430 SERIOUS COLD ROLLED STAINLESS STEEL SHEETS/COILS
- Ref Price:
-
- Loading Port:
- Guangzhou
- Payment Terms:
- TT OR LC
- Min Order Qty:
- 100 m.t.
- Supply Capability:
- 10000 m.t./month
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Quick Details
| Standard: | AISI,ASTM,DIN,GB,JIS | Grade: | 400 series | Thickness: | 0.25-2.0mm |
| Place of Origin: | Guangdong China (Mainland) | Brand Name: | CMAX | Model Number: | SUS430 |
| Type: | Steel Coil | Technique: | Cold Rolled | Surface Treatment: | 2B, BA, HL, NO.4 |
| Application: | Utensils, kitchenware, cutlery, pots & bowls, sinks, gas stove etc. | Width: | 800-1300mm | Length: | As requested |
| Market: | Asia, Mid East, South America etc. | Form available: | coil/ panel/ strip/ sheet | Sample: | Available |
| Packing: | PVC film with wooden pallet | Hardness: | From full hard to DDQ | Edge: | Mill edge/ Slitting edge |
| Feature: | Clean & corrosion resistance | Cr content: | 16%-18% | Steel type: | Ferrite stainless steel |
| Product name: | Cheap Cold Rolled Stainless Steel Coil 430 |
Packaging & Delivery
| Packaging Detail: | Standard export package, pvc film with wooden pallet. |
| Delivery Detail: | 15-30 days after receiving deposit |
Specifications
Cheap cold rolled stainless steel coil 430
Manufacturer
Origin: Baosteel, Tisco, Jisco
High technology & advanced equipment
Product Description
Cheap Cold Rolled Stainless Steel Coil 430 / ss430
| Item name | Cheap Cold Rolled Stainless Steel Coil 430 |
| Grade | 400 series |
| Type | Steel coil |
| Origin | CHINA |
| Standard | AISI,ASTM,DIN,GB,JIS |
| Thickness | 0.25mm-2.0mm |
| Width | 800-1300mm |
| Length | As requested |
| Surface treatment | BA, 2B, HL, No.4 |
| Edge | Mill edge/ slitting edge |
| Hardness | Full hardness to DDQ |
| Application | Utensils, kitchenware, cutlery, pots & bowls, sinks, food industry, construction decorations etc. |
| Package | Standard export package, PVC film with wooden pallet |
| Payment terms | T/T, 20% deposit in advance, balance against copy of B/L |
| Delivery time | 15-30 days after receiving the deposit |
- Q:What are the limitations of using 111 stainless steel strips?
- There are several limitations associated with using 111 stainless steel strips: 1. Corrosion Resistance: While stainless steel is generally known for its corrosion resistance, 111 stainless steel strips may not have the same level of resistance as other grades. This can make them more susceptible to corrosion in certain environments, such as those with high levels of chloride or sulfur. 2. Strength and Hardness: Compared to other stainless steel grades, 111 stainless steel strips may have lower strength and hardness properties. This can limit their suitability for applications that require high tensile strength or resistance to wear and abrasion. 3. Weldability: Welding 111 stainless steel strips can be challenging due to their higher carbon content. This can result in the formation of carbides during the welding process, leading to reduced weldability and potential brittleness in the heat-affected zone. 4. Magnetic Properties: Unlike some other stainless steel grades, 111 stainless steel strips are generally magnetic. This can limit their use in certain applications where non-magnetic properties are required, such as in electronic devices or sensitive equipment. 5. Availability and Cost: 111 stainless steel strips may be less readily available in the market compared to more common grades. This can make them harder to source and potentially more expensive. 6. Temperature Limitations: 111 stainless steel strips may have limitations when exposed to high temperatures. They may exhibit reduced strength and increased susceptibility to oxidation or scaling, which can restrict their use in high-temperature applications. It is important to consider these limitations when selecting stainless steel strips for specific applications, as they can impact the performance, durability, and cost-effectiveness of the material.
- Q:Are stainless steel strips resistant to embrittlement?
