How Engineers Solve the Problem of Punching Shear Failure

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𝙈𝙞𝙡𝙡𝙚𝙣𝙣𝙞𝙪𝙢 𝙏𝙤𝙬𝙚𝙧 𝙥𝙡𝙖𝙮𝙡𝙞𝙨𝙩:
• Millennium Tower
𝘾𝙝𝙖𝙢𝙥𝙡𝙖𝙞𝙣 𝙏𝙤𝙬𝙚𝙧𝙨 𝙎𝙤𝙪𝙩𝙝 𝙥𝙡𝙖𝙮𝙡𝙞𝙨𝙩:
• Champlain Towers South
𝙊𝙣 𝙋𝙤𝙞𝙣𝙩 𝙥𝙡𝙖𝙮𝙡𝙞𝙨𝙩:
• On Point
𝙊𝙣 𝙩𝙝𝙚 𝙅𝙤𝙗 𝙥𝙡𝙖𝙮𝙡𝙞𝙨𝙩:
• On the Job
𝙊𝙣𝙚 𝙤𝙣 𝙊𝙣𝙚 𝙥𝙡𝙖𝙮𝙡𝙞𝙨𝙩:
• One on One
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5 авг 2022

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Комментарии : 711

@BuildingIntegrity 2 года назад

A lot of you are asking "How do we fix the problem?" presented in this video. That will be in a future video so stay tuned and thank you always for watching!

@richardgarrett2792 2 года назад

My question answered in the future. Thank you.

@deconteesawyer5758 2 года назад

Sad. So we have to tune into the future to know the answer to the question you started the video with. OK. I will jump ahead, and say if it costs money, it is a serious problem.

@ethanpoole3443 2 года назад

It is painfully simple, we just tear down the existing building, substitute for the proper size stud rails, then repour the floors and rebuild the building the way it was meant to be built to begin with. Surely nobody would object to this solution! 😂 Though in reality, I am guessing you would do something like an epoxy floor covering to seal the concrete on the top surface so that they are not continually exposed to new moisture.

@PatsPurposefulPutzing Год назад

Epoxy patch product

@surewhynot6259 Год назад

@@deconteesawyer5758 the question he started the video with was "how do engineers solve the problem of punching shear failure," which was clearly explained. The question he is pointing out is "how do we fix the problem of corrosion of the stud heads when exposed to the elements," which is to be covered, for free, in a later video.

@newagaingospel 2 года назад

I was a structural designer for 41 years. I'been retired for 8 years now. I didn't do a lot of concrete design; mostly steel design but I find these types of topics fascinating. Thanks for your videos and keep on teaching.

@BuildingIntegrity 2 года назад

Thank you so much for watching and commenting.

@sbriks 2 года назад

Greg.. similar history.. glad we have a place to meet.. virtually.

@sbriks 2 года назад

@@BuildingIntegrity Appreciate your channel.. Thank you.

@davesmith5656 2 года назад

The instruction and explanations on this channel impress me as being CLEAR and uncomplicated. That's a sign of someone who understands his subject well enough to make it seem simple. I know nothing about ergs and joules and newtons and force vector this and force vector that, but I'm getting glimmers of understanding from watching the videos. Hey! A glimmer is a glimmer!

@az................. 2 года назад

Agreed, these videos are fascinating. As a Bay Area native the Millennium Tower caught my attention but it'd be fun to see deep dives on other engineering challenges. The Bay Area has so many to choose from: the new Bay Bridge, the new Transbay Terminal (right near the Millennium Tower), 33 Tehama, or even older stuff like the San Onofre nuclear plant.

@thetowndrunk988 2 года назад

You have such a way of gluing people to the screen, and really paying attention and learning. If I was a kid again, I’d seriously consider this for a career path, based solely off your videos.

@BuildingIntegrity 2 года назад

Thanks, that means a lot to hear.

@davesmith5656 2 года назад

I'm not a kid, and I'm considering it. (Wild imagination, heh!)

@AkSonya1010 2 года назад

I definatly agree, I have always loved building design but this has changed how I look at everything around me.

@acigarbar Год назад

Agreed. I' m not even a kid and considering a career path change. A friend of mine works in building inspection and now her and I nerd out on this stuff. I love your content!

