GL prepainted corrugated steel sheet System 1

GL prepainted corrugated steel sheet

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Loading Port:: Shanghai

Payment Terms:: TT OR LC

Min Order Qty:: 100 m.t.

Supply Capability:: 1000 m.t./month

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Quick Details

Standard:	AISI,ASTM,BS,DIN,GB,JIS	Grade:	SGCC,SGHC,DX51D..	Thickness:	0.14-3.0mm
Place of Origin:	Shanghai China (Mainland)	Brand Name:		Model Number:	600-1250mm
Type:	Steel Plate	Technique:	Cold Rolled	Surface Treatment:	coated ,galvanized
Application:	building ,house,construction	Special Use:	Wear Resistant Steel	Width:	600-1250mm
Length:	Any length	sample:	free available	quality:	first class
stock:	5766tons	company type:	manufacturer & exporter	product name:	prepainted galvanized corrugated steel sheet

Packaging & Delivery

Packaging Detail:	1.packed in bundles 2.waterproof packing 3.packed by steel strip 4.as per to clients
Delivery Detail:	within 5-20 days after receipt deposit or L/C at sight.

Specifications

prepainted galvanized corrugated sheel sheet
1.Thickness:0.14-3.0mm
2.Width:600-1250mm
3.In stock
4.Fast delivery

prepainted galvanized corrugated steel sheet
Standard	AISI, ASTM, BS, DIN, GB, JIS
Material	DX51D SGCC, DC51D,SPCC
Thickness	0.14-3.0mm
Width	600-1250mm(1250,1220,1000, 980mm, 900mm ,840mm, 820mm, 750mm)
Coating	PE ,PVDF, HDP ,galvanized(30-300g), galvalume (AZ80)
Color	According to RAL card
Length	cut as client’s request, but considering the transportation , its better to cut less than 5.8 meter (for 20’ft container) , or 11.8 meter (for 40’ft container).
Remarks	1.Payment terms:T/T, L/C 2.Trade terms:FOB, CNF, CIF 3.Port:Shanghai 4.Supply ability:5000Tons/month 5.Delivery time: within 15-20 days after receiving the deposit.

Q:What are the different types of steel sheet finishes for architectural applications?: Architectural applications commonly utilize various types of steel sheet finishes, each serving a different purpose. These finishes not only enhance the visual appeal of steel sheets but also offer protection against corrosion and environmental factors. 1. Mill Finish: The most basic type of finish, the steel sheet remains as it is from the mill. It has a dull, gray appearance and is typically used for applications where aesthetics are not a priority. 2. Brushed Finish: Also known as a satin finish, this type of finish is achieved by brushing the steel sheet with a fine abrasive material. It results in a smooth, linear texture, giving the surface a contemporary and elegant look. 3. Polished Finish: Achieved by polishing the steel sheet with abrasive materials, this finish creates a smooth and reflective surface. It offers a high-gloss, mirror-like appearance, making it suitable for applications that require a sophisticated and luxurious look. 4. Embossed Finish: This finish involves pressing the steel sheet with embossing tools to create textured patterns or designs on the surface. It provides a unique and decorative appearance, ideal for architectural applications that require visual interest. 5. Patterned Finish: This finish entails applying patterns or textures onto the steel sheet using techniques like etching, laser cutting, or perforating. It creates visually appealing surfaces with intricate designs, suitable for both functional and decorative purposes. 6. Powder Coated Finish: This finish involves electrostatically applying a layer of dry powder paint to the steel sheet, which is then cured under heat. It offers a durable and vibrant finish, available in a wide range of colors and textures. This finish is highly resistant to chipping, scratching, and fading, making it ideal for exterior architectural applications. 7. Galvanized Finish: This finish is achieved by applying a layer of zinc coating onto the steel sheet through galvanization. It provides excellent corrosion resistance, making it suitable for outdoor architectural applications exposed to harsh environments. In conclusion, the choice of steel sheet finish depends on the desired aesthetics, durability, and environmental conditions of the architectural application.

