essentially impossible to assemble Luckily, the bores in the case were bigger, so the shafts fit there. They were a bit sticky without oil, but with oil they were perfect.

I chose a [cough]crude hack[/cough] simple, expedient method of enlarging the bores in the forks:



Good to go!





The next item to address were the front and rear flanges. The rear flange was a High Angle Driveline unit from my 241. I had originally ordered it for a 205, but decided to run the 241 behind the 465. The 241 uses a smaller diameter seal surface, so I had to turn down and sand the seal area on the flange to fit. Somehow, I stepped on my crank and made it a bit undersized. It still contacted the seal, but barely. The result was a profuse weep that would slowly coat the area above the flange with a thin coat of ATF. Yay.... Since I intended to re-use the $100 flange with the 205, I needed a seal that would fit the seal retainer in the 205 AND properly fit the flange. No-go. There were seals that fit the 205 retainer ID and fit what the OD of the flange sealing surface was SUPPOSED to be, but none that would fit one a few thou undersize Swell.

Then there was the front Saginaw flange that had a nice fat groove right where the seal runs. The groove was caused by... (drumroll) rust! Not wear. Just like the shafts, it gets water spray and seldom moves, so it rusts right at the seal. I had a couple options with the front: the cheapest and easiest was to use a seal with a thinner body that I could set back a bit so it would ride on a groove-free part of the flange. Or, I could buy a new Saginaw flange. Or, I could buy a 32 spline $100 HAD flange like I had on the rear (I put a 32 spline front output in during the rebuild )

It was at this point a had a "Duh!" moment. Speedi-sleeves! Use Speedi-sleeves dood! And that is exactly what I did:



These are slick. They repair grooved shafts, giving a new, wear-resistant sealing surface with a perfect surface finish for best sealing and wear. They're also made of stainless steel, so no rust grooves! Since they are several thou in thickness they will also fix my slightly undersize rear flange. Perfect!

Here's how they work: First you put the part on and make a mark just above the seal, so you know how far to drive the sleeve on:



Then, put some anaerobic sealant (or Hylomar in my case) on the shaft and drive the seal into position with a hammer and the included driver tool:



Next you need to remove the flange that the installer tool drives against. You snip it with a set of cutters:





Then break it free with a pair of pliers and peel it off around the pre-scored line:





Clean off whatever goo you used as sealant:



And verify your handiwork:



The front Saginaw flange got the same treatment:



Continued...
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1991 V1500 Blazer (Silverado), 5.9L 12V P-pumped Cummins (5x .012 sac injectors, #6 fuel plate, WH1C with external 38mm wastegate running 30psi), NV4500 with 1-⅜" input shaft, SBC Con-O clutch, NP205, HAD, 4.10 D61/14BFF spinning 37" Nitto Exo's

"I got a shotgun, a rifle, and a four wheel drive and a country boy can survive."
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Old 01-21-2016, 03:06 AM   #13
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Re: A K5 Cummins Conversion: The saga continues...

The next problem to solve is the fact that the speedo housing on this 205 is for a cable speedo, and my truck has an electronic speedometer. Electonic speedo housings for the 205 do exist, but they are rare as hen's teeth. They were only made in 1990-1991, and only in 1-ton crew cab pickups. In other words, they are impossible to find, and if you do you'll pay dearly for it.

Once again, I had options: Either use an electronic speedo pickup that threads into the cable speedo drive, or modify my housing for a VSS and replace the speedo drive gear with a 40 tooth reluctor. I chose the latter option since it is a bit cleaner. It involved marking the housing with dimensions using a Sharpie, and giving it to Todd to drill, counterbore a flat seat, and tap for the VSS:



As it turns out, the speedo gear/reluctor splines on the 241 are the same as a 205, and I just happened to have a 241 reluctor. It's wider than the 205 gear, so I turned equal amounts off both faces until it was the same width as the 205 speedo gear. When I went to assemble it I found a cast boss in the housing hit the reluctor, so I had to use a rotary file to cut away the tip of the boss. Here's the result:



This is the boss I had to cut down:



The finished product:



In that last pic you can see the hole where the cable speedo drive threaded in. I have the piece that screws in there, and I welded a -6AN male fitting to it and put a cap on it. It makes an excellent fill port for a clocked 205, and it will serve another purpose...

