Jump to content
Mopar1973Man.Com LLC
  • Welcome To Mopar1973Man.Com LLC

    We are a privately owned support forum for the Dodge Ram Cummins Diesels. All information is free to read for everyone. To interact or ask questions you must have a subscription plan to enable all other features beyond reading. Please go over to the Subscription Page and pick out a plan that fits you best. At any time you wish to cancel the subscription please go back over to the Subscription Page and hit the Cancel button and your subscription will be stopped. All subscriptions are auto-renewing. 

Teardown and Rebuild


Recommended Posts

  • Staff

I would of considered a different color for the block. Black is impossible to spot leaks on.

 

I will admit it looks nice and clean now. Ready for installing back into the truck.

 

My motor was painted with flat high temp engine black paint. If it where leaking it would not be impossible to spot it on. It starts out shiny but after a few heat cycles is dull and drops of oil and fuel show up on it easily while servicing and spilling.

 

 

You forgot to add a block girdle "Stiffener plate" 

 

I am not sure if it started with the 03 HPCR or the 04.5 HPCR but HPCR's have them from Cummins now too. The girdle isn't nearly as stiff as the big racing ones but it is a girdle none the less. 

 

EDIT: I just looked it up and the OEM stiffener on my 05 is the same one as used on the QSB5.9-480 marine engine. 

 

 

Anyone have a ESN from a VP44 marine engine?

Link to comment
Share on other sites

I thought about a girdle, but at only 700 (The MAX this truck would ever see) I don't need one. If I was going Ppump and 800+ then I would have put in rods, stronger head studs, gorilla girdle ect ect.

Link to comment
Share on other sites

  • Staff

I thought about a girdle, but at only 700 (The MAX this truck would ever see) I don't need one. If I was going Ppump and 800+ then I would have put in rods, stronger head studs, gorilla girdle ect ect.

 

Yes the BIG girdles are needed at 800+, but there has to be a reason Cummins put them down in the 325hp range???? Just thinking out loud and am not sure what, if any, difference it will make for you. 

 

The big difference at moderate power is you just cannot make that power continuously, even towing, so the strain is short lived. 

  • Like 1
Link to comment
Share on other sites

Helps keep the crank journals in alignment while under heavy torque loads to prevent bearing failures and or crank failures. There is a fair amount torsional twisting of the cast blocks under load surprising as it seems. This is why they are always used in Cummins marine application engines, those engines have unlimited cooling and can and do run at high hp and torque loads all day long which is what I was referring to with my 250 gallon water tank in the bed comment a few posts back.

  • Like 2
Link to comment
Share on other sites

  • Staff

Helps keep the crank journals in alignment while under heavy torque loads to prevent bearing failures and or crank failures. There is a fair amount torsional twisting of the cast blocks under load surprising as it seems. This is why they are always used in Cummins marine application engines, those engines have unlimited cooling and can and do run at high hp and torque loads all day long which is what I was referring to with my 250 gallon water tank in the bed comment a few posts back.

 

The other advantage that marine engines have over vehicle engines is constant  load/rpm. If a boat engine is at 2000 rpms the load will almost always be the exact same regardless of boat speed, etc. Additionally a boat engine should have the prop/generator/jet tuned so that peak hp and peak rpms are always at rated rpm.. meaning that at 2000 rpms the engine is not at 100% load based on prop demand. A pickup engine can sit at 2000 rpms all day and go from 0% load to 100% load and back to 0% in a matter of seconds or just look at load while going thru rolling hills. The use is just so much harder on an engine in a vehicle than a boat. 

 

A good example is the hp vs prop demand chart from the QSB 480 spec sheet. As you can see the prop should only draw about 80hp at 2000 rpms but the engine is capable of 356. Look at the requirements at the bottom. One could not achieve rated rpms at full throttle if the prop demanded WOT at 2000 rpms (think back to the hp vs torque thread). 

post-249-0-04943700-1436223273_thumb.jpg

Link to comment
Share on other sites

Nope... I used high temp RTV on the timing case and timing cover. I know it sealed well because I had to take it off once haha. Everything else was fine... Just a little bit of RTV where needed.

