Arnite® (PBT, PET, and blends) are high-performance engineering plastics that combine high strength and rigidity with excellent processing characteristics.
As a result, Arnite® PBT and PET are well suited for a broad range of automotive, electrical/electronic, appliance and industrial equipment applications.
Key properties of Arnite® PBT and PET:
- Extremely low water absorption
- Exceptional dimensional stability
- High strength & stiffness, also at ambient conditions
- Very good heat and heat aging resistance
- Excellent electrical properties
- Excellent colour stability
- Good surface gloss
- Excellent resistance to chemical attack
- Excellent wear properties
Arnite® PBT compounds have very comparable mechanical properties to PA6 compounds in their dry state. However, upon conditioning under ambient conditions Arnite® PBT holds its rigidity, while the stiffness of PA6 is greatly reduced due to its large water uptake.
Arnite® PBT and PET compounds exhibit very low moisture absorption, making them ideal for parts that require high dimensional accuracy for the life of the part. PBT compounds absorb far less than 0.5% water over a period of several thousand hours in ambient conditions.
Polyesters have excellent high temperature thermal and oxidative stability. UL RTI listings of continuous use temperatures are generally 130-140°C for most grades. For PET even values of 150°C are found for the RTI electric.
Furthermore, special UV stabilised grades are available which have excellent outdoor weather resistance.
Arnite® thermoplastic polyesters have excellent electrical properties, even at elevated temperatures. In general the dielectric strength will be higher than for polyamides. The tracking index CTI is > 600 V for unfilled non-FR grades, and in general > 400 V for glass fibre reinforced grades. Even for flame retardant grades, CTI values above 400 V are available. Polyesters have excellent retention of electrical properties, even at high temperatures and in humid conditions.
Key PBT and PET Arnite® applications
Arnite® is successfully being used in many applications in the automotive industry. Arnite® compounds are currently being employed in the following applications.
- Electric motor covers
- Gear housings
- Fuse boxes and relays
- Lamp reflector bodies & brackets
- Ignition coils and bobbins
Electrical and electronic applications
Within the electrical/electronic (E/E) industries Arnite® has successfully been applied in, amongst others, the following applications and end markets.
- Current devices
- Capacitor housings
- Bobbins and relays
|Reinforcement (Glass fibre)||0||20%||30-35%||50%|
|Non-FR, Injection Moulding||A04 900||AV2 372||AV2 390|
|AV2 370 /B|
|Flame retardant (V-0 at 1.5 mm)||AV2 360 S|
|FR (V-0 at 0.4 mm)||AV2 365 SN|
|Strict Dimensions Tolerance||AV2 370 XT||AV2 390 XT|
|Low out-gassing||AV2 340 XL||AV2 370 XL||AV2 390 XL|
|Extrusion (very high viscosity)||A08 100|
|Reinforcement (Glass Fibre)||0||20%||30%||50%|
|Non Flame Retardant, Injection||T06 202||TV4 240||TV4 261||TV4 290|
|Flame Retardant (V-0 at 1.5 mm)||TV4 240 S||TV4 260 S|
|Flame Retardant (V-0 at 0.8 mm)||T06 200 SNF||TV4 261 SF|
|Flame Retardant (V-0 at 0.4 mm)||TV4 260 SXF|
|Impact Modified Grade, Injection||T06 206 T||TV6 241 T|
|Grades with Higher Viscosity||T08 200||TV6 240||TV8 260|
|High gloss / Low Warp||TV4 441||TV4 461||TV4 491|
|UV stable||TV4 461 KL|
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