Q:Can steel sheets be used in food processing industries?: Indeed, steel sheets find applicability in the realm of food processing industries. The utilization of stainless steel sheets is widespread in these industries owing to their myriad advantageous characteristics. Stainless steel, being impervious to corrosion, is of utmost importance in an environment where food is processed, as it effectively prevents contamination and guarantees the safety of the final product. Moreover, steel sheets are easily cleaned and maintained, rendering them the ideal choice for industries that prioritize hygiene. Furthermore, stainless steel exhibits non-reactivity towards food, thereby eliminating the risk of harmful chemical leaching into the processed food. The versatility of steel sheets is evident in their various applications within food processing industries, ranging from countertops, worktables, shelving, to equipment surfaces.

Q:How do steel sheets compare to other materials, such as aluminum or copper?: Steel sheets have several advantages over materials like aluminum or copper. Firstly, steel is known for its exceptional strength and durability. It can withstand heavy loads and resist impacts better than aluminum or copper. This makes steel sheets ideal for applications that require high strength and structural integrity, such as in construction or automotive industries. Additionally, steel sheets have a higher melting point compared to aluminum or copper. This means that steel can withstand higher temperatures without deforming or melting. It makes steel sheets suitable for applications that involve exposure to high temperatures, such as in manufacturing processes or engine components. Moreover, steel sheets have excellent corrosion resistance properties. Steel can be coated with various protective layers, such as zinc or chromium, to enhance its resistance to rust and corrosion. On the other hand, aluminum and copper are more prone to corrosion, especially when exposed to certain environments or chemicals. This makes steel sheets a preferred choice for outdoor applications or structures that require long-term durability. Another advantage of steel sheets is their cost-effectiveness. Steel is relatively cheaper compared to aluminum or copper, especially when considering its strength and durability. This makes steel sheets a more economical choice for various applications, where cost plays a significant role. However, aluminum and copper do have their own advantages. Aluminum is lightweight and has excellent thermal conductivity, making it suitable for applications that require lightweight materials or efficient heat transfer. Copper, on the other hand, has superior electrical conductivity, making it ideal for electrical wiring or components. In summary, steel sheets offer exceptional strength, durability, corrosion resistance, and cost-effectiveness compared to aluminum or copper. However, the choice of material ultimately depends on the specific requirements of the application, such as weight, thermal or electrical conductivity, and environmental factors.

Q:Are steel sheets suitable for bridge construction?: Yes, steel sheets are suitable for bridge construction. Steel sheets provide high strength, durability, and flexibility, allowing for the construction of long-span bridges. Additionally, steel sheets are resistant to corrosion, making them ideal for bridges exposed to harsh environmental conditions.

Q:How do steel sheets perform in low-temperature environments?: In low-temperature environments, steel sheets typically demonstrate excellent performance. The presence of low temperatures does not significantly impact the mechanical properties of steel, such as its strength and toughness. Steel possesses a low coefficient of thermal expansion, which means it does not undergo significant contraction or expansion when exposed to temperature fluctuations. This characteristic enables steel sheets to maintain their shape and structural integrity even in cold conditions. Furthermore, steel exhibits remarkable resistance to brittle fracture at low temperatures. It possesses excellent impact resistance, allowing it to absorb energy without fracturing. As a result, steel sheets are suitable for use in low-temperature environments where materials must endure heavy loads or sudden impacts, such as in cold storage facilities or offshore structures in Arctic regions. It is important to note, however, that certain types of steel, particularly those with high carbon content or low alloy steels, may experience reduced toughness and ductility at extremely low temperatures. In such cases, specific precautions may be necessary. These precautions may include utilizing steel grades specially designed for low-temperature applications or implementing appropriate insulation measures to prevent rapid temperature changes. Overall, steel sheets are generally dependable and exhibit excellent performance in low-temperature environments due to their strength, toughness, and resistance to brittle fracture. Nevertheless, the precise performance of steel in cold conditions may vary depending on the composition and quality of the steel employed.

