304 stainless steel lab bench laboratory benches factories are a common high-quality material for laboratory benches, widely used in laboratories, medical care, food processing and other fields. The following is its detailed material description:
1. Material properties
304 stainless steel of laboratory benches factories (06Cr19Ni10) is a type of austenitic stainless steel, featuring excellent corrosion resistance, high-temperature resistance and mechanical properties.
Chemical composition (typical value) :
Carbon (C) ≤0.08%
Chromium (Cr) 18-20% → provides corrosion resistance
Nickel (Ni) 8-10.5% → Enhances acid resistance and toughness
Manganese (Mn) ≤2%
Silicon (Si) ≤1%
Phosphorus (P) ≤0.045%
Sulfur (S) ≤0.03%
2. Advantages
A . Strong corrosion resistance: It has excellent resistance to most acids, alkalis, salts and organic solvents, making it suitable for chemical laboratory environments.
B. High temperature resistance: Can withstand relatively high temperatures (below approximately 800°C), suitable for high-temperature experimental operations.
C. Easy to clean and disinfect: The surface is smooth without pores, which is not prone to bacterial growth and meets hygiene standards such as GMP and FDA.
D. High strength: impact-resistant, wear-resistant, long service life.
E. environmentally friendly and non-toxic: no coating, no volatile substances, suitable for clean laboratories or biosafety laboratories.
3. Application scenarios
Chemical laboratory: Resistant to acid and alkali corrosion, suitable for storing highly corrosive reagents.
Biological laboratory: Easy to clean and disinfect, meeting aseptic requirements.
Medical/Pharmaceutical: Complies with medical-grade hygiene standards.
Food industry: Anti-pollution, suitable for direct contact with food.
Electronic laboratory: Anti-static, anti-magnetic interference (some specially treated models).
4. Surface treatment method
Brushed surface (common) : Scratch-resistant, beautiful and wear-resistant.
Mirror polishing: High gloss, easy to clean, but prone to showing fingerprints.
Sandblasting treatment: Matte texture, anti-glare.
5. Maintenance Precautions
Avoid using strong acids (such as hydrochloric acid, hydrofluoric acid) or high-concentration chloride solutions, as they may cause pitting corrosion.
When cleaning, you can wipe with neutral detergent or alcohol. Do not scratch with a steel wool ball.
Regularly inspect the welding/splicing points to prevent structural loosening caused by long-term corrosion.
6. Compared with 316 stainless steel
Characteristics
304 stainless steel
316 stainless steel (containing 2-3% molybdenum)
Corrosion resistance
Good
Superior (resistant to seawater/chlorides
Cost
Lower
Higher
Applicable environment
General laboratory
High-salt/Marine environment
If the experimental environment involves strong corrosive media (such as seawater, chloride ions), it is recommended to upgrade to 316 stainless steel of stainless steel laboratory benches factories.
If further technical parameters are required (such as thickness standards, load-bearing capacity, etc.), specific requirements can be provided for detailed explanation.
304 stainless steel lab bench laboratory benches factories are a common high-quality material for laboratory benches, widely used in laboratories, medical care, food processing and other fields. The following is its detailed material description:
1. Material properties
304 stainless steel of laboratory benches factories (06Cr19Ni10) is a type of austenitic stainless steel, featuring excellent corrosion resistance, high-temperature resistance and mechanical properties.
Chemical composition (typical value) :
Carbon (C) ≤0.08%
Chromium (Cr) 18-20% → provides corrosion resistance
Nickel (Ni) 8-10.5% → Enhances acid resistance and toughness
Manganese (Mn) ≤2%
Silicon (Si) ≤1%
Phosphorus (P) ≤0.045%
Sulfur (S) ≤0.03%
2. Advantages
A . Strong corrosion resistance: It has excellent resistance to most acids, alkalis, salts and organic solvents, making it suitable for chemical laboratory environments.
B. High temperature resistance: Can withstand relatively high temperatures (below approximately 800°C), suitable for high-temperature experimental operations.
C. Easy to clean and disinfect: The surface is smooth without pores, which is not prone to bacterial growth and meets hygiene standards such as GMP and FDA.
D. High strength: impact-resistant, wear-resistant, long service life.
E. environmentally friendly and non-toxic: no coating, no volatile substances, suitable for clean laboratories or biosafety laboratories.
3. Application scenarios
Chemical laboratory: Resistant to acid and alkali corrosion, suitable for storing highly corrosive reagents.
Biological laboratory: Easy to clean and disinfect, meeting aseptic requirements.
Medical/Pharmaceutical: Complies with medical-grade hygiene standards.
Food industry: Anti-pollution, suitable for direct contact with food.
Electronic laboratory: Anti-static, anti-magnetic interference (some specially treated models).
4. Surface treatment method
Brushed surface (common) : Scratch-resistant, beautiful and wear-resistant.
Mirror polishing: High gloss, easy to clean, but prone to showing fingerprints.
Sandblasting treatment: Matte texture, anti-glare.
5. Maintenance Precautions
Avoid using strong acids (such as hydrochloric acid, hydrofluoric acid) or high-concentration chloride solutions, as they may cause pitting corrosion.
When cleaning, you can wipe with neutral detergent or alcohol. Do not scratch with a steel wool ball.
Regularly inspect the welding/splicing points to prevent structural loosening caused by long-term corrosion.
6. Compared with 316 stainless steel
Characteristics
304 stainless steel
316 stainless steel (containing 2-3% molybdenum)
Corrosion resistance
Good
Superior (resistant to seawater/chlorides
Cost
Lower
Higher
Applicable environment
General laboratory
High-salt/Marine environment
If the experimental environment involves strong corrosive media (such as seawater, chloride ions), it is recommended to upgrade to 316 stainless steel of stainless steel laboratory benches factories.
If further technical parameters are required (such as thickness standards, load-bearing capacity, etc.), specific requirements can be provided for detailed explanation.