Finally, I needed two other items to make the case ready to install. First was a spacer/clocking ring. I could have used the short 32 spline input and cut a notch in the 4500 tailhousing to clear the rear shifter shaft, but I didn't really want to. Plus, I wanted to clock the case up, and the ⅜" thick clocking rings usually used are prone to leaking. A spacer to allow use of the long input will eliminate the need to cut the 4500 tailhousing, and it is thick enough that it won't warp and leak. So, I drew it up on Solidworks, emailed Todd the file, brought him a piece of aluminum. It turns out the aluminum was a hair too short, so I TIG welded an aluminum bead around the pilot ring to give the needed extra material. If you look close you can see the where it was welded. Without that extra material the pilot was barely (like a few thou) too short when a gasket was used between the trans and spacer.



In that pic you can also see the second final item I needed: a linkage to actuate the rear shifter shaft. Once the case is bolted to the trans, that shaft is only accessible from the side, so a linkage is needed to hook up a shift rod or cable. The red aluminum Heim joint is where the shifter rod will attach. The linkage and bracket holding it are all stainless steel, so no paint is needed

That's it for now. On the next episode, I'm gonna get dirty :wink:
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1991 V1500 Blazer (Silverado), 5.9L 12V P-pumped Cummins (5x .012 sac injectors, #6 fuel plate, WH1C with external 38mm wastegate running 30psi), NV4500 with 1-⅜" input shaft, SBC Con-O clutch, NP205, HAD, 4.10 D61/14BFF spinning 37" Nitto Exo's

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Old 01-21-2016, 04:50 AM   #14
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Re: A K5 Cummins Conversion: The saga continues...

With a transmission and transfer case ready I needed a new crossmember. However, I wanted to add reinforcement to the spliced frame area first. I got some more ¼" steel plate and used it to box in the spliced section:





Welds still look like ass. I have never had so much spatter from MIG. I figure it was probably the weld-through primer, but maybe I just had a case of the yips? I dunno - I'm just glad it's hidden under the truck! They are structurally sound though, and that's what matters most, right? Bah, who am I kidding! It's all about the looks!

Here's the crossmember I came up with:



The welds on the crossmember look great! Why? Because I TIG welded it. So, was it the weld-through primer, bad conduit/hose assembly on the MIG welder, or a case of the yips? I still haven't figured it out...

It was right around this time that I had finally had it with my leaky-ass engine. Off with it's head!



Hey, there's a camshaft there as well! And look at this pile of parts:



Oh yeah. I tore everything apart.



In that pic the oil pump is still on the engine. It got pulled off as well, as I will explain in a moment.

Here's what the deck looks like:



Yeah, it's as bad as it looks. Check out the oil sludge on top of the oil cooler area! I have no idea where it all came from, but it was nasty!

Here's my creative method of holding the lifters up:



I never knew International cast blocks and heads for Cummins, but both the block and head on my engine sported the International logo:



After cleaning the head and deck it got put back on with a new Cummins gasket AND new bolts.

Not only was the front timing cover leaking between the cover and block (gushing would be a more appropriate term), but all the bolts were scary loose. The stock fiber gasket had long since shrank and turned to rock, so the leaks and loose bolts weren't really surprising. I was worried about the oil pump bolts, but they were still tight. I removed it anyway so I could tape up the block and Roloc all the rock/gasket material off. Then I cleaned every bolt hole with brake cleaner and a rifle brush. I installed the oil pump using Loctite on the bolt threads. Then I coated the block-to-cover gasket with a thin layer of Ultra Black, put the cover on the dowels, and used Loctite on all the cover bolts. I do NOT EVER want more leaks!

I had replaced the seal on the tappet cover, and that ****** STILL leaked, so it got cleaned and Ultra-Blacked as well, No leaks!

Finally, the oil cooler gaskets were leaking like a sieve, so it got pulled apart as well. The old gaskets were more fiber/rock units. At some point Cummins must've realized those gaskets were crap because the new ones were rubber coated metal shim gaskets. Finally, modern technology! No leaks! Now, having seen the results of a Cummins oil cooler failure (which I later found out was actually an oil cooler gasket failure), I got paranoid and put a brand new oil cooler on the engine while I was at it Hey, anyone know what's on the menu at the local soup kitchen?

