Free Sample Compound Weathering and Chemical Resistant Chlorosulphonated Polyethylene Csm for Rubber

Product Overview

Chlorosulphonated polyethylene Rubber (CSM) is resistant to chromic, nitric, sulfuric and phosphoric acids and alkalis like chlorine dioxide, and hydrogen peroxide. CSM is often used in products which are in contact with sulfuric acid or nitric acid due to its excellent acid resistance. It's resistance to acids and alkalis make it a great choice for chemical processing applications.

 

Chlorosulphonated polyethylene rubber also provides good fire resistance and is considered to be self-extinguishing. Its abrasion resistant properties combined with its fire resistance make CSM an excellent polymer for applications in mining operations.

 

1. Industrial & Chemical Applications

• Chemical Tank Linings

  • Resists acids, alkalis, and oxidizers (e.g., sulfuric acid, chlorine).

• Pipe & Valve Seals

  • Used in corrosive fluid handling systems.

• Industrial Hoses

  • For chemical transfer, mining, and oil/gas applications.

2. Electrical & Cable Industry

• Cable Jacketing

  • Flame-retardant, UV-resistant coatings for power/nuclear cables.

• Insulation Layers

  • High dielectric strength for high-voltage cables.

3. Construction & Infrastructure

• Waterproofing Membranes

  • Roofing, tunnels, and bridge seals (weather/ozone resistant).

• Expansion Joints

  • Durability in extreme temperatures (-40°C to +150°C).

4. Automotive & Aerospace

• Fuel Hose Covers

  • Resists gasoline/oil permeation.

• Aircraft Seals

  • Lightweight + resistant to jet fuels/hydraulic fluids.

5. Marine & Offshore

• Ship Linings & Dock Seals

  • Saltwater/chemical corrosion protection.

6. Specialty Uses

• Radiation-Resistant Gear

  • Nuclear plant components.

• Printing Rolls

  • Solvent-resistant rollers.

Why Choose CSM?

1.Extreme Weather Resistance (UV/ozone)
2.Flame Retardant (self-extinguishing)
3.Chemical Inertness (acids/alkalis)
4.Long Service Life (>15 years in harsh conditions)

Here's a pure English product parameter comparison table for CSM-20, CSM-30, CSM-40, and CSM-45 grades of Chlorosulfonated Polyethylene (CSM) rubber, where the numerical suffixes (20, 30, 40, 45) represent Mooney viscosity ranges (ML 1+4 at 100°C). The table highlights key properties and applications for each grade:

Different applications of each grade of CSM:

Traditional Solvent Method

The traditional solvent-based process is a liquid-phase manufacturing method that utilizes chlorine and sulfur dioxide as chlorosulfonating agents. While established, this method presents several significant limitations:

1. Low Efficiency

   • Sulfur dioxide utilization rate is only 20-30%

   • Final product contains just 25-45% chlorine content

2. Product Composition

   • Sulfur content ranges from 0.8-1.7%

3. Critical Drawbacks

   • Requires carbon tetrachloride (a toxic and environmentally hazardous solvent)

   • Involves complex post-processing steps including:

     • Acidic gas removal

     • CSM condensation

     • Separation operations

These limitations have driven the development of more sustainable production methods.

Gas-Phase Method (Advanced Process)

The gas-phase synthesis of chlorosulfonated polyethylene represents a major technological advancement:

1. Development Timeline

   • Conceptual development began in the 1980s

   • First industrial-scale implementation achieved in 2009

   • Successfully trial-produced in the same year

   • Officially certified by the China Petroleum and Chemical Industry Federation in May 2010

2. Key Advantages

   • Solvent-free process: Eliminates need for organic solvents entirely

   • Direct gas-solid reaction:

     • Simplified process flow

     • Enhanced energy efficiency

   • Environmental benefits:

     • Reduced hazardous waste

     • Lower carbon footprint

3. Industrial Significance
   This breakthrough technology represents a cleaner, more sustainable production method for CSM, addressing both environmental concerns and process efficiency challenges of the traditional method.

         Chlorosulfonated polyethylene rubber (CSM) is a synthetic rubber that contains polymers and chlorosulfonating agents. Due to its excellent heat resistance, corrosion resistance, oil resistance, ozone resistance and UV resistance, it is widely used in many fields such as automobiles, construction, and chemicals.
The main parameters of CSM include density (1.1-1.2g/cm³), hardness (50-90 Shore A), tensile strength (8-20MPa), and elongation (300%-600%).
The main advantages of CSM include heat resistance, corrosion resistance, oil resistance, ozone resistance, and UV resistance, making it an ideal material for high temperature, chemical corrosion, oil, and UV environments.
However, CSM also has the disadvantage of high cost, and its performance will decrease at low temperatures, making it unsuitable for extremely cold environments.
In practical applications, CSM is mainly used in automotive seals, brake systems, suspension systems, etc., as well as building sealing materials, waterproof materials, chemical pipelines, valves, pumps and other corrosion-resistant equipment, power cable sheaths, electrical insulation parts, medical equipment, medical gloves and other industries.