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High Performance Plastics

ADVANTAGES OF HIGH PERFORMANCE PLASTICS
  • High service temperature (150ºC in continuous use)
  • Better stiffness retention and creep resistance over a wide temperature range
  • Better dimensional stability
  • Better chemical resistance
  • Better resistance to hydrolysis
  • Better resistance to high radiation energy (x-rays and gamma rays)
COMPOSITION OF HIGH PERFORMANCE PLASTICS
  • Duratron® PAI - PAI - Polyamide-imide
  • Duratron® PBI - PBI - Polybenzimidazole
  • Fluorosint® - PTFE - Reinforced polytetrafluoroethylene
  • Ketron® - PEEK - Polyetheretherketone
  • Duratron ®  PEI 1000 - PEI - Polyetherimide
  • PSU 1000 - PSU - Polysulfone
  • PVDF 1000 - PVDF - Polyvinylidene fluoride
  • Semitron® ESd - / - Static dissipative plastics
  • Techtron® - PPS - Polyphenylene Sulphide
OUR HIGH PERFORMANCE PLASTICS
 

Ertalyte®

ADVANTAGES OF ERTALYTE®
  • Excellent wear resistance
  • Low coefficient of dynamic friction (0.25-0.35)
  • Good UV resistance
  • Very good dimensional stability (low moisture absorption and low CLTE: 60.10-6 m / (m.K))
  • Very good creep resistance
  • Good acid resistance (pH below 1)
  • Physiologically inert
ERTALYTE® TX vs ERTALYTE®
  • Better wear resistance
  • Lower and more constant dynamic friction coefficient (0.15-0.25)
  • High pressure-velocity capabilities (up to two times higher PV limit)
  • Lower anti-slip sensitivity
  • Lower tensile strength and compression

      

      

      

      

CAUTION WHEN USED:
  • Applications in water of> 55ºC continuous (restricted by hydrolysis resistance limit)
  • Applications with alkaline media (pH> 9)
  • Parts subject to high impact
Our ERTALYTE®

Ertalon®/Nylatron®

ADVANTAGES OF ERTALON® / Nylatron®
  • High impact resistance
  • Good resistance to fatigue
  • High mechanical damping capacity
  • Good UV resistance
  • Good resistance against bases (up to pH 12)
  • Excellent wear resistance
CAUTION WHEN USED:
  • Precision parts (high moisture absorption!)
  • Operation in acid medium (pH <4)
  • Bearings subject to high PV values (pressure-speed)
  • Applications in water above 70 ° C continuously (due to limited resistance to hydrolysis)

      

      

      

Ertacetal®/Acetron®

ADVANTAGES OF ERTACETAL®
  • Excellent machinability
  • Physiologically inert
  • High impact resistance, even at low temperatures (up to -50ºC)
  • Very good dimensional stability (low moisture absorption)
  • Good slip properties (hardly any stick-slip)
  • Excellent resilience
  • Ertacetal C: good alkaline resistance and hydrolysis
ERTACETAL® C vs ERTACETAL® H
  • Free of central line porosity
  • Superior resistance to hydrolysis up to 85ºC
  • Superior chemical resistance in the pH range from 4 to 13
  • Superior service temperature in air (continuous): 100ºC
  • Lower tensile strength in yield: 66 MPa
  • Minor E-Voltage Module = 2800 MPa

      

      

      

      

      

CAUTION WHEN USED:
  • Applications abroad (low resistance to UV rays)
  • Operation in acid medium (pH <4)
  • Bearings in contact with rough coupling metal surfaces (due to moderate wear resistance)

TIVAR®

ADVANTAGES OF Tivar®
  • High resistance to wear and abrasion
  • Excellent slip properties
  • Excellent impact resistance, even at low temperatures (up to -200 ° C for TIVAR® 1000)
  • Excellent chemical resistance
  • Low density
  • Excellent machinability
  • Very low water absorption
  • Physiologically inert (most of the qualities)
  • Excellent electromechanical and dielectric insulation properties (only unfilled qualities)
  • Good resistance against high energy radiation
  • Low coefficient of friction
tivar® 1000 vs pe-hd
  • Molecular weight of about 5 000 000 g/mol (Tivar® 1000) and 500 000 g/mol (PE-HD)
  • Greater resistance to wear and abrasion
  • Excellent impact resistance, even at temperatures below -200ºC

      

      

      

      

      

      

      

      

      

CAUTION WHEN USED:
  • Precision parts (CLTE high: 150-200.10-6 m / (m.K))
  • Applications outdoors (low UV resistance - except for TIVAR® 1000 antistatic, TIVAR® 1000 EC and TIVAR® 1000 ASTL)
  • Highly loaded components (low tensile and compressive strength, stiffness and creep - yield in 19 MPa yield for TIVAR® 1000)

PC 1000

ADVANTAGES OF pc 1000
  • High mechanical resistance
  • Good creep resistance
  • Excellent impact resistance, even at low temperatures
  • Maintains rigidity over a wide range of temperatures
  • Very good dimensional stability
  • Physiologically inert
CAUTION WHEN USED:
  • Wear applications (low wear resistance and high coefficient of friction, typical for an unfilled / unreinforced amorphous material)
  • Applications in water with a temperature higher than 65ºC continuously (restricted by the limited resistance to hydrolysis)
  • Operations in alkaline media
  • Exterior applications (moderate resistance to UV rays)

      

      

  

 
OUR Pc

SODER® POM

ADVANTAGES OF SODER® POM:

  • High mechanical resistance, stiffness and hardness
  • Physiologically inert
  • Good impact resistance, even at low temperatures
  • Excellent dimensional stability (low moisture absorption)
  • Good sliding properties (hardly any stick-slip)
  • High chemical resistance
  • Easy machining

APPLICATIONS:

  • Dimensionally stable precision parts
  • Small module sprockets
  • Rollers and bearings for heavy loads
  • All types of parts that require better finishing and dimensional stability
  • Coils, bushings and screws
  • Parts for textile industry
  • Components for electrical insulation

AVAILABLE COLORS:

  • White
  • Black
  • Blue
  • Yellow
  • Red
  • Green
  • Brown
  • Orange