- Yes, stainless steel strips are generally resistant to embrittlement. Embrittlement refers to the loss of ductility and the development of brittleness in a material, which can lead to cracking or fracturing under stress. Stainless steel is an alloy that contains a minimum of 10.5% chromium, which forms a protective oxide layer on the surface of the material. This oxide layer provides excellent corrosion resistance and also helps to prevent embrittlement. Additionally, stainless steel contains other alloying elements such as nickel and molybdenum, which further enhance its resistance to embrittlement. These alloying elements help to maintain the structure and integrity of the material, even under extreme conditions or exposure to high temperatures. However, it is important to note that certain factors can still lead to embrittlement in stainless steel strips. For example, exposure to very high temperatures (above the recommended operating range) or prolonged exposure to certain chemicals can cause embrittlement. Additionally, improper heat treatment or welding processes can also affect the material's resistance to embrittlement. Therefore, while stainless steel strips are generally resistant to embrittlement, it is crucial to consider the specific operating conditions and ensure proper handling, heat treatment, and maintenance to maintain the material's integrity.
- Q:Can 111 stainless steel strips be used in the aerospace industry?
- Yes, 111 stainless steel strips can be used in the aerospace industry.
- Q:What are the different types of edges available for stainless steel strips?
- There are several different types of edges available for stainless steel strips, including slit edge, mill edge, deburred edge, rounded edge, and beveled edge.
- Q:What are the factors affecting the thermal conductivity of 111 stainless steel strips?
- There are several factors that can affect the thermal conductivity of 111 stainless steel strips. 1. Chemical composition: The elemental composition of the stainless steel, especially the presence of alloying elements, can significantly impact its thermal conductivity. Different elements can either enhance or hinder the flow of heat within the material. 2. Microstructure: The microstructure of stainless steel, including the size, distribution, and shape of its grains, affects its thermal conductivity. A more uniform and fine-grained microstructure typically results in higher thermal conductivity. 3. Temperature: The thermal conductivity of stainless steel can vary with temperature. Generally, thermal conductivity decreases as the temperature increases due to increased lattice vibrations and phonon scattering, which hinder the flow of heat. 4. Heat treatment: The heat treatment process used during the production of stainless steel strips can influence their thermal conductivity. Specific heat treatments, such as annealing or quenching, can modify the microstructure and thereby impact thermal conductivity. 5. Alloying elements: The addition of certain alloying elements, such as nickel or copper, can enhance the thermal conductivity of stainless steel. These elements can improve the mobility of electrons or phonons, leading to better heat conduction. 6. Surface finish: The surface finish of stainless steel strips can affect their thermal conductivity. A smooth surface with minimal imperfections or roughness allows for better thermal contact and heat transfer. 7. Thickness: The thickness of stainless steel strips can also affect their thermal conductivity. Thinner strips tend to have higher thermal conductivity due to shorter heat transfer paths. 8. Impurities and defects: The presence of impurities or defects in the stainless steel, such as inclusions or voids, can hinder the flow of heat and reduce thermal conductivity. It is important to consider these factors when selecting and utilizing stainless steel strips for applications that require efficient heat transfer.
- Q:What are the advantages of using stainless steel strips?
- There are several advantages of using stainless steel strips in various applications. Firstly, stainless steel is known for its exceptional corrosion resistance. It can withstand exposure to moisture, chemicals, and other harsh environmental conditions without rusting or corroding. This makes it an ideal choice for applications that require long-lasting durability, such as in the construction industry or for outdoor equipment. Secondly, stainless steel strips offer excellent strength and stability. They have a high tensile strength, which means they can withstand heavy loads and pressure without deforming. This makes them suitable for applications that require structural integrity, such as in automotive manufacturing or in the production of machinery parts. Additionally, stainless steel is highly hygienic and easy to clean. It is non-porous, which means it does not trap dirt, bacteria, or other contaminants. This makes it a popular choice for applications in the food and beverage industry, medical equipment, and pharmaceutical manufacturing. Moreover, stainless steel strips have a high heat resistance, allowing them to withstand extreme temperatures without deforming or losing their strength. This makes them suitable for applications in high-temperature environments, such as in the aerospace industry or in the manufacturing of industrial furnaces. Furthermore, stainless steel is aesthetically pleasing and can be easily customized. It has a sleek and modern appearance, making it a popular choice in architecture and interior design. It can also be easily shaped, welded, and polished, allowing for various design possibilities. Lastly, stainless steel is a sustainable and environmentally friendly material. It is 100% recyclable, which reduces the need for new raw materials and minimizes waste. Additionally, stainless steel does not release harmful substances or toxins during its production, making it safe for both human health and the environment. Overall, the advantages of using stainless steel strips include corrosion resistance, strength, hygiene, heat resistance, customization options, and sustainability. These qualities make stainless steel a versatile and reliable material for a wide range of applications in various industries.
