My sump will be bigger than the display tank, since I want to incorporate a dsb and top-up part. I want to make the stand l x w x h. A top formica or something will be placed on top of the stand, for the tank to stand on. I have read somewhere cant find it anywhere now that angle iron is stronger than square tubing? It should also be cheaper to galvanize. I don't want a center leg, since I want to be able to work in the sump freely, so the question is: 1.
Angle iron or square tubing? What wall thickness and width? Bro, rather go square tubing. It just makes sense that 4 areas is better than 2 to carry the weight. If you want you can get 5mm flat sheet and a triangular support strut in each corner.
Also would get nice thick tubing for the frame will make you sleep nicer at night With that dimensions I would go for the mm with wall thickness of 2. But lets see what the other reefers think Last edited: 20 Jul Square tubing if definately stronger. Go as thick as you can afford even if its mm bar which is overkill but it's solid, and dont use formica or any wood between the tank and stand as it will eventually rot from water splashes and spills.
Use a polystyrene sheet which wont rot or corrode in fact polystyrene just about lasts forever in landfill sites. RiaanP Moderator. Actually Angle iron is stronger. Hot rolled VS cold rolled. Square is actually flat plate that is bend into tube and down the one side you will see a weld line Angle iron is cold roller.Add standard and customized parametric components - like flange beams, lumbers, piping, stairs and more - to your Sketchup model with the Engineering ToolBox - SketchUp Extension - enabled for use with the amazing, fun and free SketchUp Make and SketchUp Pro.
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Angle Iron Strength
Steel Angles - Equal Legs Dimensions and static parameters of steel angles with equal legs - imperial units Sponsored Links. Properties in imperial units of steel angles with equal legs are indicated below. Privacy We don't collect information from our users. Citation This page can be cited as Engineering ToolBox, Steel Angles - Equal Legs.
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To start viewing messages, select the forum that you want to visit from the selection below. Remember Me? Results 1 to 10 of Thread: Angle Iron Stress.
Angle Iron Stress. I have a project at home in which I am building ramps from angle iron. How much weight will 1 length of this angle iron support? Hi Dale and Welcome to the forum. Without any calculations I'll tell you one piece standing alone won't handle much before it'll start twisting. Pair it up with another angle and now you have effected a channel or a T beam which will handle a good bit more.
You don't really need to know what one piece will handle. You need to know what the entire structure will handle. The amount that two angles tied together will handle is a lot more than twice the load a single angle can carry.
The geometry has a big effect. Was at a big aution and watched a guy with some home-made ramps back off a good sized lawn mower out of his high 4x4 pick-up. As soon as a decent part of the weight got on the ramps they collapsed and the tractor and he flipped over backwards and to the side.
Lucky he wasn't killed. There are more things to consider in designing ramps than the load they'll carry, and most on this site will be reluctant to tell you what to make them out of for fear of the unknowns. With more information could possibly help you out.
Also there are calculators on this site that make doing the calculations quick and slick. And sometimes it's best to just go out and buy things designed for the purpose? Good luck and be careful, Bob. I'm with Bob - be carefull. Here are some helpfull links sio that you can estimate deflections, etc.
With things like ramps, there may be a little cost savings over buying a set, the risk factor is totally out of sight. Please also be cautious of other forums staffed by home-shop builders.
This is one of a very few forums on the Internet where there are a significant number of qualified and experienced Engineers, and I mean Engineers with many, many years experience.
I have about 40, Kelly probably the same, Bob is playing catch up but not far back. IF you are still hell-bent on doing it yourself, then make sure you consider "crowning. It is bad enough for someone to be in a wheel chair without one side of a ramp failing and they get tossed into the rocks for some serious head injuries or worse. See Harbor Frieght Ignore the idiot who left a review about them being heavy. They need to be strong and that makes them heavy. Also note that they have two humps that will help overcome the crowing problem I mentioned.
As a plus they have safety chains to prevent slip back. For under bucks it is a no-brainer to me and I have an extensive machine shop at my disposal.
To begin, choose a profile type and part number. From there input a length and the expected profile load. When you click "Calculate Deflection" the tool will provide several engineering specifications such as the moment of inertia and yield strength to determine the deflection.
You also have options depending on the expected configuration of your solution: whether there will be one fixed end, two fixed ends or the load will be supported on both ends. Print your results for comparison or to save the information.
Software Deflection Calculator. Using The Deflection Calculator To begin, choose a profile type and part number. Select Profile Type: Fractional. Profile Part Number:. Maximum Length of Profile:. Cross Sectional Area:. Moment Of Inertia X:. Moment Of Inertia Y:. Modulus Of Elasticity:. Fixed 1 End. Fixed 2 Ends. Supported 2 Ends. Calculate Deflection. Deflection X. Deflection Y. Length From Left Deflection X. Length From Right Deflection Y.
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Angle Weight Calculator / Online Angle Weight Calculator
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Angle Iron Strength. Thread Tools. I have a piece of angle iron 6" on one side and 4" on the other that I want to use for 4 beams to sit on. My question is this.
i need to find load capacity charts for angle iron and can't find it on the web. please help?
With the 6" side going vertically and the 4" side going horizontally, which way is the angle iron strongest, with the 6" side up or with the 6" side down?Sell us your excess steel or metal, or share our information with someone who does. Learn More. View Products. As a result, many people do not use it for the purposes it was designed to serve. A-iron is stronger than non-structural steel because the two perpendicular flanges work in conjunction to give angle iron cross-sectional structural integrity, resistance to bending from pressure applied from the top or bottom, left or right.
The moment of inertia is when a static body begins moving around an axis. The compound area is the most resistant load bearing area of a piece of structural steel — the area most resistance to the moment of inertia. In A-iron, the compound area is located in the trough between the two flanges. Angle iron is relatively resistant to the moment of inertia when the load is applied the top, bottom or either side.
However, when pressure is applied in a manner that rotates the A-iron around the axis of the compound area, it will fail with the application of less pressure than when the pressure is applied around the cross section. In other words, when A-iron is twisted from one end or the other, that is when its structural integrity is most vulnerable.
Angle iron works extremely well when used conjunctively. How was your experience? Sell us your excess steel or metal, or share our information with someone who does Learn More. If we fell short, please tell us more so we can address your concerns.Angle irons have quite a few different uses in construction. Made with a right angle, these irons fill many different structural needs, particularly when it comes to bracing joints or holding different components in place.
The weakness that an angle iron has is exposed when force pushes against the right angle, either bending the ends together or apart. It is important to know the strength of your angle irons before installing them. Use the tape measure to find the depth and width of the angle iron bar, and the bar's total length both angled sections. Take the force pushing or pulling on the angle iron and multiply it by 3 and the total length.
Divide the answer from Step 1 by the answer from Step 2. The result will give you the ability of your angle iron to resist breaking its angle, in units of Newtons per square meter. This article was written by a professional writer, copy edited and fact checked through a multi-point auditing system, in efforts to ensure our readers only receive the best information. To submit your questions or ideas, or to simply learn more, see our about us page: link below.
Updated January 09, Square the depth and multiply it by two times the width of the iron. About the Author. Photo Credits. Copyright Leaf Group Ltd.