Tube Steel Inside Corrosion
Tube Steel Inside Corrosion
(OP)
Has anyone dealt with exterior painted structural steel tubes that have begun to corrode on the inside? I've been asked about a building in coastal NJ with exposed tube steel stair framing. It's painted outside, but it is corroding from the inside out. Is there any way to repair this?
-JCali
-JCali






RE: Tube Steel Inside Corrosion
RE: Tube Steel Inside Corrosion
JTMcC.
RE: Tube Steel Inside Corrosion
-JC
RE: Tube Steel Inside Corrosion
My goodness yes.
Yes, and the amount will be small enough to be immaterial.
This is the standard method of solving your problem. If you work with tube, I'm suprised you're not familiar with it.
JTMcC.
RE: Tube Steel Inside Corrosion
The tube structure in question isn't my design. I'm trying to help a colleague resolve a problem at his property. I don't see how adding an end cap is the standard way of solving a corrosion problem that already exists.
-JC
RE: Tube Steel Inside Corrosion
Everybody I know that works with tube is aware of this, from structural engineers to welders helpers in the shop.
JTMcC.
RE: Tube Steel Inside Corrosion
RE: Tube Steel Inside Corrosion
At this point, you have to investigate the amount of section loss and compare it to the expected loads, and recommend replacement if you have significant capacity reduction.
You can seal up the ends at this point, but if you have a lot of corrosion product in there, it has already imbibed enough water to last the corrosion process for quite a while, even without addition oxygen or moisture. If the tubes are short (10 feet or less) you can blast clean the inside and coat them internally. Not cheap to do this, but it will prolong the life. You can also clean them, cap them, then evacuate the air from them. This helps a lot.
RE: Tube Steel Inside Corrosion
This thread reminds me of an ongoing 70 year old debate within the aircraft industry of how to corrosion proof the insides of 4130 structural tube used for engine mounts and fuselage frames in tube and fabric airplanes.
One school believed in the sealed tube theory and made no effort to treat the insides of the tubes. Others would coat the insides with linseed oil before welding. Some after welding the assembly would drill small holes in the tubes, inject linseed oil, drain them and plug the holes with small rivets.
After 70 years the jury is still out because you can find examples of success and failure with each of the methods.
RE: Tube Steel Inside Corrosion
This discussion was beginning to sound less than professional. Once in awhile, a question may seem outright basic, or border on stupidity based on the knowledge and experience of the person reading it. But don't forget, no one engineer is all-knowing, and everyone is subject to different experiences. This forum should be a place that an engineer, or engineer-in-training, can ask a basic question, if need be. It should also be a place where a very involved technical question can be asked, as the more opinions gathered, the better the possible solution. I have found many helpful hints, or at least some information that has pointed me in the right direction in these fora. Many engineers are working as the only engineer in a construction firm, or a manufacturing facility, and may have no peer with which to consult. I don't believe a professional should ever put down a fellow professional for asking a question. It never hurts to get a second opinion. My only warning to all (and I believe most of you already are aware of this) is that because of the variety of experience levels of the many persons in these fora, the information provided should always be verified with further document research, etc. You alone, as the professional-of-record, are liable for your final work product.
Now, back to the subject at hand . .
I believe, as aerodog does, that the jury is still out. However, there are several items to consider . . .
Large pipes and tubes, such as single-pole sign posts can be "seal" welded using E60 electrodes after the structural welding is complete. Even with this, the large interior volume is susceptible to moisture and subsequent condensation. Usually, the deterioration of these poles begins at the weld between the pole and the base plate, where the condensation usually collects.
Smaller pipes and tubes are best protected by galvanizing inside and out, followed by capping, etc. Many assemblies have small penetrations (bolt holes, etc.) where water can enter, particularly when rain is followed by a drop in temperatures, and the reduced pressure inside will suck the moisture inside. Other assemblies, that may be fully sealed, still seem to allow moisture penetration, as the welding and sealing may not be perfect. It doesn't take very much moisture to begin corrosion. If moisture can penetrate, so can the air that is needed for oxidation. Low points in the assembly are collection points for the condensation, and this is usually where the corrosion begins. Ambient temperature changes may cause the water to evaporate and condense within the assembly, exposing the steel to further oxidation potential. I have seen many welded steel tube amusement rides, railings, etc. that have corroded from the inside with no apparent means of moisture penetration.
I believe it is virtually impossible to completely seal steel pipes and tubes against corrosion from within. There is no easy answer, and in some cases, it may be more suitable to provide small weep holes at low collection points, such that any condensate can weep out.
In short, you should study each pipe and tube assembly as an individual case, and ascertain which is the most effective means of protecting against corrosion from the inside.
RE: Tube Steel Inside Corrosion
I've heard of some contractors placing lit candles inside a hollow member prior to installing the end caps. As it was explained to me, the logic is that the caps create an airtight seal and the candle burns until all oxygen within the member has been used up. No oxygen means no corrosion, regardless of the presence of moisture.
I've never seen this done, or specified it, but thought I would throw it out there for discussion. I'm not sure what effect the additional CO2 & CO would have on the steel though.
How about adding sacrifical anodes to the structure? Although they aren't a permanent solution, they can certainly extend the life of a structure.