@lemontart507 2 года назад

Please more of this type of content, as an architect it help me to better communicate with engineers and better understand their needs.

@VintageProjectDE Год назад

I second that. As an electrical engineer in switchyard construction, I have to look outside of my box and at foundations and steel constructions. That concerns, for example, wind forces and forces from short-circuit loads. Josh's videos help me a lot to understand those trades, too. A deeper insight into reinforcements would be highly appreciated.

@susanlilley-rizos9906 Год назад

Why does a 72 year old retired grandma find your videos so fascinating? It’s because you explain everything so well. It is not boring. I really learn from you. You have a true calling for explaining things, so we all can understand and find interesting.

@joeburkeson8946 Год назад

Lifelong learners appreciate how your teaching style conveys a total version of the concept without requiring the burden of mathematical proof. Competence over mastery allows me the freedom to observe and graze more knowledge. Subscribed, Thanks.

@Russv2 2 года назад

This is such an interesting technology. Thank you for explaining it in a way non-structural engineers can understand. Well done. Love your videos!

@BuildingIntegrity 2 года назад

Thanks for kind words!

@smizles 2 года назад

My guess: it's serious because now that moisture has access to the rebar, the corrosion will accelerate weakening the joint. The rebar will swell from the corrosion causing more spalling of the concrete, which turns into a feedback loop that accelerates everything. 🤔

@GRDwashere Год назад

As a mechatronics & robotics engineer that works on weapons systems I want to give all you structural and civil engineers a shout out - thank you for designing all these targets for me! 😁

@linmal2242 Год назад

LOL...aim for the weakest; so we can replace them better !

@nathandanner4030 2 года назад

Wow, you got me! At the beginning I didn't know what they were. After you started to explain I realized that I've been carrying one in my tool bag for almost 15 years. I picked up one of the spare studs off a jobsite and have been using it as a "Banger" to hammer things all this time. The narrow end sits on an anchor inside a box or some other narrow area and you can pound on the head with a hammer to set the anchor. The wide head helps to cordinate my hammer blows as I've never been the most cordinated with my hammer. I even lost my first Stud after a few years and found a new one on another jobsite. I consider it a very useful tool even though it's not the original intended purpose.

@BuildingIntegrity 2 года назад

That's what I love about construction. When tools get used for their unintended purpose to make another task easier. Thanks for sharing!

@johnstewartrichards5922 2 года назад

Perhaps this is a sign that the concrete surface needed some protective coating to reduce or prevent surface water ingress. Not an immediate problem but a maintenance topic to follow. Can you do a segment on concrete surface protection ethics and one on rebar coating methods to reduce rust impact? Different climate zones also important. A winter location where salt is used on roads will impact concrete parking spaces as salt water drips off parked cars. This might be similar to or slightly different to salt air conditions in coastal areas.

@ATSaale 2 года назад

Typically worse I think since road salt is harsher and more concentrated than salt from ocean moisture

@frankmiller95 2 года назад

Hot dipped galvanized and other forms of highly corrosion resistant rebar is widely available and costs roughly twice as much as black rebar. ln the overall cost of a major project, that additional expense would be negligible and would go a long way towards mitigating these sorts of issues. Why isn't corrosion resistant rebar required or used more commonly in US construction? To quote Randy Newman: "lt's money that matters, ln the USA."

@TB-ni4ur 2 года назад

@@frankmiller95 Most projects are designed assuming a roughly 100 years max lifespan, for which standard rebar is certainly more than adequate provided proper construction techniques are observed. That might sound short sighted, but it really isn't as most buildings become functionally obsolete after 50-75 years and wind up being abandoned or replaced with new structures anyways. On a separate note, if you've ever seen a large slab under construction, the life of a bar can be pretty brutal, and there is zero probability that the bars will not have massive and unpredictable damage of that protective coating. The type of long-lasting construction you're suggesting works much better on civil structures like roads and bridges, in which the budgets are much bigger, construction timelines are longer, reinforcement placement is more uniform and organized, and the laborers are usually of much higher skill and proficiency, so laying down bar in a "clean" fashion is much more practical.

@ajr993 2 года назад

Most salt put on roads is not regular salt. Its a less corrosive substance and often times corrosion inhibitors are added. Its unlikely there would be a significant impact from dripping as a result of road salts.