Oh yeah, one other thing. I always thought my new rear main seal was leaking. Turns out it was dry as a bone. The leak was coming from the welch plug in the rear of the cam bore. I discovered this AFTER I re-sealed the front and had it all put back together and I was NOT going to tear it all apart just to pop out the cam plug. I thought about trying to put a hole in it with a punch and prying it out (or using a screw and a slide hammer), but if it didn't work I would have to pull the cam again. My ultimate fix was [cough]a total hack[/cough] expedient: I thoroughly cleaned the flywheel housing and the rear block face, but a coat of The Right Stuff around the cam plug, and reinstalled the flywheel housing. Since it is machined surface-to-machined surface, the problem should be solved.

Whew! Is this thing ever going to run again? Keep watching and find out!
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1991 V1500 Blazer (Silverado), 5.9L 12V P-pumped Cummins (5x .012 sac injectors, #6 fuel plate, WH1C with external 38mm wastegate running 30psi), NV4500 with 1-⅜" input shaft, SBC Con-O clutch, NP205, HAD, 4.10 D61/14BFF spinning 37" Nitto Exo's

"I got a shotgun, a rifle, and a four wheel drive and a country boy can survive."
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Old 01-21-2016, 02:04 PM   #15
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Re: A K5 Cummins Conversion: The saga continues...

Awesome Build. Great attention to details. I need to do stronger cross-members in mine like you have. Too many hard launches has tweaked mine just a tad.

Keep the pics coming!
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1970 C/10 | Short Bed | 2wd | 12-Valve Cummins 6BT | 47RH Auto

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Old 01-21-2016, 10:56 PM   #16
MaxPF
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Re: A K5 Cummins Conversion: The saga continues...

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Originally Posted by usetheBFH View Post
Awesome Build. Great attention to details.
Thanks!

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I need to do stronger cross-members in mine like you have. Too many hard launches has tweaked mine just a tad.

Keep the pics coming!
No worries. I got plenty more to share.
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1991 V1500 Blazer (Silverado), 5.9L 12V P-pumped Cummins (5x .012 sac injectors, #6 fuel plate, WH1C with external 38mm wastegate running 30psi), NV4500 with 1-⅜" input shaft, SBC Con-O clutch, NP205, HAD, 4.10 D61/14BFF spinning 37" Nitto Exo's

"I got a shotgun, a rifle, and a four wheel drive and a country boy can survive."
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Old 01-22-2016, 02:36 AM   #17
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Re: A K5 Cummins Conversion: The saga continues...

The next thing I addressed was the turbo oil drain. When I pulled the boost tube off during the reseal there was a fair bit of oil on the inside. The oil could be due to one or more reasons: Maybe the turbo seals aren't sealing? Maybe there is too much oil feed? Maybe my drain didn't have a steep enough slope?

I decided to address the latter two potential issues. If the turbo seals aren't working I will need either a new turbo (HE351VE would be sweet!) or more new parts for my WH1C. Now, the problem with fixing the drain is that I would have to redo the right side motor mount in order for the drain line to have a straight shot. Since I wan't really happy with the mounts anyway I figured I may as well replace them both.

The previous mounts, using urethane spring bushings, absorbed engine vibes quite well so I saw no reason not to use the spring bushings in the new mounts. I liked the tube mounts Todd built for the LQ4 engine in his Jeep, so I figured I would make tube mounts as well. This is what I ended up with:





The tube between the engine-side plate and the bushing is 1-¾" .120" wall 4130, with a wedge of the same welded in as a gusset. Assuming the welds don't crack it should be plenty strong.

Here is the right side mount along with the new turbo drain plumbing:





Along with the mounts proper I also modified the frame-side mount perches and made a new crossmember that better ties both sides together:







In the last pic you can also see my drag link. The bends were needed for oil pan clearance when the right side is at full stuff. It still hasn't been fully tested..... The crossmember works great though. I can jack one side up and there is no frame twist or flex.

The other item I addressed was the turbo feed line. I made a new one using reuseable fittings and steel braided Teflon hose since the old one had rubbed on something and got frayed in one spot. What you can't see is the fitting going into the turbo that restricts the feed to the same size orifice as the stock banjo fitting.



