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Home » News and Blog » Blog » Differences between MDI and TDI, two main raw materials for the production of polyurethane foam products

Differences between MDI and TDI, two main raw materials for the production of polyurethane foam products

MDI (Methylene Diphenyl Diisocyanate) and TDI (Toluene Diisocyanate) are the two main types of isocyanates used in the production of polyurethane foams, including memory foam. Both have unique characteristics, affecting the performance, durability, and safety of the final product. Here’s how they differ:

1. Structure and Chemical Differences

  • MDI: Aromatic diisocyanate with more rigid molecular structures.
  • TDI: Aromatic diisocyanate with a more flexible molecular chain, typically available in two commercial forms: TDI-80/20 (80% 2,4-TDI and 20% 2,6-TDI).

2. Physical Properties of the Foam

  • MDI Foam:
    • Tends to produce denser and more durable foams.
    • Provides better compression recovery (slow rebound), making it ideal for memory foam applications.
    • Less volatile, resulting in lower emissions (lower VOC).
  • TDI Foam:
    • Produces softer, more flexible foams.
    • Generally used in conventional flexible polyurethane foams, such as in mattresses or cushions where less rigidity is needed.
    • Can produce more volatile compounds, contributing to slightly higher emissions.

3. Durability and Application

  • MDI Foam:
    • More resistant to wear and tear over time.
    • Commonly used in high-end memory foam mattresses, automotive applications, and insulation foams.
    • Ideal for heat-sensitive or orthopedic applications due to better shape retention.
  • TDI Foam:
    • May degrade more quickly under certain conditions (exposure to moisture, UV light, or heat).
    • Primarily used in products where extreme durability isn’t as critical, such as furniture padding and lower-cost mattresses.

4. Environmental and Safety Considerations

  • MDI:
    • Generally has lower toxicity and emits fewer volatile organic compounds (VOCs).
    • Safer handling and less likely to cause respiratory irritation during manufacturing.
  • TDI:
    • Higher toxicity and more stringent safety protocols required during production.
    • Can be more irritating to the respiratory system and harmful to the environment if not handled properly.

5. Cost

  • MDI:
    • More expensive due to its better performance and lower emissions.
    • Often used in premium products, such as high-end mattresses and insulation.
  • TDI:
    • Cheaper, which makes it suitable for mass-market applications where cost is a priority.

Summary Table

MaterialMDITDI
DensityHigherLower
DurabilityBetter long-term performanceModerate durability
ApplicationsMemory foam, insulation, automotiveFurniture, low-cost mattresses
ToxicityLower VOCs, safer to handleHigher toxicity, higher VOCs
CostMore expensiveCheaper

In summary, MDI foams offer better performance, durability, and environmental safety, making them more suitable for premium products like orthopedic mattresses. In contrast, TDI foams are more economical and softer, fitting lower-cost applications such as furniture padding and cheaper mattresses.