@JCrook1028 Год назад

@@ajr993 Have you never seen what road salt does to the undercarriage of cars? It eats it rather quickly.

@johnnynephrite6147 2 года назад

I learned in engineering school theres no such thing as a "minor" structural problem. There are structural issues that will become major problems down the road.

@tallswede80 Год назад

minor issues are ones that can be corrected

@Mj-CWO4 Год назад

How is this issue fixed?

@808bigisland Год назад

@@Mj-CWO4 Accounting says there are can be no problems with the cheaper concrete mix. Procurement agrees with accounting.

@olik136 Год назад

@@Mj-CWO4 rust protection. the only reason metal has to be covered by concrete is that the ph level keeps the metal from rusting. but you can also use protective coatings- so get rid of the rust and paint it.

@Loliessss Год назад

civil and structural engineering channels that actually explain things well and cover interesting and realistic situations are so few and far between so glad I found your channel.

@k.y.6148 2 года назад

For the next video, tell us how to fix the one where the stud heads were not sufficiently covered.

@BuildingIntegrity 2 года назад

Will do. I am waiting on footage that we will get when it gets fixed so we can visually walk you through the whole process.

@rogerwilco2 Год назад

@@BuildingIntegrity Nice.

@sf-jim8885 Год назад

I first became acquainted with your channel after the Champlain Towers tragedy, and I found your excellent explanations very enlightening. I'm a cinema technician, so I know nothing about structural engineering. After watching your videos, I still know nothing, but I understand it better. (PS> I live in San Francisco, where the Millennium Tower building continues to slowly tilt off center. I used to enjoy lunch at an outdoor plaza almost just across the street from it, but I just cant eat there any more because being anywhere near that building makes me really nervous. Now there's a structural engineering problem I wish you or someone could solve, for the sake of the residents and my lunch hour! )

@gpdewitt 2 года назад

As a retired private building inspector, I can tell you if it was built that way, it likely violates code. All steel must be a certain distance from the surface of concrete, 2" if I recall correctly. This (code) is an attempt to prevent spalling. No Idea if this is a big or little deal. Did the contractor put the column (or the connecting steel in the slab) in the wrong place??! Edit - Oh, I see now that I finished your vid. Question 2 - wouldn't it be stronger to have the steel go across the column, maybe be welded to the column reinforcing steel? I usually see the horizontal and vertical steel tied together on construction sites. Question 3 - How can reinforcing steel be prevented from damage due to "rising damp", moisture rising due to capillary action of porous masonry/concrete? Seems to me every building built with it sits on the ground, which is varying levels of damp/wet. What about pier or bridge columns that are in water? Comment - State of California spent billions after the '71 and '94 earthquakes reinforcing the columns holding up the freeways as they punched right through. Interstate 10 was severely damaged in places.

@alielabdimarras7965 Год назад

6 cm in Germany if I recall correctly. I am no civil engineer, only mechanic engineer.

@jame3shook 2 года назад

@18:15 and if the T head is gone as well, the stud rail is like a series of nail ends without any holding power.

@himabimdimwim Год назад

Ooh! I like that this feels like an educational course rather than a commentary on a topic. Very informative and great graphics, thank you!

@d00dEEE 2 года назад

Seems to me that the "upside down" orientation (connecting rail on top) is the better one, as the rail between the studs is then on the tension side, and will transfer the bending moment even farther out on the top skin of the slab.

@ThunderClawShocktrix 2 года назад

better yet why not make it like a ladder 2 rails connected by rungs?

@d00dEEE 2 года назад

@@ThunderClawShocktrix I had the same thought later. Cost? But how cost sensitive are these sorts of parts? Probably not at all, when you account for the whole building's materials. Maybe the nail-heads isolate fracture points better than a defined edge? (I'm just making things up now.)

@oldcynic6964 2 года назад

d00dEEE I too wondered about that. I suspect (based on no knowledge of construction techniques, I freely admit) that the problem with having them "upside down" is that when the concrete is poured it will NOT flow like water and fill ALL of the area underneath the connecting rail. It will leave air gaps, and those air gaps will compromise the integrity of the slab. As my old man used to say "opinions are like a*s-holes. Everybody has got one and some are more smelly than others". This idea of mine may be a stinker !