In stock form the fuel and brake lines run down the passenger (right) side of the truck. Unfortunately, the Cummins also runs it's exhaust down the right side. I figured this was as good a time as any to put new fuel lines down the drivers side frame rail. I decided to use the same reinforced nylon diesel fuel line used in MD and HD trucks, tractors,, etc. It's inexpensive and tough. I didn't care for the use of brass compression fittings though, so I used barbed AN fittings. What I did was heat the end of the hose with a heat gun to soften it a bit, them press it onto the barb. I also put an HNBR o-ring between the first and second barb before pressing the hose on to ensure there would be no air leaks. Air leaks would be A Bad Thing™.



That is the return line which doesn't need 3/8" ID tubing, but I liked the idea of having just one size of fuel line. Here's the return line dropping down, and you can see the supply line going into the lift pimp:



The supply line comes straight from the Racor filter, which I relocated to the frame rail:



Here's a better look at the Racor. It will certainly need a heavy skid plate to protect the plastic bowl, but being positioned on the frame rail means it is siphon fed from the tank so I can open the water drain or even change the filter without letting air into the system:



I used plenty of Adel clamps to secure the lines:



I also got the trans and t-case installed. Maybe I didn't look hard enough, but I didn't find anyone who made the wide truck trans mounts in urethane, and the parts store rubber ones are crap, so I used another spring bushing:



I also needed a new clutch master cylinder mount since the old one went with the old master when I sold off the 465 setup:



One real annoying item was my clutch pedal squeak. I ended up pulling both the clutch and brake pedals and replacing the bushings. I also eliminated the stock-type clutch rod and replaced it with one made from tube and using a Heim joint to attach the rod to the pedal. Major improvement!

That's it for now, but stay tuned; I ain't done yet!
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1991 V1500 Blazer (Silverado), 5.9L 12V P-pumped Cummins (5x .012 sac injectors, #6 fuel plate, WH1C with external 38mm wastegate running 30psi), NV4500 with 1-⅜" input shaft, SBC Con-O clutch, NP205, HAD, 4.10 D61/14BFF spinning 37" Nitto Exo's

"I got a shotgun, a rifle, and a four wheel drive and a country boy can survive."
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Old 01-26-2016, 02:09 AM   #18
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Re: A K5 Cummins Conversion: The saga continues...

Not having a running truck didn't stop me from making it up to the North Kaibab plateau. Here's some pics off the southwest side:











That was an enjoyable trip, except for one thing: since I didn't have my own vehicle I couldn't go exploring wherever I wanted. This made me double my efforts to get my ride going. That North Kaibab trip was in October of last year, and I made up my mind that my truck would be driveable by Christmas. Time to get on it!

At some point earlier in 2015 I had redone my fuel tank pickup. It still had the old TBI in-tank assembly, and I had simply removed the TBI pump and welded a short inlet pipe to the pump holder with a piece of hose coupling the whole mess. I had used fuel injection hose designed to be submerged in gasoline and it was still in excellent shape, but I wanted to eliminate rubber hose from the inside of the tank. I ended up replacing the supply, return, and vent tubes with one-piece stainless steel tubes. I also added an extra ¼" dip tube for a future add-on. All tubes were brazed into the stock unit after the original tubes were drilled out, and then had steel AN fittings brazed onto their ends for fuel line connections. I also put an anti-vortex cap on the suction dip tube. Here's a pic of the top of the tank with the fuel lines hooked up:



The line on the left is the supply (suction), the next to the right is the vent, and the one farthest to the right is the return. The capped fitting on the left is a ¼" dip tube for a future add-on. I should note that the vent line is ¼" air brake line that I heated and flared, allowing to to be directly attached with the same flare nut and backer used for metal tubing. Due to the positioning of the fittings I had to bring the supply and vent lines in down the center of the tank. This left them hanging in space above the axle, so I fabbed a simple aluminum bracket to support the lines:



I built a new PS reservoir (filler neck machined by Todd):



and added a PS fluid filter:



I've had it with push-on hose though. It likes to split the outer sheath, as you can see in that last pic. It doesn't seem to do any harm, but it looks like crap. Since the fittings aren't any cheaper I see no reason to use them over the regular reuseable AN fittings. I intend to replace them with reuseable fittings and Starlite hose over time.

