Galvanized Coil Sheet is a "Zinc" coated metal to prevent corrosion of the metal. Galvanized is a type of sheet that is mounted on all wet and moist floors and has no alternative. Because galvanize in its structure is a sheet metal system that can cope with all the negativities and eliminate the pressure created by these negativities on the surface of the sheet.
Galvanized sheet is obtained by subjecting the metal to hot dipping after cold rolling and coating both sides with zinc. The most important purpose of this coating process is to prevent corrosion of the material to be used in open areas and to prolong the life of the material.
Galvanized sheet material is in demand by sectors making exterior surfaces, especially the automotive industry. Galvanized sheet is preferred by many other sectors due to its technical features. Here are the technical features that increase the preferability of this material.
Corrosion Resistance:
Among the technical properties of galvanized sheet, perhaps the most important one is corrosion resistance. This material provides this resistance by protecting the metal inherent in zinc by establishing a barrier against corrosive elements.=
Formability:
Another important feature of galvanized sheets is that they can be easily formed. It is an ideal material for the production of parts that require extra deep drawability and bending.
Perfect Surface Appearance:
Galvanized sheets can be easily used in visible surface applications due to their surface quality.
Weldability:
Galvanized sheet technical specifications also include weldability. Thanks to these features, they can be welded with many welding processes.
Paintability:
Galvanized sheet products can be easily painted if they are pretreated correctly. These pretreatments are surface treatments and degreasing processes.
Other Features:
In Which Situations Should Galvanized Sheet Be Handled with Caution?
The materials in stock must be handled and cleaned at least once every 2 months in terms of the lifetime of the materials.
Increases Resistance of Products
The most damaging factors for iron and iron products are moisture and wet ground. The lifetime of iron and iron products exposed to moisture is shortened and they lose their properties and resistance within a few years. This also means that iron and iron products lose their function. For this reason, the resistance of the products increases with the feature of the galvanized sheet, namely the galvanized sheet material, and the sheet can fully fulfill the function of the product.
Provides Longer Use
Galvanized sheet extends the life of the products thanks to its features. Because, as we mentioned before, the places where galvanized sheets are used are high-risk and exposed to negative effects such as humidity. Galvanized sheet is the only material that can withstand all these adversities and resist against bad conditions.
Galvanized sheet is an advantageous product that can be used in almost all areas that need to be preserved and protected against all external coatings, overflow sets, underground floors and against moisture.
Economic Price Range
Galvanized sheet material has features such as extending the life of products and increasing their resistance. However, its advantages are not limited to these. Because these materials also have an extremely economical price range. Considering its contribution and function, it will be understood how economical the prices of galvanized sheet metal are. Once installed, these materials can be used for at least 50 years.
Other Advantages
Galvanized sheet is used as roofing for the building construction sector by giving the appropriate form, and as a sandwich panel on the inner and outer side surfaces of the buildings. In addition, it is used in the manufacture of domestic appliances due to its long life. In addition, this type of sheet can be used in the automotive industry in the production of internal and external surface parts.