@Timoohz 2 года назад

@@ThunderClawShocktrix You can't get the ladder rails trough a rebar 'net', but you can poke the studs trough. You could put the ladders in first, but then you'd have to weave dozens of rebar bars trough. Some rebar could be fitted under the stud heads rather easily, or a piece of flat iron with slots cut for the studs...

@d00dEEE 2 года назад

@@Timoohz Aha, it all becomes clear! Mystery solved.

@kimberlyperrotis8962 Год назад

Since watching your channel, I’m inclined to think that any rusted steel is potentially a major problem! It never occurred to me to look at these things before, I’ve learned so much from your channel, thanks. The last multi-story garage I parked in I looked around, there wasn’t a spot of rust anywhere, looks like they did a great job.

@PFMediaServices Год назад

If you're interested in this topic you should take a look at Practical Engineering as he recently did a while series about corrosion which is pretty interesting!

@Roger_Gadd 2 года назад

The question that the conclusion of this video raises to me is what form remedial work would take. The solution that immediately springs to mind is to seal the the slab over the stud rails with a millimetre or two of a suitable epoxy coating. This then raises another question of whether it is necessary to remove the existing small amount of corrosion before coating the slab.

@740mc 2 года назад

If there isnt a significant loss of section by corrosion, i think that you could use the typical procedure for corroded armature repair, treating it to remove rust then coat with an epoxy bonding layer and a thicker layer of concrete on top, or on the worst case casting a capital or drop panel under the slab anchored to the column.

@alexlail7481 2 года назад

It would seem possible to remove the heads if they are severely damaged and remove the concrete from around the rust affected area and weld new heads slightly lower on the shafts. Then epoxy coat and replace the concrete layer covering them as mentioned above. Though the previous post would probably be preferred provided the damage is not severe since there's less liability involved .

@brnmcc01 Год назад

@@alexlail7481 The heat from welding will cause moisture in the existing concrete to form steam bubbles and cause more spalling. Then you have the problem of adhesion of new concrete to the old existing concrete. Little patches tend to just flake off.

@alexlail7481 Год назад

@@brnmcc01 I think we may have different ideas as to the scope of the work...

@Mj-CWO4 Год назад

@@brnmcc01 use epoxy it’s stronger than concrete and bonds with surrounding concrete, used it to repair warehouse floors and loading docks. A lot stronger than actual concrete

@timothykeech7394 Год назад

I had very short spell as a structural engineer designing mostly in reinforced concrete. I can remember being asked by heating and ventilation engineers whether it would be possible to have holes in the concrete next to the columns and doing calculations within the code of practice current at the time and giving them a yes or no on that basis. At that time these studs had not been invented or introduced. You have now made me rather nervous about some of my working. I am happy to say that these buildings are still standing after 52 years so so far so good.

@StarBlue67 Год назад

I’m an electrical engineer and love all types of engineering. I find it interesting how nature repeats itself. Solder cracks in a very similar fashion but due to heating/cooling; creating a cold solder joint. Also when lightning hits an Integrated Circuit, the core looks like a shear punch head. I had guessed not serious now but will if left unmonitored in the future. Great Topic!

@MostlyLoveOfMusic 2 года назад

this video was fantastic - a technical explanation that I think most people can understand, whether structural engineers or not

@shorttimer874 2 года назад

This channel fascinates me, fills a need I did not know I had. Every now and then I come across a gem like this on RU-vid. Another was a online series teaching the Python programing language to Google employees. Always hated school, guess it was just that I experienced the wrong instructors for me.

@Panttts 2 года назад

i get involved in a lot of flat slab design in the UK and recently really did a deep dive into punching shear design and shear rails and comparing different codes of practice and found it really interesting how the control perimeter varies between various countries coded of practice, along with the minimum requirements and allowable contribution from the shear strength of the concrete itself, and influence of bars passing straight through the column. found a particularly funny article from the 90's talking about "shear hoops" which looked ridiculous but at the time seemed promising, and stud rails were just sort of a foot note (and called "shear combs"!) great video definitely a great starting point for learning about punching shear and how to visualise it.

@hatjodelka 2 года назад

I'm less than a minute into your video and I have absolutely no idea whether this is a little problem or a big problem but either way it should be properly looked at by a structural engineer who knows about concrete as you can't see what's going on underneath.