The next item to tackle was my accessory belt setup. I wasn't happy with the amount of wrap on the AC and fan drive, so I needed to do something about that. I kept most of what I had already built, but I added one idler pulley and moved the tensioner:



The tensioner bracket meant that the stock lower water neck wouldn't work, so I made a new one out of a piece of ½" plate and a piece of 2" DOM which is turned down to 1-¾" to accept a common size hose:



My previous fan pulley mount was the stock jobbie that came on the engine, slotted and hacked to move it as far down and to the drivers side as possible. This time around I got Todd to build me a new one:



Next up: more plumbing... yay....
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1991 V1500 Blazer (Silverado), 5.9L 12V P-pumped Cummins (5x .012 sac injectors, #6 fuel plate, WH1C with external 38mm wastegate running 30psi), NV4500 with 1-⅜" input shaft, SBC Con-O clutch, NP205, HAD, 4.10 D61/14BFF spinning 37" Nitto Exo's

"I got a shotgun, a rifle, and a four wheel drive and a country boy can survive."
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Old 02-03-2016, 03:41 AM   #19
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Re: A K5 Cummins Conversion: The saga continues...

I promised plumbing, so here we go! I already mentioned that I moved the fuel lines to the drivers side frame rail due to the fact that the exhaust runs down the passenger side, and the lift pump is located on the drivers side of the engine. Likewise, I decided to relocate the brake lines to the drivers side frame rail

I would have preferred to use stainless steel for the brake lines, but it requires expensive tools to double flare, so I chose to use cupronickel line instead. Cupronickel is typically 90% copper 10% nickel, although I have found some alloys that also included iron. In any case, the purpose of the nickel is to prevent the copper from work hardening and cracking. OE's used the stuff many years ago, but they went to steel due to cost..

Anyway, I am using the same 1 ton master cylinder and hydroboost that I had on before. I eliminated the stock prop valve/RWAL unit because it didn't proportion properly with rear disk brakes. I replaced it with an adjustable unit from Wilwood, mounted to a custom bracket:



The hard lines run down the firewall, then transition to a pair of Teflon soft lines to bridge the body-to-frame gap. Here is where the hard lines reconnect on the frame side:



The line on the left is 3/16" and goes to the rear brakes. The line on the right is ¼" and goes to the front. The 3/16" line had to pass through the boxed section of frame, but there was no way to clamp it in there and it was too long of a span to have unsupported. I solved the problem by running it through a piece of ⅜" stainless tubing with flared ends (to avoid cutting into the soft cupronickel) and supporting the more rigid stainless tube at both ends:





Bracket that drops rear Teflon line to the axle:



Up front, the ¼" line heads to a tee on the front crossmember. You also see the 3/16" line feeding the drivers side caliper, with plenty of Adel clamps retaining everything:



Tee on front crossmember with 3/16" lines heading off to each front caliper:



Caliper hoses are new. I used Teflon brake hose rather than rubber:



I also got vent lines hooked up. I used ¼" air brake line for the vent tubes and connected them with either AN fittings or, in the case of the transmission and axles, using an intermediate rubber hose:



So that's it for now. Nothing exciting, but it's amazing just how much time this all takes...
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1991 V1500 Blazer (Silverado), 5.9L 12V P-pumped Cummins (5x .012 sac injectors, #6 fuel plate, WH1C with external 38mm wastegate running 30psi), NV4500 with 1-⅜" input shaft, SBC Con-O clutch, NP205, HAD, 4.10 D61/14BFF spinning 37" Nitto Exo's

"I got a shotgun, a rifle, and a four wheel drive and a country boy can survive."
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Old 02-03-2016, 08:59 AM   #20
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Re: A K5 Cummins Conversion: The saga continues...

I love using NiCop brake tubing! Bending and flaring is awesome.
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Old 02-04-2016, 12:48 AM   #21
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Re: A K5 Cummins Conversion: The saga continues...

Hey Max, glad you posted those pics of your brake lines, thats exactly the next thing I have to do with my build, even have the same prop valve from wilwood. Love all the pics, keep it up!!
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Old 02-05-2016, 01:21 AM   #22
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Re: A K5 Cummins Conversion: The saga continues...

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Originally Posted by ERASER5 View Post
I love using NiCop brake tubing! Bending and flaring is awesome.
Yup. My first choice was stainless, but you need serious high $$$ tools to double flare it. Steel is a bit easier, but it's still way harder than cupronickel.

