ACETAL Homopolymer 13% PTFE Sheet

    • ACETAL HOMOPOLYMER 13% PTFE FILLED BROWN 0.250 SHEET 6.000 X 9.000
    • ACETAL HOMOPOLYMER 13% PTFE FILLED BROWN 0.250 SHEET 6.000 X 9.000

      00237505
      Acetal provides high strength and stiffness coupled with enhanced dimensional stability and ease of machining. As a semi-crystalline material, acetal is also characterized by a low coefficient of friction and good wear properties -- especially in wet environments. The addition of PTFE fibers or powder offers better wear characteristics than unfilled Acetal and has excellent sliding/friction properties. Bearings made of PTFE filled Acetal can operate at higher speeds while exhibiting reduced wear. These bearings are also essentially free of slip-stick behavior because the static and dynamic coefficient of friction are closer than with most plastics.
    • ACETAL HOMOPOLYMER 13% PTFE FILLED BROWN 0.250 SHEET 6.000 X 12.000
    • ACETAL HOMOPOLYMER 13% PTFE FILLED BROWN 0.250 SHEET 6.000 X 12.000

      00237506
      Acetal provides high strength and stiffness coupled with enhanced dimensional stability and ease of machining. As a semi-crystalline material, acetal is also characterized by a low coefficient of friction and good wear properties -- especially in wet environments. The addition of PTFE fibers or powder offers better wear characteristics than unfilled Acetal and has excellent sliding/friction properties. Bearings made of PTFE filled Acetal can operate at higher speeds while exhibiting reduced wear. These bearings are also essentially free of slip-stick behavior because the static and dynamic coefficient of friction are closer than with most plastics.
    • ACETAL HOMOPOLYMER 13% PTFE FILLED BROWN 0.750 SHEET 6.000 X 12.000
    • ACETAL HOMOPOLYMER 13% PTFE FILLED BROWN 0.750 SHEET 6.000 X 12.000

      00237507
      Acetal provides high strength and stiffness coupled with enhanced dimensional stability and ease of machining. As a semi-crystalline material, acetal is also characterized by a low coefficient of friction and good wear properties -- especially in wet environments. The addition of PTFE fibers or powder offers better wear characteristics than unfilled Acetal and has excellent sliding/friction properties. Bearings made of PTFE filled Acetal can operate at higher speeds while exhibiting reduced wear. These bearings are also essentially free of slip-stick behavior because the static and dynamic coefficient of friction are closer than with most plastics.
    • ACETAL HOMOPOLYMER 13% PTFE FILLED BROWN 1.500 SHEET 12.000 X 12.000
    • ACETAL HOMOPOLYMER 13% PTFE FILLED BROWN 1.500 SHEET 12.000 X 12.000

      00237509
      Acetal provides high strength and stiffness coupled with enhanced dimensional stability and ease of machining. As a semi-crystalline material, acetal is also characterized by a low coefficient of friction and good wear properties -- especially in wet environments. The addition of PTFE fibers or powder offers better wear characteristics than unfilled Acetal and has excellent sliding/friction properties. Bearings made of PTFE filled Acetal can operate at higher speeds while exhibiting reduced wear. These bearings are also essentially free of slip-stick behavior because the static and dynamic coefficient of friction are closer than with most plastics.
    • ACETAL HOMOPOLYMER 13% PTFE FILLED BROWN 1.750 SHEET 3.000 X 18.000
    • ACETAL HOMOPOLYMER 13% PTFE FILLED BROWN 1.750 SHEET 3.000 X 18.000

      00237510
      Acetal provides high strength and stiffness coupled with enhanced dimensional stability and ease of machining. As a semi-crystalline material, acetal is also characterized by a low coefficient of friction and good wear properties -- especially in wet environments. The addition of PTFE fibers or powder offers better wear characteristics than unfilled Acetal and has excellent sliding/friction properties. Bearings made of PTFE filled Acetal can operate at higher speeds while exhibiting reduced wear. These bearings are also essentially free of slip-stick behavior because the static and dynamic coefficient of friction are closer than with most plastics.
    • ACETAL HOMOPOLYMER 13% PTFE FILLED BROWN 0.500 SHEET 6.000 X 24.000
    • ACETAL HOMOPOLYMER 13% PTFE FILLED BROWN 0.500 SHEET 6.000 X 24.000