@lwilton 2 года назад

Interesting. Never having heard of stud rails, when you initially asked "major or minor", my answer was "no opinion". Once you explained what they were, my assessment changed to "major problem". Not a major problem _now_, but knowing what human nature is, when told something will be a major problem in the future, the response is almost always "well, let whoever owns the property then worry about it, I don't have to spend any money now". Anyone that suggests that it doesn't work that way for buildings should go back and look at the FIU bridge or Champlain Towers South.

@MCPicoli 2 года назад

The distinction between important and urgent is crucial. This problem with the stud heads in my opinion is very important, since it may cause the collapse of the building if not taken care of, but not urgent (for now) since the corrosion is still small and limited. No need to evacuate the building, for example

@budprine1591 Год назад

I retired from my construction engineering job 25 years ago. My tallest building is in Chicago at 67 floors.. I'm a Civil Engineer and a PE. I never heard of studrails before this video.. Thanx for explaining their use.

@jlr3636 2 года назад

Question- is it inevitable we will find that reinforced concrete will not stand the test of time. Wood and/or steel structures can decay however if is more or less simple to repair or replace, you can expose the problem area and repair. However reinforced concrete the rebar can deteriorate, concrete can spall. It is harder to repair, you can’t just cut out a section and replace because it is designed as a monolithic structure with engineered overlapping steel rebar. Seems to me most concrete repairs only patch and retard or cosmetically cover the problem, after the patch it isn’t really better than before.

@740mc 2 года назад

With proper maintenance concrete structures can stand much more time than wood. Repairs, if the problem is addressed in reasonable time, can be made with the addition of more reinforcing elements on top of the existing ones generally. I think thats exactly the opposite in this aspect, as wooden and steel structures depending on the type , you'd have to replace entire pre-made elements, as on concrete structures its possible to even cast new beams and colums in extreme cases, provided the correct shoring and other procedures.

@arthurmoore9488 2 года назад

Take a look at Building integrity's "Reinforced Concrete's Number 1 Enemy" video.

@aeroderek 2 года назад

For the learning engineers out there I have 2 clarifying points. 1) The roughly 45 deg fracture plane corresponds to the max tension principal stress of the cross section. It's not exactly the bending that causes it but a far off load causes bending and shear stress together. Bending moment is the integral of shear 2) The pull thru shear area is not the top view area he cross hatched. It is the effective perimeter times the thickness. That perimeter could be something like a diamond shape between the 4 corners, or it could be more circular if more radial ties are installed. Overall very good explanation for non-engineers :)

@BazilRat 2 года назад

Man I don't have enough data to make a firm judgement but it's definitely something I'd want looked at.

@StrangerInAStrange 2 года назад

Fascinating. Thank you for presenting this in such a 'lay-friendly' manner. Would have been interested in the required treatment for the exposed stud rails.

@johnspathonis1078 Год назад

An excellent video. A good starter for students. These stud rails are a simpler form of ligature which converts the beam/stab into a truss member. The studs take tension forces and the concrete takes the compressive forces at an inclined angle from top to bottom. Another similarity are the vertical web stiffeners on large steel I beams. The web stiffeners take the compressive forces and the flat web inbetween takes the tensile forces. This is to prevent web buckling. So in essence the forces are distributed to those components best suited for the preferred type of stress condition. In concrete ----tension is bad, compression is good. In steel --- tension is good, tension may be bad if buckling can occur. Cheers.

@gren509 Год назад

The stud rail should be replaced by a welded ladder design - as if you joined all the stud heads together. That would provide better ancorage and increased tensional resistance to the upper edge of the slab.

@lancecluster 2 года назад

Always interesting, always presented clearly.

@helenthomas9551 2 года назад

This is so thorough and understandable. Many thanks.

@tombloke4116 Год назад

I spent my life as a contractor, inspector and facility director. Your videos are excellent. I watched this video and then watched it again with my son, who owns 3 construction companies. Very well done, thank you for sharing your expertise.

@SJR_Media_Group Год назад

As always... excellent information from you. We know how to 'not build' columns, those that pose Punching Shear Failure. The recent condo collapse is still a great classroom where ideas can be shared,

@Aranimda 2 года назад

Could be a sign of rusting concrete reinforcement. So I would say a serious problem.