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Hey Max, glad you posted those pics of your brake lines, thats exactly the next thing I have to do with my build, even have the same prop valve from wilwood. Love all the pics, keep it up!!
Thanks! FWIW, if you like the bracket I used to mount it, we have a few more.
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1991 V1500 Blazer (Silverado), 5.9L 12V P-pumped Cummins (5x .012 sac injectors, #6 fuel plate, WH1C with external 38mm wastegate running 30psi), NV4500 with 1-⅜" input shaft, SBC Con-O clutch, NP205, HAD, 4.10 D61/14BFF spinning 37" Nitto Exo's

"I got a shotgun, a rifle, and a four wheel drive and a country boy can survive."
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Old 02-05-2016, 02:15 AM   #23
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Re: A K5 Cummins Conversion: The saga continues...

This was an interesting read, and it triggered every one of my OCD alarms haha. All the stuff featured in your swap was the stuff that ends up making my skin crawl; seals, splines, leaks, more seals, splines, opening any type of gearbox at all. I swear, any project I'm doing that results in opening up any gearbox (trans, steering gear, transfer case) and I'm ready to bow out.

You really went to lengths to fix some of that stuff but it looks like you have the organization and the patience to figure it out and make it happen. Nice going.
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Old 02-09-2016, 02:28 AM   #24
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Re: A K5 Cummins Conversion: The saga continues...

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This was an interesting read, and it triggered every one of my OCD alarms haha. All the stuff featured in your swap was the stuff that ends up making my skin crawl; seals, splines, leaks, more seals, splines, opening any type of gearbox at all. I swear, any project I'm doing that results in opening up any gearbox (trans, steering gear, transfer case) and I'm ready to bow out.
You will never learn if you ain't willing to try.

Quote:
You really went to lengths to fix some of that stuff but it looks like you have the organization and the patience to figure it out and make it happen. Nice going.
Thanks!
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1991 V1500 Blazer (Silverado), 5.9L 12V P-pumped Cummins (5x .012 sac injectors, #6 fuel plate, WH1C with external 38mm wastegate running 30psi), NV4500 with 1-⅜" input shaft, SBC Con-O clutch, NP205, HAD, 4.10 D61/14BFF spinning 37" Nitto Exo's

"I got a shotgun, a rifle, and a four wheel drive and a country boy can survive."
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Old 03-01-2016, 04:09 AM   #25
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Re: A K5 Cummins Conversion: The saga continues...

One thing I really wanted to add during this revamp was an intercooler. I knew it would help fuel economy a bit, but mainly it would help keep EGTs in check during long pulls up a grade. It would also be necessary if I wanted to utilize my new injectors and #6 fuel plate. However, in order to fit an air-to-air intercooler I would have to put the radiator back to the stock position, which would in turn mean i would have to procure an un-molested core support and somehow finding a fan that would fit in the meager space available. The alternative would be to run a liqud-to-air IC, but that means more parts. and potentially less efficiency. What to do?

Here's what I did:



Yup, I returned to an unmolested core support, built brackets, and stuffed a 12"x24"x3" core IC in front. Now, as I mentioned, this would mean I need to find a fan that will fit in the narrow space between the big radiator and the engine. Said fan needs to be able to pull a lot more air than the 6.2 fan was able to muster. I found just the fan:



I had to get it nice and close to the engine accessories in order to maximize space between it and the radiator:



I sanded the core support and IC mounting brackets, primed em, and sprayed 'em with PPG acrylic urethane:



Right behind the IC and between it and the condenser I fitted a Long stacked-plate cooler for the PS fluid. Here you can see it peeking out the side:



Here it is with the big radiator (late 90's 454 radiator). There isn't a ton of room between the fan and radiator, but it's enough:



Here's another view. Yup, there's a condenser in there too!



Another issue created by the addition of the IC is an inlet elbow on the intake manifold. The aftermarket ones were a bit too pricey for my taste, so I had settled on building one. At some point I started playing with the old one I had made, and it looked like it could work if the plumbing would clear the brake master cylinder. After some checking and double checking I decided it would work, so I cleaned it up, sprayed it with my usual wrinkle black, and baked it. Here's the finished product:




Next up: exhaust! My favoritest thing! [/sarcasm]
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1991 V1500 Blazer (Silverado), 5.9L 12V P-pumped Cummins (5x .012 sac injectors, #6 fuel plate, WH1C with external 38mm wastegate running 30psi), NV4500 with 1-⅜" input shaft, SBC Con-O clutch, NP205, HAD, 4.10 D61/14BFF spinning 37" Nitto Exo's

"I got a shotgun, a rifle, and a four wheel drive and a country boy can survive."
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