Hot Dipped Galvanized Steel Coil/Sheet-EN10327 DX51D+Z

Hot Dipped Galvanized Steel Coil/Sheet-EN10327 DX51D+Z System 1

Hot Dipped Galvanized Steel Coil/Sheet-EN10327 DX51D+Z

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Loading Port:: Tianjin

Payment Terms:: TT OR LC

Min Order Qty:: -

Supply Capability:: 15000 m.t./month

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Galvanized steel coils are widely used in the construction industry, as raw material for the production of corrugated panels, fencing products, drywall panel profiles, ventilation systems etc. Recommended for both outside and inside usage, galvanized steel has a high resistance to corrosion in different environments, due to a protective layer of zinc of 100 – 180 grams per square metre.

Galvanized steel sheet /coil features:

1. Zinc coating :60-220g/m2( as required)

2. Thickness:0.13-3.0mm
3. Width:600-1250mm(900mm,1215mm,1250mm,1000mm the most common)

4. Coil id:508mm

5. Coil weight: 3-5MT(as required)

6. Surface:regular/mini/zero spangle, chromated, skin pass, dry etc.

7. Application: With excellent cold bending molded manufacturablity, good decoration effect, strong anti-corrosion ability, galvanized steel coils and sheets are also pollution-free and easily recycled. Accordingly, they can be used as final products and basic plates of color coated steel coils and widely applied in construction, home appliances, decoration, ect.

Q:What are the common handling defects in steel coils?: There are several common handling defects that can occur in steel coils during transportation and storage. These defects can impact the quality and integrity of the coils, leading to potential issues down the line. Some of the most common handling defects in steel coils include: 1. Edge damage: This occurs when the edges of the coil are bumped or scraped, resulting in dents, scratches, or even tears. Edge damage can weaken the structural integrity of the coil and make it more susceptible to further damage. 2. Core damage: The core of a steel coil is crucial for maintaining its shape and stability. However, mishandling can cause the core to become crushed or deformed, which can lead to coil collapse or distortion. 3. Coil slippage: When coils are not securely strapped or stacked, they can shift or slide during transportation. This can result in coil slippage, leading to misalignment, damage to the outer layers, or even complete coil failure. 4. Abrasion: Steel coils can be subject to abrasion if they come into contact with rough surfaces or other objects during handling. This can cause the protective coating or paint on the coil to wear off, exposing the steel to potential corrosion. 5. Moisture damage: Steel coils are susceptible to moisture damage, especially if they are not properly sealed or protected. Exposure to moisture can lead to rust formation, which can compromise the structural integrity of the coil and affect its overall quality. 6. Overloading: Overloading a truck or storage area with steel coils can cause excessive pressure and stress on the coils, leading to deformation, bending, or even coil collapse. It is crucial to adhere to weight limits and proper stacking procedures to prevent overloading. 7. Improper lifting: When lifting steel coils, it is important to use appropriate lifting equipment and techniques. Failure to do so can result in coil damage, such as distortion or bending, as well as potential injuries to workers. To mitigate these handling defects, it is crucial to follow proper handling and storage procedures for steel coils. This includes using suitable lifting equipment, securing the coils during transportation, avoiding overloading, and ensuring proper protection against moisture and abrasion. Regular inspections and maintenance can also help identify and address any potential defects or issues before they worsen.

Q:Is there any noticable or perceived difference between smoking out of a pipe with a brass screen and a stainless steel screen?: I have been searching the internet, trying to find out the difference, myself... I know what I have heard from others; that the stainless steel is more rigid, and harder to mold to the bowl. I've heard that brass is softer, and previously thought it was healthier, but someone recently told me the opposite to what I'd heard. The one thing I do know for sure is that you're supposed to heat both sides of either with a lighter to oxidize anything that doesn't need to be there... If you do find the answer, I'd love to hear it... Cheers!

Q:How are steel coils used in the production of metal furniture?: Steel coils are used in the production of metal furniture as they are the primary raw material for manufacturing various components such as frames, legs, supports, and brackets. These coils are unrolled and passed through different machinery to shape and cut them into the desired sizes and shapes. The resulting pieces are then welded, joined, or assembled to create the different parts of the furniture. The strength and durability of steel make it an ideal material choice for metal furniture, ensuring sturdy and long-lasting products.