@ohmcintyre2067 2 года назад

You make engineering so interesting! If I were 50 years younger I’d consider it as a career.

@TheLuminousOne Год назад

a lot of work, sacrifice and lack of appreciation

@ohmcintyre2067 Год назад

@@TheLuminousOne I’m sure that is true, but, my brother is still an actively working civil engineer at age 85 and loves what he does. His wife finally convinced him to cut back to 4 days a week.

@TheLuminousOne Год назад

@@ohmcintyre2067 that's really impressive!

@paulbuttner6808 2 года назад

Another informative video with a great explanation. I find them easy to understand and follow. You help make this subject very interesting and I look forward to the next one.

@amme30 2 года назад

No scientific/engineering background: I think they are part of the rebar for the top of the foundation piling cap where it ties into the column. I guess that it should not be close to the surface, the concrete slab has been poured too thin and it is rusting withing and will cause spalling which could continue to erode and weaken the structural integrity of the foundation and columns. I also guess this is from water ingress due to a high water table or poor drainage. Will update comment after watching video. Finished watching. I was wrong and won't give up my nursing job! Have still learned plenty!

@mattlauer3323 2 года назад

another great explaintion. look forward to your content.

@OctaviusRomulus 2 года назад

You are such an excellent communicator. Thank you for your videos!

@WasimShezadIlyas Год назад

Subscribed! Thank you for the very easy to understand video. Your illustrations and explanations are very clear and logical. And you actually delve relatively deep into what’s happening. Looking forward to more content like this!

@BuildingIntegrity Год назад

Thanks for subscribing!

@MrWillwork4fish 2 года назад

Great video, as always

@Iamdebug 2 года назад

This channel is easily one of my favorite channels and this is another very good video.

@thedubwhisperer2157 Год назад

This channel has a way of explaining things so clearly that I finish the video feeling that I have always known about the subject! Simply brilliant.

@walterbrown8694 Год назад

It's obvious from the photo that corrosion of the stud rails is present - eventually, the corrosion can progress to the point where the entire shear head could fail because of the severe expansion of corroded steel inside the concrete causing loss of structural integrity of the entire shear head itself.

@williamlulay7982 2 года назад

I love your explanations, so clear and concise. I didn't even bother guessing at what the problem was initially - had no idea. This is the first I've ever heard of stud rails, and it was most enlightening. Overall, however, I'm getting the disturbing message that a poured concrete building's safety is being compromised by cheaper construction methods, the stud rails are further evidence that attempts to correct the safety deficiencies are being tried, and, sometimes, ineffectively used. This is equivalent to not placing X-bar reinforcing in buildings in earthquake zones because it costs more and looks unattractive, but would you rather be in an ugly safe building in an earthquake zone, or an unsafe, attractive building, when the ground starts shaking? We all know which developers and realtors choose, but they're placing the occupant's lives at risk. I'll take safe and ugly anytime!

@65impala96 2 года назад

Excellent explanation! I'm a non-egingeer and this provides logic to follow.

@mmatejka01 2 года назад

Another great video Josh. I enjoy learning from you...!

@scaleyardmarine 2 года назад

After all your analysis coverage of the tower and this keeps me constantly looking up now in every parking structure here in salty NovaScotia

@mikegamerguy4776 Год назад

Just found this channel. It's surprisingly interesting. Thanks for the content!

@micraman42 Год назад

I have seen the concrete chipping away from the tops of stud rails before. I knew it had to be structural, but until today, had no idea what stud rails were and how they spread the load to greatly reduce the effect of punch shearing. Thanks for the great explanation.

@josephvalentjr7677 2 года назад

Excellent as always. They do this with steel decking ,by welding the studs to the decking and to the beam below the decking ,anchoring it all together.

@mowcards3880 2 года назад

Using stud rails is like getting Tommy John surgery before you actually injure your elbow and need the Tommy John surgery. Funny be cause pitchers would wait until their elbow was compromised before getting Tommy John, now some will get it before injury to avoid injury. Sounds the same to me

@alecball68 2 года назад

This is the best channel that's very interesting and very informative I am glued to this channel thanks

@elainebilodeau6123 2 года назад

I enjoy listening to you talk. You are an amazing person. Keep up the good work.