Q:Can the steel sheets be used for storage racks or shelves?: Yes, steel sheets can be used for storage racks or shelves. Steel is a strong and durable material that can support heavy loads, making it ideal for storage purposes. Steel sheets can be cut and shaped to the desired size and can be easily welded or bolted together to create sturdy storage racks or shelves. Additionally, steel is resistant to corrosion and can withstand harsh environmental conditions, making it a suitable choice for both indoor and outdoor storage applications.

Q:What are the different joining methods for steel sheets?: There are several different methods for joining steel sheets, each with its own advantages and applications. 1. Welding: Welding is one of the most common methods used to join steel sheets. It involves melting and fusing the edges of the sheets together using heat. There are various welding techniques such as arc welding, MIG welding, TIG welding, and spot welding. Welding offers strong and durable joints, but it requires skilled operators and can be time-consuming. 2. Bolting: Bolting involves using bolts or screws to connect steel sheets. This method is commonly used when disassembly or maintenance is required. Bolting provides a strong and reliable joint, and it is relatively simple and quick to perform. However, it may require drilling holes in the sheets and can result in a less aesthetically pleasing appearance compared to welding. 3. Riveting: Riveting is a method that uses metal pins or rivets to join steel sheets together. The rivets are inserted through pre-drilled holes in the sheets and then deformed or expanded to hold them in place. Riveting offers strong and secure joints, and it is often used in applications that require high shear strength. However, it can be time-consuming and requires specialized tools and skills. 4. Adhesive bonding: Adhesive bonding involves using specialized adhesives or bonding agents to join steel sheets together. The adhesive is applied between the sheets, and it forms a strong bond as it cures. This method offers excellent aesthetics as it leaves no visible joints, and it can also distribute stress evenly across the joint. Adhesive bonding is commonly used in industries where welding or other methods are not suitable, such as in the automotive and aerospace sectors. 5. Clinching: Clinching is a method that uses mechanical force to join steel sheets together. It involves deforming the edges of the sheets to interlock them and create a strong joint. Clinching does not require any additional materials such as fasteners or adhesives, making it cost-effective. However, it may not be suitable for applications that require high load-bearing capacity. Overall, the choice of joining method for steel sheets depends on factors such as the application, desired strength, aesthetics, time constraints, and cost considerations. Each method has its own advantages and limitations, and it is important to select the most appropriate method for the specific requirements of the project.

Q:Can steel sheets be used for agricultural applications?: Yes, steel sheets can be used for agricultural applications. Steel is a versatile material that offers strength, durability, and resistance to corrosion, making it suitable for various agricultural purposes such as building structures, fencing, roofing, and equipment.

Q:How do steel sheets perform under heavy loads or pressure?: Steel sheets are designed to perform exceptionally well under heavy loads or pressure. Due to their high tensile strength and durability, steel sheets can withstand significant amounts of weight without bending or breaking. They offer excellent resistance to deformation and can maintain their structural integrity even when subjected to intense pressure. Hence, steel sheets are widely used in various industries for applications that require robust materials capable of bearing heavy loads or pressure.

Q:Can steel sheets withstand extreme temperatures?: Indeed, extreme temperatures pose no challenge to steel sheets. Renowned for its remarkable melting point of approximately 1370°C (2500°F), steel proves itself as an ideal choice for environments characterized by intense heat, including furnaces, kilns, and industrial ovens. Moreover, steel exhibits exceptional thermal conductivity, enabling efficient heat transfer while effectively withstanding the expansion and contraction caused by temperature fluctuations. Thanks to these exceptional attributes, steel sheets remain impervious to warping, cracking, and other structural impairments often encountered in extreme temperature scenarios.

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