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Home > products > Rolled Stainless Steel Sheets > 430 304 316 Stainless Steel Sheet 0.5mm Stainless Steel Mesh Screen With Laser Drilling

430 304 316 Stainless Steel Sheet 0.5mm Stainless Steel Mesh Screen With Laser Drilling

Product Details

Place of Origin: TISCO/JISCO/Tsingshan

Brand Name: ZGMC

Certification: ISO TUV SGS BIS CE BV

Model Number: 430/304/316/316L

Payment & Shipping Terms

Minimum Order Quantity: 25Tons

Price: $1000~3300 /TON

Packaging Details: With iron sheet to pack the steel sheet and pallet .Also make the shipping marks on each bundles.

Delivery Time: 5-15days depend on the quantity

Payment Terms: L/C, D/A, D/P, T/T, Western Union, MoneyGram,OA

Supply Ability: 500Tons Per Months

Get Best Price
Highlight:

316 0.5 mm stainless steel sheet

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430 0.5 mm stainless steel sheet

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Laser Drilling 0.5 mm stainless steel sheet

Product Name:
Stainless Steel Mesh Screen
Thickness:
0.5-5.0mm
Grade:
304, 316,430
Mesh Size:
0.5mm、1mm、2mm
Hole Shape:
Round Or Square
Width:
1FT-4FT
Length:
25FT-100FT
Application:
Water Filtration
Surface:
Polishing/Pickling/Electroplate
Payment Term:
TT/LC/OA/DP/DA
Product Name:
Stainless Steel Mesh Screen
Thickness:
0.5-5.0mm
Grade:
304, 316,430
Mesh Size:
0.5mm、1mm、2mm
Hole Shape:
Round Or Square
Width:
1FT-4FT
Length:
25FT-100FT
Application:
Water Filtration
Surface:
Polishing/Pickling/Electroplate
Payment Term:
TT/LC/OA/DP/DA
430 304 316 Stainless Steel Sheet 0.5mm Stainless Steel Mesh Screen With Laser Drilling
Product Description:
Our stainless steel wire mesh is a versatile and durable solution for various filtration and screening applications. Made from high-quality stainless steel, it offers excellent corrosion resistance, mechanical strength, and longevity. With precise manufacturing processes and adherence to strict quality standards, our stainless steel wire mesh ensures optimal performance and reliability.
Here are some examples of applications where different mesh sizes of stainless steel mesh are commonly used:
  1. Fine Mesh (10 mesh to 400 mesh):
    • Pharmaceutical Industry: Fine mesh sizes are suitable for precise filtration and separation of pharmaceutical powders, ensuring high product purity and quality.
    • Food Processing Industry: Fine mesh is ideal for removing small particles, impurities, and contaminants from food products, ensuring food safety and hygiene.
    • Chemical Industry: Fine mesh is used for fine particle filtration, catalyst recovery, and separation of chemicals in various chemical processes.
  2. Medium Mesh (4 mesh to 80 mesh):
    • Mining and Aggregate Industry: Medium mesh sizes are commonly used for screening and classifying crushed stones, ores, and aggregates based on size.
    • Construction Industry: Medium mesh is used for reinforcing concrete structures, providing strength and preventing cracking.
    • Water Filtration: Medium mesh sizes are suitable for water filtration applications, removing sediment, sand, and larger particles from water sources.
  3. Coarse Mesh (2 mesh to 20 mesh):
    • Industrial Filtration: Coarse mesh is used for heavy-duty industrial filtration applications, such as filtering large particles, debris, and contaminants from fluids or gases.
    • Security Applications: Coarse mesh sizes are used for security screens, window guards, and protective enclosures, providing both visibility and protection against intruders.
    • Vibrating Screens: Coarse mesh is commonly used in vibrating screens for sizing, scalping, and dewatering applications in industries such as mining, recycling, and bulk material handling.
The selection of the appropriate mesh size and wire diameter depends on the specific requirements of your application, including the desired filtration or screening efficiency, the size of particles to be retained or separated, and the operating conditions. It is recommended to consult with our experts to determine the most suitable mesh size and wire diameter combination for your specific application needs.

 

An introduction to the punching process of stainless steel mesh:
Punching is a common manufacturing technique used to create perforations in stainless steel mesh. This process involves using a specialized tool, called a punch, to precisely cut or punch holes in the mesh material. Here are the key steps involved in the punching process:
  1. Material Preparation: The stainless steel wire mesh is first prepared by unrolling it from a roll or selecting pre-cut sheets in the desired size and thickness. The material should be clean and free from any contaminants.
  2. Tool Selection: The appropriate punch tool is chosen based on the desired hole size, shape, and pattern. Punch tools come in various shapes, including round, square, rectangular, or custom-designed to meet specific requirements.
  3. Positioning and Alignment: The stainless steel wire mesh is positioned and secured on a suitable work surface or machine. It should be aligned accurately to ensure precise hole placement.
  4. Punching Process: The punch tool is brought into contact with the mesh material at the desired location. With the application of force, the punch tool penetrates the material, creating a hole. For complex patterns or larger quantities, automated punching machines may be used to achieve consistent and efficient results.
  5. Hole Quality Control: Throughout the punching process, quality control measures are implemented to ensure the accuracy and consistency of the punched holes. This may involve periodic inspections, measurements, or sample testing to verify that the desired hole size and pattern are achieved.
  6. Post-Processing: After the punching process, the stainless steel wire mesh may undergo additional steps, such as cleaning, deburring, or surface treatment, to remove any sharp edges, improve the overall finish, or enhance specific characteristics, if required.
The punching process offers flexibility in creating various hole sizes, shapes, and patterns in stainless steel mesh. It is widely used in applications requiring filtration, screening, separation, ventilation, or decorative purposes. The choice of punching technique depends on factors such as the desired hole size, pattern complexity, production volume, and precision requirements.
It's important to note that specific punching techniques, machinery, or additional steps involved in post-processing may vary depending on the manufacturer or the specific requirements of the stainless steel mesh.
430 304 316 Stainless Steel Sheet 0.5mm Stainless Steel Mesh Screen With Laser Drilling 0 430 304 316 Stainless Steel Sheet 0.5mm Stainless Steel Mesh Screen With Laser Drilling 1