Mill Finined Aluminum Sheets 1xxx USed for Construction

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Shanghai
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TT or LC
Min Order Qty:
5 m.t.
Supply Capability:
10000 m.t./month

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1.Structure of Mill Finined Aluminum Sheets 1xxx USed for Construction Description

Mill Finined Aluminum Sheets 1xxx USed for Construction is cut from aluminum coils 1xxx. The aluminum content of Mill Finined Aluminum Sheets 1xxx USed for Construction is 99% at least. It has great ductility, heat conductivity, anti-corrosion and moisture resistance properties.

Mill Finined Aluminum Sheets 1xxx USed for Construction is one semi-finished aluminium material. This strip can be rolled down to aluminium coil,sheet,circle ect.  The alloy AA1050 is widly used in building, industry ect. Its weight is much lower than steel. So many customers choosed aluminium material instead of steel.

2.Main Features of Mill Finined Aluminum Sheets 1xxx USed for Construction

a.Competitive price---We have our own mills and can produce mill finished aluminium coils, so we can control the production cost better.

b.Professional after-sale service---We have more than 15 years exportation experience and you need not worry about the exporation problems.

c.Fast delivery time---We can control the delivery time within 35 days.

3.Mill Finined Aluminum Sheets 1xxx USed for Construction Images 

 

 

4.Mill Finined Aluminum Sheets 1xxx USed for Construction Specification

Alloy

AA1xxx (AA1050, AA1060, AA1070, AA1100 etc.

Temper

H14, H16, H18, H22, H24, H26, H32, O/F

Thickness

0.2mm -- 100mm

Width

30mm -- 1700mm

Standard

GB/T 3880-2006,EN,ASTM,JIS

 5. FAQ of Mill Finined Aluminum Sheets 1xxx USed for Construction

A.How to guarantee the quality?

Customers are welcome to our mill to visit and check the products. Besides, we can arrange a third party to test Mill Finined Aluminum Sheets 1xxx USed for Construction.

B.When will you deliver the products?

Mill Finined Aluminum Sheets 1xxx USed for Construction will be delivered within 35 days after receiving advanced payment or original L/C.

 