Galvanized sheet products can be offered to the market and customers optionally as:
Areas of Usage :
General Usage Area and Its Main Features | Standard Equivalent | ERDEMİR Quality No | |
Standard | Quality | ||
Low carbon "zinc coated" galvanized steels suitable for cold forming | DİN EN 10346:200 | DX51 D+Z | 1311 |
DİN EN 10346:2009 | DX52D+Z | 1312 | |
DİN EN 10346:2009 | DX53D+Z | 1313 | |
DİN EN 10346:2009 | DX53D+Z | 1303 | |
DİN EN 10346:2009 | DX54D+Z | 1314 | |
DİN EN 10346:2009 | DX56D+Z | 1315 | |
WSD-M1 A333 | A2 DC05 | 311 | |
11-04-013 | XE | 312 | |
WSS-M1 A365 | A13 | 320 | |
WSS-M1 A365 | A14 | 321 | |
WSD-M1 A333 | A3 DC06 | 323 | |
11-04-013 | XES | 324 | |
B53 3106 | XSG | 325 | |
52806/9.52873 | FEP04-ZNT/F/2S | 326 | |
52806/9.52873 | FEP05-ZNT/F/2S | 327 | |
52806/9.52873 | FEP04/FEP05-ZNT/F/2S | 328 | |
Low carbon "zinc-iron alloy coated" galvanized steels suitable for cold forming | DİN EN 10346:2009 | DX51 D+ZF | 1411 |
DİN EN 10346:2009 | DX52D+ZF | 1412 | |
DİN EN 10346:2009 | DX53D+ZF | 1413 | |
DİN EN 10346:2009 | DX54D+ZF | 1414 | |
DİN EN 10346:2009 | DX56D+ZF | 1415 | |
TSG31 09G | SCGA270C | 410 | |
TSG31 09G | SCGA270C | 411 | |
TSG31 09G | SCGA270D | 430 | |
TSG3109G | SCGA270D | 431 | |
HES C071 | JAC270F | 432 | |
Zinc coated "galvanized" kiln hardened steels | DİN EN 10346:2009 | HX180BD+Z | 1118 |
DİN EN 10346:2009 | HX220BD+Z | 1122 | |
WSS-M1 A341 | A7 | 1124 | |
DİN EN 10346:2009 | HX260BD+Z | 1126 | |
DİN EN 10346:2009 | HX300BD+Z | 1130 | |
52814/9.52873 | FEE 220 BH-ZNT/F/2S | 380 | |
WSS-M1 A367 | A22 | 381 | |
WSS-M1 A367 | A23 | 382 | |
Zinc-iron alloy coated "galvanized" kiln hardened steels | DİN EN 10346:2009 | HX180BD+ZF | 1218 |
DİN EN 10346:2009 | HX220BD+ZF | 1222 | |
DİN EN 10346:2009 | HX260BD+ZF | 1226 | |
DİN EN 10346:2009 | HX300BD+ZF | 1230 | |
TSG31 09G | SCGA 340BH | 482 | |
Zinc coated “galvanized” IF steel | DİN EN 10346:2009 | HX180YD+Z | 1518 |
DİN EN 10346:2009 | HX220YD+Z | 1522 | |
Zinc coated and galvanized steels with continuous hot dip method suitable for cold forming process with high yield strength | 11-04-002/L | XE280P | 388 |
"Galvanized" double phase steels with high yield strength and suitable for cold forming process | DİN EN 10346:2009 | HCT600X+Z | 1660 |
52815/9.52873 | FE 600 DP F ZNT/F/2S | 390 | |
WSS-M1A348 | A1 | 391 | |
Zinc coated (galvanized) steels with continuous hot dip method suitable for cold forming process with low alloy | DİN EN 10346:2009 | HX260LAD+Z | 1626 |
DİN EN 10346:2009 | HX300LAD+Z | 1630 | |
DİN EN 10346:2009 | HX340LAD+Z | 1634 | |
DİN EN 10346:2009 | HX380LAD+Z | 1638 | |
DİN EN 10346:2009 | HX420LAD+Z | 1642 | |
11-04-002 | XE280D | 331 | |
F-52811/9.52873 | FEE 270 F - ZNT/F/2S | 360 | |
11-04-002 | XE 320D | 366 | |
WSB-M1 A215-F1 | Gr. 300 | 367 | |
F-52811/9.52873 | FEE 340 F - ZNT/F/2S | 368 | |
11-04-002 | XE-360D | 372 | |
Zinc coated “galvanized” structural steel | DİN EN 10346:2009 | S220GD+Z | 1322 |