- Q:Can 111 stainless steel strips be used in the construction industry?
- The construction industry can utilize 111 stainless steel strips. Stainless steel, which is known for its versatility and durability, is commonly used in various construction applications. Its ability to resist corrosion makes it suitable for both indoor and outdoor projects. Stainless steel strips have multiple uses in the construction industry, including cladding, roofing, wall panels, and architectural features. Moreover, its strength and ability to withstand extreme temperatures make it an excellent choice for structural components like beams, columns, and supports. However, it is essential to consider the specific grade of stainless steel, such as 111, as it may have different mechanical properties that could affect its suitability for specific applications. Consulting with a structural engineer or construction professional is crucial to ensuring that 111 stainless steel strips meet the required specifications for a particular project.
- Q:How do stainless steel strips resist oxidation?
- Stainless steel strips resist oxidation due to the presence of chromium in their composition, which forms a protective layer of chromium oxide on the surface. This layer acts as a barrier, preventing oxygen from reaching the underlying metal and thereby inhibiting the oxidation process.
- Q:What is the typical thickness range for stainless steel strips?
- The typical thickness range for stainless steel strips can vary, but it is generally between 0.015 inches (0.38 mm) to 0.1875 inches (4.76 mm).
- Q:What are the different cutting methods for stainless steel strips?
- There are several cutting methods that can be used for stainless steel strips, depending on the specific requirements and desired outcome. Some common cutting methods include: 1. Shearing: This is a traditional cutting method that involves using sharp blades to cut through the stainless steel. Shearing is often used for thinner strips and can provide a clean and straight cut. However, it may not be suitable for thicker or harder stainless steel strips. 2. Laser cutting: Laser cutting is a precise and efficient method that uses a laser beam to cut through the stainless steel. It is commonly used for intricate and complex shapes as it allows for high levels of accuracy and control. Laser cutting can be used for both thin and thick stainless steel strips. 3. Waterjet cutting: Waterjet cutting utilizes a high-pressure stream of water mixed with an abrasive material to cut through the stainless steel. It is a versatile method that can be used for various thicknesses and shapes. Waterjet cutting is known for its ability to provide clean and precise cuts, without causing heat distortion or altering the properties of the stainless steel. 4. Plasma cutting: Plasma cutting involves using a jet of ionized gas to cut through the stainless steel. It is a fast and efficient method that can be used for both thin and thick strips. Plasma cutting is particularly suitable for cutting stainless steel strips with high alloy content or hardening properties. 5. Saw cutting: Saw cutting utilizes a rotating saw blade to cut through the stainless steel. It is a versatile method that can be used for various thicknesses and shapes. Saw cutting can provide fast and efficient cuts, but it may not be as precise as other methods and may cause some burring or rough edges. Overall, the choice of cutting method for stainless steel strips depends on factors such as the thickness and hardness of the material, the desired precision, and the specific requirements of the project. It is important to carefully assess these factors and consult with experts to determine the most suitable cutting method for a particular application.
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430 SERIOUS COLD ROLLED STAINLESS STEEL SHEETS/COILS
- Ref Price:
-
- Loading Port:
- Guangzhou
- Payment Terms:
- TT OR LC
- Min Order Qty:
- 100 m.t.
- Supply Capability:
- 10000 m.t./month
OKorder Service Pledge
Quality Product, Order Online Tracking, Timely Delivery
OKorder Financial Service
Credit Rating, Credit Services, Credit Purchasing
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