      00242583
      Acetal provides high strength and stiffness coupled with enhanced dimensional stability and ease of machining. As a semi-crystalline material, acetal is also characterized by a low coefficient of friction and good wear properties -- especially in wet environments. The addition of PTFE fibers or powder offers better wear characteristics than unfilled Acetal and has excellent sliding/friction properties. Bearings made of PTFE filled Acetal can operate at higher speeds while exhibiting reduced wear. These bearings are also essentially free of slip-stick behavior because the static and dynamic coefficient of friction are closer than with most plastics.
    • ACETAL HOMOPOLYMER 13% PTFE FILLED BROWN 0.125 SHEET 3.000 X 24.000
    • ACETAL HOMOPOLYMER 13% PTFE FILLED BROWN 0.125 SHEET 3.000 X 24.000

      00242584
      Acetal provides high strength and stiffness coupled with enhanced dimensional stability and ease of machining. As a semi-crystalline material, acetal is also characterized by a low coefficient of friction and good wear properties -- especially in wet environments. The addition of PTFE fibers or powder offers better wear characteristics than unfilled Acetal and has excellent sliding/friction properties. Bearings made of PTFE filled Acetal can operate at higher speeds while exhibiting reduced wear. These bearings are also essentially free of slip-stick behavior because the static and dynamic coefficient of friction are closer than with most plastics.
    • ACETAL HOMOPOLYMER 13% PTFE FILLED BROWN 0.125 SHEET 3.000 X 9.000
    • ACETAL HOMOPOLYMER 13% PTFE FILLED BROWN 0.125 SHEET 3.000 X 9.000

      00242585
      Acetal provides high strength and stiffness coupled with enhanced dimensional stability and ease of machining. As a semi-crystalline material, acetal is also characterized by a low coefficient of friction and good wear properties -- especially in wet environments. The addition of PTFE fibers or powder offers better wear characteristics than unfilled Acetal and has excellent sliding/friction properties. Bearings made of PTFE filled Acetal can operate at higher speeds while exhibiting reduced wear. These bearings are also essentially free of slip-stick behavior because the static and dynamic coefficient of friction are closer than with most plastics.
    • QUAD ACETAL HOMOPOLYMER 13% PTFE FILLED BROWN 0.750 SHEET 9.000 X 9.000
    • QUAD ACETAL HOMOPOLYMER 13% PTFE FILLED BROWN 0.750 SHEET 9.000 X 9.000

      00245926
      Acetal provides high strength and stiffness coupled with enhanced dimensional stability and ease of machining. As a semi-crystalline material, acetal is also characterized by a low coefficient of friction and good wear properties -- especially in wet environments. The addition of PTFE fibers or powder offers better wear characteristics than unfilled Acetal and has excellent sliding/friction properties. Bearings made of PTFE filled Acetal can operate at higher speeds while exhibiting reduced wear. These bearings are also essentially free of slip-stick behavior because the static and dynamic coefficient of friction are closer than with most plastics.
    • QUAD ACETAL HOMOPOLYMER 13% PTFE FILLED BROWN 0.750 SHEET 3.000 X 24.000
    • QUAD ACETAL HOMOPOLYMER 13% PTFE FILLED BROWN 0.750 SHEET 3.000 X 24.000

      00246592
      Acetal provides high strength and stiffness coupled with enhanced dimensional stability and ease of machining. As a semi-crystalline material, acetal is also characterized by a low coefficient of friction and good wear properties -- especially in wet environments. The addition of PTFE fibers or powder offers better wear characteristics than unfilled Acetal and has excellent sliding/friction properties. Bearings made of PTFE filled Acetal can operate at higher speeds while exhibiting reduced wear. These bearings are also essentially free of slip-stick behavior because the static and dynamic coefficient of friction are closer than with most plastics.