DİN EN 10346:2009 | S250GD+Z | 1325 | |
DİN EN 10346:2009 | S280GD+Z | 1328 | |
DİN EN 10346:2009 | S320GD+Z | 1332 | |
DİN EN 10346:2009 | S350GD+Z | 1335 | |
WSB-M1 A215-F1 | Gr. 250 | 355 | |
Zinc-iron alloy coated "galvanized" structural steels | DİN EN 10346:2009 | S220GD+ZF | 1422 |
DİN EN 10346:2009 | S250GD+ZF | 1425 | |
DİN EN 10346:2009 | S280GD+ZF | 1428 | |
DİN EN 10346:2009 | S320GD+ZF | 1432 | |
DİN EN 10346:2009 | S350GD+ZF | 1435 |
Galvanized Slitting Sheet 100A Coating (Zn) | |
GCR DX51D + Z 100A | 0,50*137 |
GCR DX51D + Z 100A | 0,60*137 |
GCR DX51D + Z 100A | 0,70*137 |
GCR DX51D + Z 100A | 0,80*137 |
GCR DX51D + Z 100A | 0,90*137 |
GCR DX51D + Z 100A | 1,00*137 |
GCR DX51D + Z 100A | 1,20*137 |
Continuously hot-dip coated steel flat products for cold forming (TS EN 10346) |
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(Nr) | (Steel Quality) | (Steel Number) | (Coating Type) | (Chemical Compostion) ( % ) Max | (Yield Strength) ( N/mm2) | (Tensile Strength) ( N/mm2 ) | (Elongation) ( % ) Min | (Plastic Strain Ratio) ( r90 ) Min | (Strain Hardening Exponent) ( n90 ) Min | |||||
C | Si | Mn | P | S | Ti | |||||||||
1 | DX51D | 1.0917 | +Z | 0.18 | 0.50 | 1.20 | 0.12 | 0.045 | 0.30 | * | 270-500 | 22 | - | - |
+AZ | ||||||||||||||
2 | DX52D | 1.0918 | +Z | 0.12 | 0.50 | 0.60 | 0.10 | 0.05 | 0.30 | 140-300 | 270-420 | 26 | - | - |
+AZ | ||||||||||||||
3 | DX53D | 1.0951 | +Z | 140-260 | 270-380 | 30 | - | - | ||||||
+AZ | ||||||||||||||
4 | DX54D | 1.0952 | +Z | 120-220 | 260-350 | 36 | 1.6 | 0,18 | ||||||
+AZ | - | - |
NotE: Apply EN 10346 standard for details and explanations.
TS EN 10346 BY STANDARD; | ||||
DX51D | Bending and profiling quality | |||
DX52D | Drawing Quality | |||
DX53D | Deep Drawing Quality | |||
DX54D | Special Deep Drawing Quality | |||
DX56D | Extra Deep Drawing Quality | |||
DX56D | Extra Deep Drawing Quality | |||
Continuously hot-dip coated steel flat products for cold forming (TS EN 10346) |
|||||||||||
(Nr) | (Steel Quality) | (Steel Number) | (Coating Type) |
(Chemical Compostion) ( % ) Max | Yield Strength ( N/mm2 ) | Tensile Strength ( N/mm2 ) | Elongation ( % ) Min | ||||
C | Si | Mn | P | S | |||||||
1 | S220GD | 1.0241 | +Z | 0.20 | 0.60 | 1.70 | 0.10 | 0.045 | Min 220 | Min 300 | 20 |
+AZ | |||||||||||
2 | S250GD | 1.0242 | +Z | Min 250 | Min 330 | 19 | |||||
+AZ | |||||||||||
3 | S280GD | 1.0244 | +Z | Min 280 | Min 280 | 18 | |||||
+AZ | |||||||||||
4 | S320GD | 1.0250 | +Z | Min 320 | Min 360 | 17 | |||||
+AZ | |||||||||||
5 | S350GD | 1.0529 | +Z | Min350 | Min 390 | 16 | |||||
+AZ | |||||||||||
6 | S390GD | 1.0238 | +Z | Min 390 | Min 460 | 16 | |||||
+AZ | |||||||||||
7 | S420GD | 1.0239 | +Z | Min 420 | Min 480 | 15 | |||||
+AZ | |||||||||||
8 | S450GD | 1.0233 | +Z | Min 450 | Min 510 | 14 | |||||
+AZ | |||||||||||
9 | S550GD | 1.0531 | +Z | Min 550 | Min 560 | - | |||||
+AZ |
Note: Apply EN 10346 standard for details and explanations.
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