@Wolfgangtailchase 2 года назад

I live in sweden and here most residential buildings are built using precast concret walls that are asabled on the construction site. So instead of load bering pillars you get load bering walls in the whole building. What do you think of that method of construction compared to the one using pillars?

@SharkFishSF Год назад

Better than column beam....

@MajorCaliber 4 месяца назад

Is this what is known as Large Panel Systems (LPS)? I believe several Swedish-designed LPS products were used in The UK to build both low- and high-rise residential dwellings, esp. in the 1945-1970 postwar period, as the Blitz-bombing had ruined so much housing.

@beepeesoup Год назад

Dude, you are so amazing in Eastbound and Down!

@coachmattc 2 года назад

I doubt I will ever need this information, but I am fascinated by it. You do an amazing job of explaining it. Thank you.

@fishbowl7098 2 года назад

Great stuff as usual, thank you!

@hippiebits2071 Год назад

It's always very impressive how much effort you put into making these videos. I hope you will cover the Royalton at River Oaks in the event that gets interesting. If I'm not mistaken that is even a newer building than CTS. Greatly appreciate all that you do.

@kmagnussen1052 2 года назад

The stud rail is a minimal number component as compared with rebar. As such it would be advantageous to use stainless steel. My preference would be capitals where loads are high or moving; i.e. parking garage.

@st3althyone Год назад

Excellent presentation of a minor problem that will become a mojor one if not addressed properly. Thanks for your hard work and dedication.

@vas4739 2 года назад

Loved this video! Thank you Mr P!

@joebullwinkle5099 Год назад

Great video. It's really inspiring to learn from a pro, subjects like this in the building industry to further ones knowledge. Thank you.

@Dihechuwa 2 года назад

Never a dull moment in your presentation...... not one! I encourage you to do more like this.

@Indiskret1 Год назад

Fantastic episode, learned a lot! Thank you.

@logsie3918 2 года назад

Hi there just wanted to give you some feedback I have just found you again after not seeing anything uploaded for a little while and noticed I had to resubscribe. I never unsubscribe as I love learning and watching your very descriptive breakdowns on engineering. Keep up the great work and I have re subscribed again. I wonder if this has happened to others aswell?

@anneyday3493 2 года назад

This was super interesting. Thanks for explaining so clearly.

@jackfunk5765 2 года назад

always learn something from you. thanks for this explanation. you did a great job.

@biopsiesbeanieboos55 10 месяцев назад

An intensely unique channel. The ratio of comments to views says it all, approximately 1:100. Your videos have a become a legitimate reference source for the Engineering world.

@garyc39 2 года назад

Newtons third law for every action theres an equal and opposite reaction.Gravity is the action steel and concrete are the reaction.The more you try to cheapen the cost of construction the more you cheapen the construction.Surfside is an example.

@space.tel-e-grams 2 года назад

How bad do you think spalling on an overpass support has to be before there is a structural danger of collapse? We have one in town here that is missing chunks of concrete and the exposed rebar is clearly corroding. Seems like the state is ignoring it and it's been progressively getting worse for years. I am absolutely terrified of getting stopped under it when traffic backs up from the nearby red light.

@ccdoe2441 2 года назад

Good question. I often see big chunks of spalling concrete and rusted rebar on overpass support and wondering when it's going to fail. Can such problem be fixed?

@7anashMalaysia 2 года назад

In my country we mostly do solid slab with the beams. Less weight and labor costs are lower so it becomes cheaper than flat slab

@kiwibuilder Год назад

Thanks for all your interesting analysis and comment Great work and I hope you are rewarded for efforts very well!!

@daklakdigital3691 Год назад

I have, in my retirement in a lndoChina country, built 2 small hotels, a house and workshop with an apartment above. I find this series fascinating and informative. Thank you.

@Sarafimm2 2 года назад

I was wrong, but I automatically thought rust = spalling. This is something I learned just from watching your channel. My thought was that if it was NOT of immediate concern, that the rust issue MUST be addressed. First, to remove the rust and see how much deterioration had occurred. Second, if the deterioration wasn't bad to immediately cover with a rust/waterproof paint as a very short term solution. And then there would need to be an intervention scheduled with an appropriate maintenance crew to permanently (or as permanent as possible considering the life of the property) fix the issue.

