RTP Company Wear Resistant Thermoplastics Compounds

These compounds are common formulations which provide comparative information on the wear properties of this resin and various combinations of additives.

Instead of off-the-shelf solutions, RTP Company routinely develops specialty compounds with a precise combination of properties such as conductivity, flame retardance, structural reinforcement, color, and wear resistance to meet your exact application requirements.

RTP 2200 LF TFE 15
versus 1018 C Steel

PV Load Speed Wear Factor
X 10E-10 µ dynamic

2000 8 50 122 0.26

5000 10 100 105 0.50

10000 10 200 240 0.36

RTP 2200 LF TFE 20
versus 1018 C Steel

PV Load Speed Wear Factor
X 10E-10 µ dynamic

2000 8 50 83 0.22

5000 10 100 59 0.39

5000 10 100 83 0.34

10000 10 200 198 0.37

10000 10 200 197 0.36

RTP 2205 TFE 15
versus 1018 C Steel

PV Load Speed Wear Factor
X 10E-10 µ dynamic

2000 8 50 74 0.48

2000 4 100 230 0.44

2000 2 200 120 0.38

5000 20 50 71 0.47

5000 10 100 61 0.46

5000 5 200 192 0.44

10000 40 50 73 0.32

10000 20 100 124 0.40

10000 10 200 125 0.44

RTP 2200 AR 15 TFE 15
versus 1018 C Steel

PV Load Speed Wear Factor
X 10E-10 µ dynamic

2000 8 50 6 0.28

2000 4 100 15 0.24

2000 2 200 24 0.27

5000 20 50 13 0.28

5000 10 100 15 0.24

5000 5 200 22 0.20

10000 40 50 42 0.30

10000 20 100 36 0.27

10000 10 200 20 0.31

RTP 2285 TFE 15
versus 1018 C Steel

PV Load Speed Wear Factor
X 10E-10 µ dynamic

2000 8 50 47 0.37

2000 4 100 46 0.36

2000 2 200 63 0.42

5000 20 50 64 0.33

5000 10 100 47 0.37

5000 5 200 42 —

10000 40 50 45 0.65

10000 20 100 61 0.73

10000 10 200 44 0.61

RTP 2299 X 57352 A
versus 1018 C Steel

PV Load Speed Wear Factor
X 10E-10 µ dynamic

2000 8 50 6 0.33

2000 2 200 16 0.27

5000 10 100 24 0.57

10000 40 50 24 0.44

10000 10 200 29 0.46

versus 4130 Steel

5000 10 100 48 —

5000 10 100 53 —

12000 80 30 141 0.30

12000 80 30 428 0.30

12000 80 30 92 0.35

12000 80 30 205 0.46

12000 80 30 56 0.49

12000 80 30 30 —

12000 80 30 237 0.40

12000 80 30 55 —

Data obtained using ASTM 3702.
PV units: lb ft/in² min
Load units: lb
Speed units: ft/min
Wear Factor units: in³ min/lb/ft/hr
Data last revised: April 2001

RTP 2200 Series
Polyetheretherketone
Compounds

Advantages
• High strength and toughness
• Outstanding chemical resistance
• Ease of processing
• Wear Resistance

Limitations
• Cost
• Anisotropic
• High processing temperatures

Ketone-based resins such as polyetheretherketone (PEEK) are semi-crystalline engineering thermoplastics that can be used at high temperatures.

Other characteristics of PEEK include excellent chemical resistance, high strength and good resistance to burning. Although PEEK requires high processing temperatures, it can be processed using standard equipment.

Supporting Product Information

Chemical
Resistance RTP Company
Nomenclature Wear
Additives

Information on resin resistance to chemical and environmental exposure. Guide to the identification system used for RTP Company products. Descriptions of common additives used in wear resistant compounds.

No information supplied by RTP Company constitutes a warranty regarding product performance or use. Any information regarding performance or use is only offered as suggestion for investigation for use, based upon RTP Company or other customer experience. RTP Company makes no warranties, expressed or implied, concerning the suitability or fitness of any of its products for any particular purpose. It is the responsibility of the customer to determine that the product is safe, lawful and technically suitable for the intended use. The disclosure of information herein is not a license to operate under, or a recommendation to infringe any patents.

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