Q:What are the different methods of levelling steel coils?: There are several methods used for leveling steel coils, depending on the specific requirements and applications. Some of the common methods include: 1. Roller Leveling: This method involves passing the steel coil through a series of rollers that exert pressure on the material, effectively reducing any residual stresses and removing any waviness or curvature. Roller leveling is commonly used for thinner gauge coils where a high degree of flatness is desired. 2. Stretch Leveling: This method involves stretching the steel coil beyond its yield point to eliminate any shape defects. The coil is subjected to tension in a stretcher leveler machine, which elongates the material and removes the inherent stresses. Stretch leveling is often used for thicker gauge coils where a higher degree of flatness is required. 3. Temper Milling: This method involves passing the steel coil through a temper mill, which is a cold reduction mill equipped with work rolls on top and bottom. The temper mill imparts tension on the coil, flattening it and improving its shape and surface quality. This method is typically used for higher strength steel grades. 4. Corrective Leveling: This method is employed when the steel coil has significant shape defects, such as wavy edges or center buckles. Corrective leveling involves selectively removing material from specific areas of the coil to achieve a flat and uniform surface. This process is often done using laser or plasma cutting machines. 5. Tension Leveling: This method is similar to stretch leveling, but it involves applying tension to the coil without exceeding its yield point. Tension leveling utilizes a series of bridle rolls to stretch the material, thereby removing any internal stresses and leveling the coil. This method is commonly used for higher strength and thinner gauge coils. These methods can be used individually or in combination depending on the specific requirements of the steel coil and the desired end product. Each method has its advantages and limitations, and the choice of leveling method will depend on factors such as the coil thickness, material properties, and desired flatness.

Q:Are steel coils corrosion-resistant?: Yes, steel coils can be corrosion-resistant depending on the type of steel used and any additional protective coatings applied.

Q:Are Steel buildings Fire Resistant, just want to know as I am going to owe it . Suggestions required…………..: Rather depends on the construction method. I've seen a lot of buildings with a steel exterior referred to as 'steel construction', when in fact they had timber framing - not steel. Recently, in my neck of the woods, we had an ice/snow storm, and many timber framed steel buildings collapsed, because of the weight on the roof. A case of not enough pitch on the roof, and not strong enough construction. The fact that there were many that collapsed, tells me the standards for this region are not high enough, hehehe. How a building is finished inside will also affect how fire resistant it is, let alone, the many other factors that come into play, such as wiring, gas lines, and what is actually done (or contained) inside the building. All details not provided. Better Questions Yield Better Answers. Good Luck

Q:What are the different types of steel surface finishes for coils?: There are several types of steel surface finishes for coils, including hot rolled, cold rolled, galvanized, coated, and pickled and oiled.

Q:I want to hear from those who own a scandium revolver. I know that scandium makes for a much lighter gun than steel, but how do they hold up durability-wise? Is their lifespan shorter than a comparable steel revolver?: Yes, they are as durable as steel and lighter than aluminum, but they amplify the recoil when firing due to its light weight.

Q:How are steel coils coated for added protection?: To enhance their durability and resistance to corrosion, steel coils undergo a process known as coil coating, wherein a protective layer is applied onto their surfaces. There are several methods employed to coat steel coils, but the most commonly used one is the continuous coil coating process. Under this process, the steel coil is unwound and extensively cleansed to eliminate any contaminants or impurities on its surface. This step ensures proper adhesion of the coating material. Once the steel coil is cleansed, it undergoes a pre-treatment to enhance its surface properties. Typically, this involves the application of a chemical solution or a conversion coating onto the coil's surface. The aim of this step is to create a surface that is receptive to the coating material and improves its adhesion. Following the pre-treatment, the steel coil is coated with a protective layer, which can be in the form of liquid paint, powder coating, or a combination of both. The coating material is applied evenly onto the coil's surface using techniques like roll coating, spray coating, or electrostatic coating. Once the coating is applied, the steel coil is cured or dried using heat or, in some cases, ultraviolet light. This curing process ensures a strong bond between the coating material and the steel surface, resulting in the desired protective properties. The coated steel coil then undergoes inspection to ensure quality control measures like thickness, adhesion, and appearance are met. If the specifications are satisfied, further processing may take place, involving cutting, slitting, or forming the coil into the desired shape or size. In conclusion, the process of coating steel coils for added protection involves thorough cleansing, pre-treatment, application of a protective coating, curing, and quality control. This ensures that the steel coils exhibit excellent resistance to corrosion, abrasion, and other environmental factors, making them suitable for a wide range of applications across various industries.

Q:What are the common methods of inspecting steel coils for quality control?: The common methods of inspecting steel coils for quality control include visual inspection, dimensional measurement, surface inspection, and mechanical testing. Visual inspection involves checking for any visible defects or abnormalities such as cracks, dents, or scratches. Dimensional measurement ensures that the coils meet the specified size and thickness requirements. Surface inspection involves examining the surface finish, cleanliness, and coating integrity. Mechanical testing involves conducting various tests to assess the strength, hardness, and other mechanical properties of the steel coils. These methods collectively ensure that the steel coils meet the required quality standards.

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