Our composites are designed in terms of strength so that the detail made of them meets, above all, the required mechanical parameters. Composites are tested mechanically and processing on specialized devices, such as a testing machine (Zwick/Roell), a plastometer, a Charpy hammer (Zwick/Roell), a stereoscopic microscope, and a heating bench (Kofler).
PA 6 with increased plasticity and impact strength:
- PA 6 I
- PA 6 IM
- PA 6 IMS
The material from the IMS series, as the most plastic, is ideal for applications requiring high flexibility even at low temperatures (-200C). The material is resistant to fractures and cracking on impact, even in details with relatively thin walls.
Plastics marked as IM and I have greater stiffness and hardness than IMS, but are also resistant to fractures and cracks upon impact at temperatures of -100C and +50C, respectively. They are very suitable for applications where higher hardness and lower deformation are required.
PA 6 reinforced with glass fiber
- 15% (w/w)
- 30% (w/w)
- any other
Thanks to our side feeder and a properly configured plasticizing system, adapted to filling clean plastics with all kinds of additives, we produce PA 6 reinforced with glass fiber (or beads) in any quantity, but not exceeding 35%.
PA 6/HNT's – Polyamide 6 nanocomposite with halloysite nanotubes
- 10% (w/w)
- 15% (w/w)
- any other
For semi-crystalline polymers, such as polyamide 6, halloysite nanotubes can act as effective nucleants, increasing the speed of the crystallization process of the polymer matrix and reducing the size of spherulites. Halloysite nanotubes (HNT's) may be a good alternative to traditional mineral fillers. Increasing the share of HNT's in the PA 6 polymer matrix increases the stiffness of the composite, which is manifested by an increase in the yield strength, stress at break, tensile strength and an increase in the value of the elastic modulus. The effect of strengthening the polymer matrix is satisfactory, especially with a higher share of HNT's. PA6 HNT's shows increased fire resistance. The flammability class changes from HB to V2.
PA 6/6.6 HGB reinforced with a hybrid filler based on glass and basalt fibers
With the support of EU funds and Bank Gospodarstwa Krajowego, we have introduced a new, unique product to our offer:
Polyamide 6/6.6 composite with a hybrid filler based on glass and basalt fibers.
We produce PA HGB in the following varieties
- PA HGB 15% (w/w)
- PA HGB 30% (w/w)
- PA HGB 50% (w/w)
- PA HGB any other
Thanks to our side feeder and a properly configured plasticizing system, adapted to filling clean plastics with all kinds of additives, we produce PA 6 reinforced with a hybrid filler based on glass and basalt fibers in any quantity, but not exceeding 50%.
The new product, PA HGB, is characterized by increased mechanical strength, because basalt fibers are harder than glass fibers, and PA HGB also has increased resistance to recycling compared to standard polyamide reinforced with glass fibers. It is recommended for applications where high mechanical strength and increased fatigue resistance are needed.
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