Coil of steel hot dipped zinc coating Dx51d z100

Coil of steel hot dipped zinc coating Dx51d z100

Ref Price:

Loading Port:: Tianjin

Payment Terms:: TT OR LC

Min Order Qty:: 25 m.t.

Supply Capability:: 36984 m.t./month

Inquire Now

Add to My Favorites

OKorder Service Pledge

Quality Product, Order Online Tracking, Timely Delivery

OKorder Financial Service

Credit Rating, Credit Services, Credit Purchasing

Main Features of the Hot-Dip Galvanized Steel Sheet：

• Excellent process capability

• Smooth and flat surface

• Workability, durability

• Excellent anticorrosive property

• High strength

• Good formability

• Good visual effect

Technology test results:

Processability	Yield strength	Tensile strength	Elongation %	180°cold-bending
Common PV	-	270-500	-	d=0,intact,no zinc removal
Mechanical interlocking JY	-	270-500	-	d=0,intact,no zinc removal
Structure JG	>=240	>=370	>=18	d=0,intact,no zinc removal
Deep drawn SC	-	270-380	>=30	d=0,intact,no zinc removal
EDDQ SC	-	270-380	>=30	d=0,intact,no zinc removal

Coil of steel hot dipped zinc coating Dx51d z100

FAQ

Q: How do you guarantee the quality of your product?

A: Every process will be checked by responsible QC which insures every product's quality.

Q: How much is your delivery time?

A: Normally within 30 days of receipt of LC original or prepayment, but mostly according to the specific requirements or the quantity

Q: I need sample, could you support?

A: We can supply you with the sample for free, but the delivery charges will be covered by our customers. For avoiding the misunderstanding, it is appreciated if you can provide the International Express Account for Freight Collect. Also you can have a visit to us, welcome to CNBM!

Q: What are the different types of steel coil finishing equipment?: There are several different types of steel coil finishing equipment used in various industries. These equipment are designed to perform specific tasks to ensure the steel coils are prepared and finished according to the desired specifications. Some of the commonly used types of steel coil finishing equipment include: 1. Slitting lines: Slitting lines are used to cut large steel coils into narrower strips. These machines have multiple slitting knives that can cut through the coil at high speeds, resulting in precise and clean cuts. Slitting lines are typically used in industries such as automotive, construction, and packaging. 2. Leveling lines: Leveling lines are used to flatten and straighten steel coils that may have uneven surfaces or irregularities. These machines use a combination of leveling rolls and tension control systems to ensure that the steel coils are perfectly flat and have consistent thickness throughout. Leveling lines are commonly used in the manufacturing of appliances, furniture, and metal roofing. 3. Recoiling lines: Recoiling lines are used to rewind steel coils into smaller coils of a specific diameter and weight. These machines are equipped with winding units that carefully wind the steel strip around a mandrel, creating compact and evenly wound coils. Recoiling lines are typically used in industries such as electrical, HVAC, and steel distribution. 4. Cut-to-length lines: Cut-to-length lines are used to cut steel coils into specific lengths as per the customer's requirements. These machines have precision measuring systems that accurately measure the length of the coil and hydraulic shears that cut the coil accordingly. Cut-to-length lines are commonly used in industries such as manufacturing, construction, and fabrication. 5. Coating lines: Coating lines are used to apply protective coatings or finishes on steel coils to enhance their corrosion resistance, durability, and appearance. These lines typically consist of cleaning and pre-treatment sections, where the coils are cleaned and treated with chemicals, followed by coating application sections where the desired coating material is applied. Coating lines are commonly used in industries such as automotive, appliances, and construction. These are just a few examples of the different types of steel coil finishing equipment available in the market. Each type serves a specific purpose and plays a crucial role in the manufacturing and processing of steel coils for various applications.

