ok i will try that thanksYou just have to setup and account. I paid $21.00, new in the Cat wrapper. Just setup a login, your address etc and the prices will update. I ordered filters for $6.00 too.
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ok i will try that thanksYou just have to setup and account. I paid $21.00, new in the Cat wrapper. Just setup a login, your address etc and the prices will update. I ordered filters for $6.00 too.
ok i will try that thanks
I don't think the flex line will appreciably change oil pressure or flow as long as the bend radius is not too tight...
Once the O-rings are under compression, I don't see them offering much dampening surrounded by the rigid fitting.
Corrosion on the pipe could be a weakening issue, the heat from the ends being soldered on could have also effected the hardness of the metal in that area, making it more brittle and prone to fracture. It is an overhung structure(diving board) and will be more prone to vibration. Adding any weight to it(tape or deadening material) might make the issue worse(fat guy on diving board). IMO the best way to dampen this is to attach the middle of the loop to a bracket attached to the head(diving board turned into a bridge)...
yes!!! several threads on blown engines that relate this issue to reason behind blown engineIs there more than this one thread on this problem?
what parts in that picture are swagelok?? see braided line and steel lines in the pic that look like average braided and steel lines.... so what makes swagelok better?I was just wondering why not just replace it with all SwageLok and everybody be done with it.
This stuff does not fail.
Used all over power plants, aircraft, and a Deuce.
View attachment 782793
A lot of the suggestions/ideas being made here are not well informed. Solid tubes are better at most things (which is why they put it there in the first place). If your compressor isn't loose, and the tube isn't corroded, it's not likely to fail, and the metal tube is a good choice. The few instances we have of the metal tubes failing are probably symptoms of other problems (e.g. loose parts, corrosion, etc.), not the root cause, so simply inspecting the tube should be sufficient.
If you go to a flexible tube, you have to go to a considerably larger size to still flow the same amount (I think it's like 50% larger... not trivial). Engineers generally only use flexible hoses when you need articulation, very high vibration resistance (such as vibratory conveyors, not a balanced spinning assembly like an engine), or because of thermal expansion (large assemblies like a tire molding press grow/shrink quite a bit as they get hot/cold, which is why even if it is a solid tube it will probably have a zig-zag in it to allow expansion at that accordian-shaped point).
https://www.hoseandfittingsetc.com/our-blog/hose-v.-tube-assembly-in-hydraulic-systems
I think you might be reading it backwards, which is why I was trying to phrase it as "metal tube" and "flexible hose", not just "tube" and "hose". The metal tube has the more consistent ID. Basically everything is better about metal tubing, except that it isn't flexible, so you should always use metal tubing unless you need the flexibility. Flexible hose has a less consistent ID, as well as significantly more resistance (pressure drop over the length of the hose, due to friction with the hose wall), which is why you have to use a much larger ID hose than a metal tube. This is why the suggestion to just ditch the OEM metal tube and replace it with a flexible hose could introduce serious problems if it's not well thought out.I.D. diameter is was one of my concerns when the fix was documented. Using the documentation that you provided, it would appear that that the hydraulic hose as a more consistent I.D. The I.D.. on tubing appears to be more of a nominal number, varying significantly with O.D. Based on that info,, I'm also thinking about the temp ratings. Might have to check temp today.
I have both set ups. I will mount the flex today. Why? No O rings were supplies with the cat part. They appear to be more like a faucet washer than a typical O Ring.
You're right, it is a short run. I still recommend using a larger line if you can. If you know a flexible line of the same size is going to reduce flow some amount, and you don't know what long term effects that may have, why chance it?I don't think you will have that much restriction in that short of run.
Yes just like the hydraulic lines on the wrecker are hardline the twenty feet and hoses at very end of run, I can see that but on a hose that is what 10 inches no
If hose is same Id as pipe should be absolutely no issue.
OD (in) | Gage (in) | ID (in) | Weight (Lbs/Ft.) | C-1010 Steel Pressure Rating (PSI) |
5/8 | .083 Wall | 0.459 | 0.4810 | 3,350 |
3/4 | .095 Wall .120 Wall | 0.560 0.510 | 0.6646 0.8070 | 3,150 4,110 |
Hose Style | ID (in) | Weight (Lbs/Ft.) | Pressure Rating (PSI) |
387-8 | 1/2 | 0.2900 | 3,000 |
487-8 | 1/2 | 0.3500 | 4,000 |
787-8 | 1/2 | 0.4500 | 5,000 |
797-8 | 1/2 | 0.4500 | 6,000 |
451-8 | 1/2 | 0.3500 | 3,000 |
302-8 | 1/2 | 0.4500 | 4,000 |
436-8 | 1/2 | 0.3400 | 3,500 |
BXX-8 | 1/2 | 0.4600 | 3,500 |
721-8 | 1/2 | 0.5400 | 4,000 |
M808 | 1/2 | 0.4600 | 4,000 |
I think you might be reading it backwards, which is why I was trying to phrase it as "metal tube" and "flexible hose", not just "tube" and "hose". The metal tube has the more consistent ID. Basically everything is better about metal tubing, except that it isn't flexible, so you should always use metal tubing unless you need the flexibility. Flexible hose has a less consistent ID, as well as significantly more resistance (pressure drop over the length of the hose, due to friction with the hose wall), which is why you have to use a much larger ID hose than a metal tube. This is why the suggestion to just ditch the OEM metal tube and replace it with a flexible hose could introduce serious problems if it's not well thought out.
It's been a couple years since I took mine off, but I don't think the OEM metal tube had o-rings. I think it's just a standard flare fitting. But I could be wrong.