TPIs granules can be either amorphous or semi-crystalline thermoplastics. In general, TPI can be injection molded, extruded and recycled. TPIs have high rigidity, excellent creep resistance and low thermal expansion. In addition, TPI has high electrical breakdown strength and excellent
In line with different requirements of the Industrial market, Meldin® product family can provide: • High temperature resistance intermittently up to 482°C and continous use temperature up to 315°C • Wide chemical resistance • Dimensional stability at eleveated temperatures
High temperature resistant and flame-retardant PI-s fibers have application similar to meta-aramid, however, PI-s fiber has its own advantages: The long-term service temperature is 260℃ and the decomposition temperature is 560℃. The LOI value of PI-s fibres is 38%, it
The unique thermal and mechanical versatility of PI-s films provide the product designers and engineers with new possibilities.
PI filaments offer unique thermal and mechanical attributes. It can be used to weave technical textiles with high heat resistance while offering full flexibility.
Finished or semi-finished Polyimide Direct formed Parts from PI powder offer all the attributes of sintered PI. The advantage of direct formed parts are the lower costs as quantitiy is increasing. Due to almost zero percent waste during production it
TPIs powders can be either amorphous or semi-crystalline thermoplastics. In general, TPI powders can be used for compounding, compression molding, and other powder-based processing techniques. The parts and components produced from TPI powders possess high rigidity, excellent creep resistance and
Using sinter technology, polyimide powder can be manufactured into semi-finished products and components. Industrial applications profiting from this material’s effectiveness range from automotive industry and aerospace to industrial applications and office machines. Compounds with solid lubricants like graphite, molybdenum sulfide
Saint-Gobain’s Meldin® semi-finished PI-s products are manufactured using compression molding (CM) or direct forming (DF) processes. The semi-finished parts produced using CM process have relatively higher mechanical properties due to higher level of PI-s powder compaction. In line with different