RE: Tube Steel Inside Corrosion
I certainly thought it was a reasonable question, obviously resulting in some discussion.
On a related topic, it is considered good (essential?) practice by some to ensure that hollow sections subject to freezing temperatures are drained rather than sealed to avoid bursting due to freezing of the water contained within the section. The reason given is that sealing to prevent water ingress due to condensation is extremely difficult and can not be guaranteed.
htt
JdG
RE: Tube Steel Inside Corrosion
First - verify that the existing section is strong enough in its current corroded state.
Second - attempt a fix.
Third - Check your work to ensure that it is doing the job on-site and that it will continue to do the job into the future.
Now, the second part is actually the least important! I don't have any definitive answers but suggest the following.
IF the moisture and air are getting into the section through known holes, these should be sealed either as the whole solution or following some internal treatment.
IF the moisture and air are not getting in through known holes then the welding is suspect and should be ground back and replaced...
Internal treatment of a sealed section is difficult and can involve drilling holes and pumping fluid or air through to remove debris. This can be followed by protective coatings but there is no good method of checking how effective this might be. The new coating is less likely to adhere to the corroded portions. Once this is done the section can be re-sealed - I like the candle idea!
I'd guess that the cost of the above is high. It's always worth considering replacement, either right now or at some future date when the corrosion will become more of an issue. Most metal work in coastal environments needs replacing at some stage.
RE: Tube Steel Inside Corrosion
In the past, the now-outlawed oil-based "red lead" primer was a very good penetrant of existing corrosion, and provided the most suitable protection in my experience. Unfortunately, it is now unavailable.
The closest product that I have been able to find to the red lead primer that IS available is PENETROL (by The Flood Company 800-321-3444). This product is currently manufactured, and can be sprayed, poured, etc., onto and into corroded surfaces of steel, and basically encapsulates each rust partical (as long as the application rate is adequate) to prevent further corrosion, or at least place further corrosion on hold. If the surface is not subject to abrasion from wind and weather, the benefits should remain for a long time.
RE: Tube Steel Inside Corrosion
I have no direct personal experience with the products.
Hg
RE: Tube Steel Inside Corrosion
RE: Tube Steel Inside Corrosion
Hg
RE: Tube Steel Inside Corrosion
Regards
Dave
RE: Tube Steel Inside Corrosion
RE: Tube Steel Inside Corrosion
Regards,
RE: Tube Steel Inside Corrosion
replace it = $100k
it fails & someone is injured = pricele$$ (but the lawyers will try to find the right price!)
remember, you are talking about "stairs". SAFETY FIRST!
in general channel stock should be used in the elements, tube on interiors.
RE: Tube Steel Inside Corrosion
RE: Tube Steel Inside Corrosion
I do not see a mention of how the tube is mounted so maybe we all assumed it is welded to a framework of some sort? If it is welded "permanently", you might consider cutting out the damaged area and replacing it with a sleeve/tube that can be bolted in place.
If it is embedded in concrete, you might cut out the section, fill the hole in the concrete and work with a sleeve assembly.
Time is on the side of corrosion. A poorly finished weld or pinhole might as well be a fist sized hole if given enough time. X-raying welds on a railing post seems like overkill but
I've built a number of railings and like to leave the bottom of any tubes open wherever possible so they can drain and dry. Galvanizing or adding asphalt will improve durability but there may be aethetic reasons for not using tar.
Didn't mean to go on this long.
Good luck.
Griffy
RE: Tube Steel Inside Corrosion
RE: Tube Steel Inside Corrosion
Since you already have corrosion the likelihood of ending up with no metal at all is great whether you fill with concrete or coat with something. Since you give no dimension for the post diameter the usefullness of concrete can be questionable.
How exposed to mechanical damage is this post?
One other point to consider is insurance. If you repair/patch, your insurance carrier may have something to say about the method and extent. You might want to give them a call rather than possibly doing the job twice.
Griffy
RE: Tube Steel Inside Corrosion
Not sure how you can hot-dip galvanize the inside of a seal-welded cavity? Similarly for filling with concrete, or poly foam - these approaches all leave an unsealed port somewhere on the part, with the subsequent potential for water ingress along the seam between pipe & filler. At least the polyfoam is less likely to crack and allow water to migrate in. I could see using PU foam with a slow rise rate, & seal welding the port after filling, but you will have a gas pocket & possible uncoated part areas afterwards...
Tricky problem. Maybe just use corrosion-resistant alloy...
RE: Tube Steel Inside Corrosion
Hot-dip galvanizing is not a repair option but a fabrication option. It would come while the tube's still a tube, before it's fabricated into the rest of the member. You'd get some damage to the galvanizing inside right around the weld, but it's a good start.
Hg
RE: Tube Steel Inside Corrosion
If the steel member is exposed to the elements then I always specify hot-dip galvanization after fabrication and before delivery to the job site (obviously). In addition to that, I specify that damaged galvanized areas due to handling and field welds be touched up with zinc based rust inhibitive paint.
Regardless where the hallow section is used I always specify it to be filled solid with concrete or grout with high slump 5 to 7" minimum. So far, I have not seen any of my buildings rusting.
RE: Tube Steel Inside Corrosion
Hg