@luftstolle Год назад

I have no idea why RU-vid recommended this video to me, but it was very interesting to learn about something completely new to me! Very nice explanation and video presentation. I subscribed and I'm looking forward to the video answering how this can be fixed.

@jamiec5565 2 года назад

Its always interesting to see your videos and I've learned quite a lot through them. With the problem you posted, would you then go on to do a deeper inspection throughout other failure points? Because it shows a contractor not following recommendations in one area, it would lead me to assume there would be other areas like that (and that a lot of the Engineers notes would not be carried out). Also, what's the corrective action? Is it to re-concrete over the exposed heads, or because the stud rails have already started corroding slightly, is more drastic action recommended?

@sparty94 Год назад

i really like your channel, you are a skilled engineer and presenter.

@maddogcharm 2 года назад

I don’t know, I’ve never seen those kinds of dots before. I’m a computer engineer not a structural engineer! I’ll just watch and learn…

@richardjones5255 2 года назад

Another excellent explanation of a set of complex issues and a slightly 'sticking plaster solution' that is applied. In this case, I cannot help but feel some better practices should have been applied during construction, though I am well aware of concrete spalling and its effect on suboptimal building life, I was in the Middle East, for some years, some buildings I lived in were badly affected. Bits of the spalled concrete slabs and beams wanted to have a lie down on the nice, restful floor below them. Happily, the collapse was run on an instalment plan and I got out before it moved to killing anyone.

@W122ard1 11 месяцев назад

What happen if we make this studrail long enough to make it from one column to another? Will it add a lot of resistence or from some length its no longer have meaning?

@MegaMech 2 года назад

Will you explain how that situation will be fixed? Like do you cut that whole slab and re-do it?

@michaelherman2219 2 года назад

You are very intelligent and are great at describing engineering concepts. The answer to the collapse is in the lack of punch shear heads. CTS did not have punch shear heads but were pionts. The dynamic forces on the columns were extremely dynamic in CTS. I can duplicate the lack of shear heads by duplication of the real world forces on the pool deck slab.

@S_r_i_r_a_m_S Год назад

Great... explanation, even a common technical man can understand... thanks for the video

@seamusg8911 2 года назад

Not my field but a fascinating explanation as to how these systems work. Will now look at buildings with greater interest and understanding. As always a great video from you.

@kennixox262 Год назад

At the never completed and demolished Harmon Tower condominiums City Center, here in Las Vegas, these are where were left out by accident during construction over about 8 floors. They were up to the 25th or so floor out of the planned 45 before this discovery. Lawsuits, fears about collapse during a seismic event, the economic crash of 2008. The building was demolished floor by floor and is now being replaced by imagine that, more retail on the Las Vegas Strip.

@spacewolfjr Год назад

Huge problem. Someone obviously spilled a whole plate of spaghetti near this column in early 1971, maybe '72 depending on the noodle quality.

@Christiane069 2 года назад

Very interesting. So! how do you do this repair. Grout, Special compound, Something mixed with some glue, or do you build up on top around the post. Well?

@amysleftelbow4253 Год назад

You are a godsend and you’re teaching me so much that my engineering major doesn’t cover

@BuildingIntegrity Год назад

Thanks... that's a huge reason I do this channel... because I know firsthand a lot of this is not taught in school.

@mark111943 2 года назад

I said serious based on not knowing how corroded the steel was under those heads so must be addressed as a matter of priority. I can see though that corrosion under the head would likely cause sprawling at the surface. A question though, do you need the horizontal rail? I am thinking of how earth can be pinned by multiple rods pushed through it. Ones that I have seen are not tied together though. Thanks

@jimfife6255 Год назад

Is it the hatched area you drew, or is the shear head really the perimeter of those squares you drew, times the slab thickness. Your area quadruples when you double the scale, mine only goes up by 2.

@falconsaviour1487 Год назад

One of the best channel in civil engineering like practical engineering.

@dribrahimel-nahhal2477 Год назад

Great vid! Thanks

@Queenskid19 Год назад

Yeah your right on like every column in that basement had the corners blown out of them. So really from water damage they were missing like 25% of them.