 

The problem with coloring... What goes with blue?? Not much, so black it was. I could have painted the whole motor the same as the manifold and turbo but that was too flat for me. I think rburks is correct about that gloss dying off.... Not sure about before the first oil change though! 150 - 200 miles is the first change. 1,500 is the second change.

well lets to an experiment. just to see what the difference will do. i used shellac on all gaskets, you didnt, lets see who starts to see oil or a leak and we can learn from that. sound good? I already have 3500mi on the rebuild and nothing yet. And no this isnt a "you did it wrong" thing, i honestly want to know if doing it differently has different outcomes :)

  • Like 2
Link to comment
Share on other sites

well lets to an experiment. just to see what the difference will do. i used shellac on all gaskets, you didnt, lets see who starts to see oil or a leak and we can learn from that. sound good? I already have 3500mi on the rebuild and nothing yet. And no this isnt a "you did it wrong" thing, i honestly want to know if doing it differently has different outcomes :)

Sounds good to me! Although, I don't know how "controlled" of an experiment this is. Maybe one of us has a warped pan, timing cover ect.

 

Just like every other spec sheet which is a scenario from a perfect world that doesn't exist. Marine use is much like vehicle use and application specific and totally dependent on the loose nut behind the controls.

:lol:

Link to comment
Share on other sites

  • Staff

Just like every other spec sheet which is a scenario from a perfect world that doesn't exist. Marine use is much like vehicle use and application specific and totally dependent on the loose nut behind the controls.

 

Yes and no. The guy with the throttle control doesn't have gears or the ability to lug unless they are changing the pitch/prop. A prop at x rpm will always take the same ± power once rpms have stabilized. 

Link to comment
Share on other sites

Yes and no. The guy with the throttle control doesn't have gears or the ability to lug unless they are changing the pitch/prop. A prop at x rpm will always take the same ± power once rpms have stabilized. 

Just like a vehicle the loads change wave conditions and current conditions change and turns are another load all twill cause a marine engine to lug down, just as many variables as a vehicle has only without different gear ratios. I boat avidly and travel extensively and live and long for the marine life and ride on as many different kinds of vessels as I can and believe me they all have different conditions that make them lug, maybe a barge or cruise ship can live the perfect life of steady eddy cruising but not smaller vessels, have you seen deadliest catch where those ships are climbing waves taller than the boat in wind and storms with loads on, they are not running at a steady constant loaded engine speed.

Link to comment
Share on other sites

Let's keep it on topic gentlemen.... 

 

Not much show and tell tonight. I drilled the crank for the fluidampr pin kit. That was fun... Then I made my brother hang on to the clutch while I torqued the dampr bolts down to 90 ft-lbs.

IMG_20150706_181902_802_zpskfln3k0o.jpg

 

Then it was all wiring... I think I have it how i like it now. I ran another loom across the front to hold the TST, MPG/high idle fooler, and pyro wires. I then ran everything with looms inside the metal wire holders. Wiring things properly takes forever....

IMG_20150706_222813_811_zpsdzvuvtfw.jpg

 

IMG_20150706_222826_560_zpskrkfkv3m.jpg

 

IMG_20150706_222846_157_zpsmxuytoma.jpg

  • Like 3
Link to comment
Share on other sites

  • Staff

Just like a vehicle the loads change wave conditions and current conditions change and turns are another load all twill cause a marine engine to lug down, just as many variables as a vehicle has only without different gear ratios. I boat avidly and travel extensively and live and long for the marine life and ride on as many different kinds of vessels as I can and believe me they all have different conditions that make them lug, maybe a barge or cruise ship can live the perfect life of steady eddy cruising but not smaller vessels, have you seen deadliest catch where those ships are climbing waves taller than the boat in wind and storms with loads on, they are not running at a steady constant loaded engine speed.

 

But not nearly as much as a vehicle. I've been around maritime ops a little bit as well and even delivered fish to some of those deadliest catch boats in the off season from crab. 

 

For a given engine rpm the load varies only by  a small percentage but it can still vary. ±10% variance is a lot different than 0-100-0-100-0 thru rolling hills on a heavily loaded vehicle. 

Link to comment
Share on other sites

×
×
  • Create New...