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Q:which kind of abraser should be used for deburring of aluminum sheet?
as for the polishing of aluminum material, we usually nylon wheel and similar products.
Q:Performance differences between aluminized and aluminized plates
Microstructure characteristics of hot dipped aluminized steelHot dip aluminizing steel to achieve the combination of atoms between iron and aluminum by metal bond, close together, as was shown under the microscope, from the outside to the inside with two aluminum film, three aluminum oxide layer, the alloy layer sequentially formed coating. If the coating of carbon steel, the banded structure and base metal contact.Coating thickness: if carbon steel, then the aluminum layer is 0.04-0.07mm alloy layer, the average 0.05mm. However, the thickness of each layer depends on the type of steel, the amount of carbon, and the temperature and time of the dipping. If the parent material is alloy steel, coating and the differences (omitted).
Q:Percentage Aluminum in alloy using stoichiometric relationship?
You don't need to worry about the magnesium at all, because it doesn't enter into the reaction. You have a balanced equation for aluminium and hydrogen, and the data given are sufficient: From the equation, you know that 2 moles of aluminium produce 3 moles of H2. 0.1068 g of H2 were produced, so divide this by molecular mass of H2 (2.016) to determine the moles of H2 produced. You know that 3 moles of H2 would have been produced from 2 moles of Al. Therefore, multiply the moles of H2 by 2/3, to determine the moles of Al that were present. Now multiply this number by the atomic mass of Al, to determine the grams of Al. Now divide this number if grams by 1.118 and multiply by 100 to determine % Al present in the alloy.
Q:Aluminum wiring in house preventative measures - ceiling lights?
Connections at ceiling lights have far less potential for a problem, but a potential none the less. So, while you are at it, go ahead and check them. The antioxidant compound and al/cu listed wire nuts (marriets) are the correct and proper materials to use. I applaud you for having done your homework. After tightening each connector be sure to pull on each and every wire to ensure they are good and tight. When combining solid and stranded wire, slide the stranded past the solid about an 1/8 before capping. We in the trade use 9 lineman's pliers to twist all wires before capping them. An inexpensive pair (of Lineman's) can be had for under $20. A good pair of wire strippers (with built in screw cutters) can be had for about $15. I mention the screw cutter because there is a good chance that somewhere along the line you will find a location where the stock 7/8-1 screw bottoms out against something before it gets tight. If you force it it will strip out. Not to mention it might dig into the insulation on a wire resulting in a short. Screws in devices (receptacles, switches, dimmers etc.) are 6-32 and light fixtures are typically 8-32. I would also get a non-contact tester. A.k.a. inductive tester. Very handy at times. When you are sure the power is off to a box it might not be. On an occasion another hot will be present. The beep testers will quickly alert you to the presence of another live circuit. A multi-tester will allow you to identify wires should you fail to mark them before working on them. If you mark the location of each wire to a 3 or 4-way switch before replacing it you will save yourself a lot of time. Same with wires to any GFI receptacles. Swapping wires location to location may not be correct. Some have the Line terminals on one side, while most have them on the top. But I get the impression you have a bit of experience or a friend who does helping you with this.
Q:Is there a way to join copper and aluminium?
I'm not sure if I correctly understand your question - that is, whether you're asking how to physically fasten copper and aluminum pieces together, or of you're asking how to make intermetallic compounds of copper and aluminum. Since you did mention a compound, though, I'm guessing the latter. Copper and aluminum do react to form a number of intermetallic compounds. Among these are Al4Cu9, AlCu, and Al2Cu (see first reference below). These are referred to as aluminides of copper, and may be prepared by melting the two metals together in the proper ratio by weight and cooling slowly. For example, Al2Cu (also called CuAl2) may be prepared by melting a mixture containing 96% aluminum and 4% copper (see second reference below). Note that a protective inert atmosphere is desirable for any work of this sort to prevent oxidation. CORRECTION: The compound CuAl2 contains about 54% copper and 46% aluminum (NOT as above). It's the 2000 series aluminum alloys which contain around 4% copper, and it is the precipitation of CuAl2 during heat treatment which makes them hardenable. The final sentence in the second paragraph above should read: For example, Al2Cu (also called CuAl2) may be prepared by melting a mixture containing 46% aluminum and 54% copper (see second reference below).
Q:How do aluminum plates paint?
Pretreatment is usually required. Acid and alkali cleaning can be done either by oil or by xylene,The paintings do not know, but most of them are painted or printed on the aluminum plate, usually by heat transfer, silk screen, or decorative board, which is sprayed directly and then painted.
Q:Aluminum in deodorant lead to Alzheimer's?
aluminum oxide in antipersperant does lead to alzheimer's, yes. but antiperspirant is not deodorant, and deodorant does not contain aluminum. sweating is a natural bodily function. if you need to sweat, sweat. it's odor that should bother people.
Q:Aluminum foil a pure element?
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Q:Strongest Aluminum Stem?
This okorder.com/.... Aluminum is a very different animal than steel, so the choice of alloy depends on what the application is. For instance, 7075-T6 is the most common high-end alloy for chainrings, but it has comparatively low tensile and yeild strengths.....and yet it's the most durable choice for the application. Chainrings made out of a stronger alloy won't last as long and may develop stress cracks. Some of the alloy choices depend upon machining and welding characteristics, too...it's not always about the strongest or lightest. You wouldn't want a part like a seatpost to be made of the material with the best numbers but that has a tendency to crack after welding.
Q:a sample of aluminum chloride (AlCI3) has a mass of 37.2 g.?
You have to remember Avogadro's number: 6.02 x 10^23 Read about it in your text book. It is the number of molecules of any atom that make up 1 mole. 1 mole of a molecule is equal to it's atomic weight in grams. So, the atomic weight of aluminum is 26.9. So, 26.9 grams of aluminum contains exactly 6.02 x 10^23 molecules of aluminum (or 1 mole). What's the molecular weight of aluminum chloride? Well, 26.9 + 3(35.5) = 133.4 the 35.5 is the molecular weight of chloride and there are 3 of them. So, 133.4 grams of aluminum chloride would be 6.02 x 10^23 molecules. We only have 37.2 g. 37.2 g/ 133.4 g per mole = 0.279 moles. 0.279 moles x (6.02 x 10^23 molecules/mole) = 1.68 x 10^23 molecules of aluminum chloride. So, since there is one aluminum per molecule, you have your answer. Just multiply by three to find out how many molecules of chloride are present. Finally, if 133.4g = 6.02 x 10^23 molecules, then 1 molecule = 133.4 / 6.02x10^23 = 22.16 x 10^-23 or 2.216 x 10^-22 Make sure that the periodic table you use for class has the same values (some tables are more simplified then others). Also, make sure that you use the correct number of scientific digits when calculating your answer.

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