• 304 Stainless Steel Sheet & Stainless Steel Plate System 1
  • 304 Stainless Steel Sheet & Stainless Steel Plate System 2
  • 304 Stainless Steel Sheet & Stainless Steel Plate System 3
304 Stainless Steel Sheet & Stainless Steel Plate

304 Stainless Steel Sheet & Stainless Steel Plate

Ref Price:
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Loading Port:
Tianjin
Payment Terms:
TT OR LC
Min Order Qty:
25 m.t.
Supply Capability:
2000 m.t./month

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Item specifice

Standard:
AISI,JIS,GB,ASTM
Technique:
Hot Rolled,Cold Rolled,Saw
Shape:
Square,Rectangular
Surface Treatment:
Galvanized,Coated,Color Coated,Oiled,Chromed Passivation
Steel Grade:
Q195,Q215,Q235,Q215B,Q235B
Certification:
ISO,SGS,BV
Thickness:
0.15
Length:
1500
Net Weight:
0.2MT

Product  Brief  Introduction

 

304 Stainless Steel Sheet & Stainless Steel Plate

 

---Stainless steel plate applies to construction field, ships building industry, petroleum,

chemical industries, war and electricity industries, food processing and medical industry,

boiler heat exchanger,machinery and hardware fields. 

Product Specification 

Standard:ASTM, GB,JIS,JIS G3302 ASTM 755 EN10169

Grade: 304/410/409/430/202/201

Thickness: 0.15mm~3.0mm,

Width: 1250,600-1250mm

Chemical composition:

C

Si

Mn

Cr

Ni

P

S

0.160

0.476

11.231

12.50

0.900

0.039

0.010

 

 

 

FAQ

 

1.    How long will we receive the goods ?

45days after receiving workable L/C

 

1.    how do you control the quality ?

we have our own quality control department ,we will arrange QC person  to see the production line ,when goods finish ,before shipment ,our QC person will check the quality as per our test report request ,if the goods is ok ,then we issue the test report ,and we allow the goods shipping ,otherwise will not allow ship the goods.

 

304 Stainless Steel Sheet & Stainless Steel Plate 

 

Q:How are steel strips used in the manufacturing of mining equipment?
Steel strips are used in the manufacturing of mining equipment to provide strength, durability, and resistance to heavy loads and harsh conditions. These strips are typically used as structural components, such as frames, supports, and reinforcements, ensuring the equipment can withstand the demanding environments found in mining operations.
Q:How are steel strips used in the production of solar panels?
Integral to the production process of solar panels are steel strips. These strips serve primarily as frames and structural supports for the panels. They are typically crafted from galvanized steel, which is renowned for its durability and resistance to corrosion. To form the framework of the solar panel, specific lengths and shapes are cut into the steel strips. This framework holds all the panel components together, including the glass cover, solar cells, and backsheet. To ensure panel stability, especially during installation and exposure to diverse weather conditions, the steel strips are securely fastened. Furthermore, the steel strips play a crucial role in maintaining the overall integrity of the solar panel. They serve as a protective barrier, shielding the delicate components from external forces like wind, rain, and snow. By providing structural support, the steel strips prevent damage and ensure the panel's longevity. Moreover, the steel strips are indispensable for the installation and mounting of solar panels. They are used to firmly secure the panels onto rooftops or other surfaces. This ensures that the panels are securely fixed in place, maximizing exposure to sunlight and optimizing energy production. In conclusion, steel strips are a vital component in the production of solar panels. They provide structural support, maintain panel integrity, and facilitate installation and mounting. By incorporating steel strips into the manufacturing process, solar panels become more robust, reliable, and efficient, contributing to the overall sustainability and effectiveness of solar energy systems.
Q:How are steel strips tested for quality control?
Steel strips are tested for quality control through various methods such as visual inspection, mechanical testing, and chemical analysis. Visual inspection is conducted to check for any surface defects or irregularities. Mechanical testing involves measuring characteristics like tensile strength, hardness, and elongation to ensure they meet the required specifications. Chemical analysis is performed to determine the composition and identify any impurities. These comprehensive tests help ensure that steel strips meet the necessary quality standards before being used in various applications.
Q:What are the main factors affecting the surface roughness of steel strips?
The main factors affecting the surface roughness of steel strips include the quality of the steel material, the manufacturing process, the tooling used, the lubrication system, and the operating conditions such as speed and pressure.
Q:How are steel strips processed for punching?
Steel strips are processed for punching by first being uncoiled from large coils and straightened to remove any bends or twists. The strips are then fed into a punching machine, where precise holes or shapes are punched out using a die and punch set. The punched strips are then further processed, such as by deburring the edges or coating them for added protection, depending on the specific requirements of the application.
Q:What are the different surface finishes available for decorative steel strips?
Some common surface finishes available for decorative steel strips include polished, brushed, embossed, and textured finishes.
Q:Can steel strips be welded or joined together?
Yes, steel strips can be welded or joined together using various welding techniques such as arc welding, gas welding, or resistance welding.
Q:How are steel strips coated with aluminum?
Hot-dip aluminum coating or hot-dip aluminizing is a technique for coating steel strips with aluminum. In this process, the steel strip is immersed in a molten aluminum bath, which is often mixed with other elements to enhance its properties. Before the coating takes place, the steel strip undergoes cleaning and pre-treatment to ensure proper adhesion between the steel and the aluminum coating. The strip is then passed through rollers to remove any excess oil or debris. Once prepared, the strip is dipped into the molten aluminum bath. Careful immersion and controlled speed ensure an even and uniform coating. The aluminum adheres to the steel surface, forming a thin layer. After being withdrawn from the bath, the strip undergoes cooling, solidification, and quenching processes to ensure the durability and adhesion of the coating. Further processing, such as cutting, rolling, or shaping, is carried out based on the intended use. The hot-dip aluminum coating process offers several advantages for steel strips. It enhances corrosion resistance, making them suitable for harsh environments. It also improves the aesthetic appearance, providing a smooth and shiny surface. Additionally, the coating can enhance heat resistance, electrical conductivity, and reflectivity, depending on specific needs.
Q:What is the difference between annealed and hardened steel strips?
Annealed steel strips are heated to a high temperature and then slowly cooled to relieve internal stresses, making them softer and more ductile. Hardened steel strips, on the other hand, are heated and then rapidly cooled to increase their hardness and strength.
Q:How do steel strips contribute to cost savings in production?
Steel strips contribute to cost savings in production in several ways. Firstly, steel strips are highly versatile and can be easily customized and shaped to meet specific production requirements. This eliminates the need for additional processing steps and reduces material waste, resulting in significant cost savings. Secondly, steel strips offer excellent strength and durability, allowing for longer service life and reduced maintenance costs. Additionally, steel strips have a high recycling rate, which not only reduces the environmental impact but also lowers raw material expenses. Overall, the use of steel strips in production helps optimize efficiency, reduce waste, and ultimately drive down costs.

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