Q: What are the different types of steel coil coatings for corrosion resistance?: Steel coil coatings can be classified into two main types: organic coatings and metallic coatings. 1. Organic coatings are commonly used for steel coil applications due to their excellent corrosion resistance and durability. There are four types of organic coatings: - Polyester coatings: These coatings offer good weatherability and resistance to chemicals, making them suitable for outdoor applications. - PVDF coatings: These coatings are highly resistant to UV radiation, weathering, and chemicals. They provide exceptional durability and are often used in demanding environments such as coastal areas or industrial settings. - Polyurethane coatings: These coatings offer excellent abrasion resistance and a high level of corrosion protection. They are commonly used in applications where there is a higher risk of mechanical damage or exposure to harsh conditions. - Epoxy coatings: These coatings provide excellent adhesion and chemical resistance. They are often used in industrial applications where resistance to chemicals, solvents, and oils is required. 2. Metallic coatings provide effective corrosion protection and can be further divided into two types: - Galvanized coatings: These coatings involve applying a layer of zinc to the steel surface through a hot-dip or electroplating process. This creates a barrier between the steel and the surrounding environment, providing effective corrosion protection. Galvanized coatings are widely used in various industries due to their cost-effectiveness and good durability. - Galvannealed coatings: These coatings are similar to galvanized coatings but undergo an additional heat treatment process. This results in a coating with increased hardness and improved paint adhesion, making it suitable for applications that require additional surface protection or paintability. When selecting the appropriate steel coil coating, it is essential to consider the specific requirements of the application and the level of corrosion resistance needed. Consulting with coating manufacturers or industry experts can help determine the most suitable coating for a particular application.

Q: 420 440 1045 or 1065 ive bought knifes with these steel grades and i want to know which one is better.: SAE 440 is the best. Classified as high grade cutlery steel. There are various grades of 440: A, B, C, and F. 440 A is the most stain resistant while 440 C has the most carbon and can achieve the highest hardness (Best edge Retention). SAE 440 Chemistry: 16 - 18% Chromium, 0.60 - 1.2% Carbon, 0.75% Molybdenum. SAE 420 is pretty good. Classified as cutlery steel, it is a stain resistant grade but has less chromium and significantly less carbon than SAE 440. SAE 420 Chemistry: 12 - 14% Chromium, 0.15% Carbon (min), 0 Molybdenum Chromium is what makes the steel corrosion resistant. It also adds toughness. Molybdenum adds extra corrosion resistance and adds hardenability. So you can see by chemical components that 440 is highest quality although that also means more cost. 1045 and 1065 are low quality steels and you should probably never use them for a knife. The 1 indicates plain carbon steel with little other alloying elements. The last two digits indicate how much carbon is in the steel. 1045 has 0.45% carbon, mid-range hardenability. 1065 has 0.65% carbon, high hardenability. So if I had to choose I would choose 1065 over 1045 but the difference isn't that noticeable. Everything I said here assumes they have all had the optimum Quench and Temper heat-treatment for their chemistry grade.

Q: so i've started learning to play guitar in the past few weeks, and i'm using my sister's old guitar which isn't in very good condition, so i'm planning on buying a new one, but which would be better to buy, nylon string or steel string?: it all depends nylon is faster, and brighter than steel, but is available only on acoustic as coil pickups won't detect them(only peizo will). That is one reason. Another is price, you tend to replace the nylon more often as it is weaker, and less resistant to corrision. EVEN THOUGH strings have a larger price range, and be cheaper than steel, or considerably more expensive. overall the nylon is brighter, but quite-er. Steel is louder, but deeper. nylon doesn't get feedback as easily, and is amazingly fast and easy to play. some think nylon sounds old fashoined(it looks it too, with an open headstock, ond classical look(sometimes mistaken as another name for it). MY SUGGESTION- visit your local music shop and try out steel, and nylons to in person get a feel for the sound.(remember that you get what you pay for, go as high in price as you can reasonably afford) ALWAYS TRY BEFORE YOU BUY, PLAY BOTH TYPES IN THE SAME RANGE OF PRICE(at least $400), THEN DECIDE WHAT SOUNDS BETTER TO YOU(and of course feels better and easier to play).

