DSTDP vs DLTDP: Key Differences in Polymer Stabilization
Structural Comparison
- DSTDP — CAS 693-36-7 | MW 683.2 グラム/モル | C18 stearyl chains | MP 64–67°C
- DLTDP — CAS 123-28-4 | MW 514.8 グラム/モル | C12 lauryl chains | MP 38–42°C
Performance Differences
Volatility and Thermal Stability
DSTDP's higher MW results in significantly lower volatility at processing temperatures. For polymers processed above 200°C—automotive PP, engineering compound extrusion, cable jacketing—DSTDP is the preferred grade.
Long-Term Heat Aging
Both perform comparably in long-term thermal aging at moderate temperatures. At elevated service temperatures (>100°C continuous), DSTDP shows better retention due to lower volatility from the polymer matrix.
Application Selection Guide
- Processing temperature >200°C → DSTDP preferred
- Thin films or fibers → DSTDP (less migration risk)
- Processing temperature <200°C → DLTDP viable
- Cost-sensitive applications with moderate temperature demands → DLTDP
- Automotive, pipe, wire/cable → DSTDP standard
Cost Considerations
DLTDP is typically lower cost per kg than DSTDP. For applications where either grade meets performance requirements, DLTDP may offer cost savings. For high-temperature or premium applications, the performance advantages of DSTDP generally justify the price premium.
よくある質問
Can I substitute DSTDP with DLTDP?
In many standard polyolefin applications, yes—but verify through thermal aging and processing trials before changing. For high-temperature applications (>220°C processing), substitution may reduce long-term performance.
Contact SUNCHEM
SUNCHEM supplies both DSTDP and DLTDP. Request samples of both grades to compare in your formulation. お問い合わせ for pricing and documentation.

