This high-performance Polyoxymethylene (POM) boasts excellent flowability, superior UV resistance, and low emission properties, making it suitable for components that demand high light resistance and flowability.
This POM material can withstand long-term photoaging; even after photoaging tests, it retains a high level of mechanical performance, effectively ensuring the long-term service stability of the components.
With its reliable performance, this material is widely used in automotive interior components and can maintain consistent performance in applications with strict weather resistance requirements. Furthermore, we can provide customized formula services based on your specific needs.
| Parameter | Value |
| Polymer Base | POM |
| Glass fiber reinforcement | 0% |
| Xenon lamp accelerated aging | Gray Scale Grade ≥ Level 4 |
| Emission Performance | Odor ≤ 3.5 |
Typical Uses | Automotive Interior Light-Exposed Components |
Main Features
1. Superb Light Aging Resistance: Extend Service Life and Reduce Costs
For light-exposed components of automotive interiors (such as instrument panel trims, door panel light-transmitting strips, and central control panels), this material features outstanding light aging resistance stability — even when exposed to harsh environments like strong outdoor sunlight and high-temperature in-vehicle lighting for a long time, it can resist UV radiation and photo-oxidative aging, preventing discoloration, cracking, and performance degradation.
Its long-term light aging resistance maintains the original texture and strength of components, extends service life, reduces the frequency of maintenance and replacement, lowers long-term costs for automakers and users, and meanwhile ensures the aesthetics and reliability of interiors.
2. Efficient Injection Molding: Adapt to Complex Designs and Improve Efficiency
In response to the trend of personalized and integrated design for automotive interiors, this material is optimized specifically for injection molding, effectively solving the processing challenges of complex components:
On one hand, its excellent flowability allows molten material to quickly fill every tiny part of the mold. Components such as complex-patterned trims, multi-cavity parts, and thin-walled structures can be formed in one go, reducing defective products. On the other hand, stable processability shortens the injection cycle, helping enterprises reduce costs and improve efficiency while ensuring product quality, so as to respond to market demands more quickly.
3. Exclusive Adaptation for Automotive Interiors: Covering High-Demand Scenarios
With the dual advantages of weather resistance and low emission, this material has become the preferred solution for automotive interior components, suitable for high-demand scenarios:
From instrument panels and window trims that require light aging resistance, to seat fabric substrates and air vents that have high requirements for environmental protection and health, it can not only meet the strict weather resistance standards of the automotive industry (such as UV resistance, high temperature and humidity resistance) but also create a healthy driving environment through low VOCs and low odor. It meets consumers' dual needs for "environmental protection + durability" and is widely used in the interiors of mid-to-high-end passenger cars and new energy vehicles.