Q: Don't ask me why, but I took my stainless steel ring and I heated it up with my gas stove. I stuck it in there til the metal turned red, and the flame which is normally blue turned orange for some reason when the metal turned red. Anyway, afterwards i cooled it off in water and now it's all discolored and it feels different. It's weighs less and it doesn't feel the same. Plus, it's ugly cause it's all black and blue. What happened? Someone help: Stainless steel has a rating. I don't know what your ring's stainless steel rating is. If you know, you can look it up. The rating will tell you how much steel vs other metal it has (usually Cr and Ni). But usually when you heat the stainless steel to extreme temperature it will discolor due to oxidation. What is worse is that you cooled it off in water (I assumed that you did it while it was still hot). By rapid cooling, you have changed the physical structure of the steel itself. It will change the hardness of the steel. That is why it feels different. Look up on annealing, normalizing, quenching and tempering under heat treatment for steel.

Q: Edward Humphrey wants to know... Can I use steel roofing on an older house?: In the town that I live it is getting really popular.The good thing is the old roof doesn't need torn off you just put 2in boards the width or the steel on the old roof and then screw the steel roof panels to it.

Q: What is the shelf life of steel coils?: Various factors, such as the type of steel, its specific application, and the storage conditions, can affect the shelf life of steel coils. Generally, steel coils have a lengthy shelf life due to their durability and resistance to corrosion. When stored correctly in a dry and controlled environment, steel coils can maintain their quality for many years. It is important to consider that certain types of steel, like galvanized steel, may have a shorter shelf life if the protective coating is compromised and corrosion occurs. Additionally, exposure to extreme weather conditions, high humidity, or chemicals can reduce the shelf life of steel coils. To ensure the longevity of steel coils, it is advisable to store them in a covered area to protect them from moisture and direct sunlight. Proper stacking and handling techniques should also be employed to prevent any damage that could lead to premature deterioration. In conclusion, the shelf life of steel coils can vary, but with appropriate storage and handling, they can remain in good condition for an extended period. This makes them a reliable and long-lasting material for various applications.

Q: How are steel coils used in the manufacturing of industrial pumps?: Steel coils are used in the manufacturing of industrial pumps as they provide a strong and durable material for constructing pump components such as casings, impellers, and shafts. The coils are typically cut, shaped, and welded to create the necessary parts, ensuring the pumps can handle high pressures and harsh operating conditions in various industries.

Q: What are the benefits of using steel coils in the manufacturing of pipes?: Using steel coils in the manufacturing of pipes has several advantages: 1. Strength and durability: Steel is renowned for its strength and durability, making it an ideal material for pipes. By utilizing steel coils, pipes are provided with a solid foundation, enabling them to withstand high-pressure applications and resist damage from external factors such as impact or corrosion. This strength and durability increase the lifespan of the pipes, reducing the need for frequent replacements. 2. Customizability: Steel coils offer a high degree of flexibility in terms of customization and design. They can be easily formed into various pipe shapes and sizes, allowing manufacturers to produce pipes that meet specific project requirements. This flexibility also allows for the production of seamless pipes, which have superior structural integrity and a reduced risk of leakage. 3. Excellent thermal conductivity: Steel possesses excellent thermal conductivity, meaning it efficiently transfers heat or cold. This property is essential for pipes used in industries such as oil and gas, where temperature control is crucial. By utilizing steel coils, pipes can effectively handle extreme temperatures, preventing any damage to the pipes or the substances flowing through them. 4. Cost-effectiveness: Steel coils can be produced in large quantities, resulting in economies of scale and lower production costs. This cost-effectiveness benefits both manufacturers and consumers, as it helps keep the overall cost of pipes down. Additionally, the durability of steel pipes reduces the need for frequent repairs or replacements, resulting in long-term cost savings. 5. Enhanced corrosion resistance: Steel coils can be coated with protective layers to enhance their resistance to corrosion. This corrosion resistance is vital in applications where pipes come into contact with corrosive substances or are exposed to harsh environmental conditions. By utilizing steel coils with appropriate coatings, manufacturers can ensure that their pipes have a longer lifespan and maintain their structural integrity even under challenging circumstances. In conclusion, the utilization of steel coils in pipe manufacturing provides numerous benefits, including strength, customizability, thermal resistance, cost-effectiveness, and corrosion resistance. These advantages make steel coils the preferred choice for many industries that rely on durable and efficient piping systems.

Q: What are the common coil coating materials?: The common coil coating materials include polyester, polyurethane, polyvinylidene fluoride (PVDF), and silicone-modified polyester (SMP).

Send your message to us

*Email

*TEL

*Quantity

*Unit