A
Acrylonitrile styrene acrylate (ASA)
51,
56–58Addition polymerization
39Amilan® CM3011N, coefficient of friction vs. load
196Amilan™ CM1011G-15, flexural stress amplitude vs. cycles to failure
181Amilan™ CM1011G-30, flexural stress amplitude vs. cycles to failure
181Amilan™ CM1011G-45, flexural stress amplitude vs. cycles to failure
181Amilan™ CM1011G-45, flexural stress amplitude vs. cycles to failure, 23°C, DAM
182Amilan™ CM1011G-45, flexural stress amplitude vs. cycles to failure, 130°C, DAM
182Amilan™ CM1011G-45, flexural stress amplitude vs. cycles to failure, 23°C, conditioned
182Amilan™ CM1021, coefficient of friction vs. load, lubricated with water
184Amilan™ CM1021, coefficient of friction vs. load, lubricated with molybdenum disulfide
184Amilan™ CM1021, coefficient of friction vs. load, lubricated with machine oil
184Amodel® A-1133 HS, flexural stress amplitude vs. cycles to failure, 23°C
225Amodel® A-1145 HS, flexural stress amplitude vs. cycles to failure, 100°C
224Amodel® A-1145 HS, flexural stress amplitude vs. cycles to failure, 170°C
224Amodel® A-1145 HS, flexural stress amplitude vs. cycles to failure, 23°C
225ANSI (American National Standards Institute)
11Arlon® 1260, dynamic coefficient of friction vs. temperature
269Arlon® 1260, wear factor of friction vs. temperature
269Arnite®, 35% glass fiber, stress amplitude vs. cycles to failure
128Arnite®, unreinforced, stress amplitude vs. cycles to failure
118Aromatic polyamide fiber
38C
Cantilevered beam flexural fatigue machine
,
10Celanex®2000, Taber abrasion and COF
128Celanex®2002, Taber abrasion and COF
128Celanex®2012, Taber abrasion and COF
128Celanex®2300 GV/30, flexural stress amplitude vs. cycles to failure
118Celanex®2500, dynamic coefficient of friction vs. pressure loading
126Celanex®2500, dynamic coefficient of friction vs. sliding speed
127Celanex®3200, Taber abrasion and COF
128Celanex®3210, flexural stress amplitude vs. cycles to failure
119Celanex®3211, Taber abrasion and COF
128Celanex®3300, flexural stress amplitude vs. cycles to failure
119Celanex®3300, Taber abrasion and COF
128Celanex®3310, flexural stress amplitude vs. cycles to failure
119Celanex®3310, Taber abrasion and COF
128Celanex®3311, Taber abrasion and COF
128Celanex®3400, Taber abrasion and COF
128Celanex®4300, Taber abrasion and COF
128Celanex®5300, Taber abrasion and COF
128Celanex®6400, Taber abrasion and COF
128Celanex®7700, Taber abrasion and COF
128Celcon®, glass reinforced, flexural stress amplitude vs. cycles to failure
79Celcon®, unreinforced, flexural stress amplitude vs. cycles to failure
79Celcon®, unspecified and unlubricated, limiting PV curve
84Celcon®, unspecified, dynamic coefficient of friction vs. bearing pressure
83Celcon®, unspecified, dynamic coefficient of friction vs. running speed
84Celcon®, unspecified, radial wear vs. load at 12 m/min
83Celcon®, unspecified, radial wear vs. load at 24 m/min
83Celcon®, unspecified, radial wear vs. load at 3 m/min
83Celcon®, unspecified, radial wear vs. load at 6 m/min
83Celstran® PP-GF30, flexural stress amplitude vs. cycles to failure
236Celstran® PP-GF40, flexural stress amplitude vs. cycles to failure
236Chlorotrifluoroethylene
250Chlorotrifluoroethylene
251Coefficient of friction
25,
29Condensation polymerization
39Crack growth or propagation
20Crack initiation or nucleation
20Crastin®LW9020, flexural stress amplitude vs. cycles to failure
137Crastin®LW9030, flexural stress amplitude vs. cycles to failure
137Crastin®LW9130, flexural stress amplitude vs. cycles to failure
137Crastin®SK00F10, flexural stress amplitude vs. cycles to failure
119Crastin®SK00F10, flexural stress amplitude vs. cycles to failure
119Crastin®SK602, flexural stress amplitude vs. cycles to failure
119Crastin®SK603, flexural stress amplitude vs. cycles to failure
119Crastin®SK605, flexural stress amplitude vs. cycles to failure
120Crastin®SK609, flexural stress amplitude vs. cycles to failure
120Crastin®SK645FR, flexural stress amplitude vs. cycles to failure
120Cyclic Hardening exponent
17Cyclic olefin copolymer
232Cyclic strain amplitude
18Cyclic strength coefficient
17Cyclic stress amplitude
18Cycolac® BDT5510, tensile stress amplitude vs. cycles to failure
60Cycolac® BDT6500, tensile stress amplitude vs. cycles to failure
60Cycolac® CGA, tensile stress amplitude vs. cycles to failure
61Cycolac® CGF20, tensile stress amplitude vs. cycles to failure
61Cycolac® CTR52, tensile stress amplitude vs. cycles to failure
62Cycolac® EX38, tensile stress amplitude vs. cycles to failure
63Cycolac® EX39, tensile stress amplitude vs. cycles to failure
62Cycolac® EX75, tensile stress amplitude vs. cycles to failure
63Cycolac® FR15, tensile stress amplitude vs. cycles to failure
64Cycolac® FR23, tensile stress amplitude vs. cycles to failure
64Cycolac® G-100, tensile stress amplitude vs. cycles to failure
59Cycolac® KJB, tensile stress amplitude vs. cycles to failure
65Cycolac® LDA, tensile stress amplitude vs. cycles to failure
65Cycolac® MG38F, tensile stress amplitude vs. cycles to failure
66Cycolac® MG47, tensile stress amplitude vs. cycles to failure
66Cycolac® MGABS01, tensile stress amplitude vs. cycles to failure
67Cycolac® MGX53GP, tensile stress amplitude vs. cycles to failure
67Cycolac® X11, tensile stress amplitude vs. cycles to failure
68Cycolac® X37, tensile stress amplitude vs. cycles to failure, 25Hz
68Cycolac® X37, tensile stress amplitude vs. cycles to failure, 5Hz
68Cycoloy® C1000, Taber Abrasion
70Cycoloy® C1000, tensile stress amplitude vs. cycles to failure
69Cycoloy® C1000HF, Taber Abrasion
70Cycoloy® C1200, Taber Abrasion
70Cycoloy® C1200HF, Taber Abrasion
70Cycoloy® C1204HF, Taber Abrasion
70Cycoloy® C2100, Taber Abrasion
70Cycoloy® C2100HF, Taber Abrasion
70Cycoloy® C2800, Taber Abrasion
70Cycoloy® C2950, Taber Abrasion
70Cycoloy® C3100, Taber Abrasion
70Cycoloy® C3600, Taber Abrasion
70Cycoloy® C3650, Taber Abrasion
70Cycoloy® C6200, Taber Abrasion
70Cycoloy® CU6800, Taber Abrasion
70Cycoloy® CX5430, Taber Abrasion
70Cycoloy® FXC630xy, Taber Abrasion
70Cycoloy® FXC810xy, Taber Abrasion
70Cycoloy® LG9000, Taber Abrasion
70D
Degree of crystallinity
43Delrin® 100, coefficient of friction
78Delrin® 100, flexural stress amplitude vs. cycles to failure
75Delrin® 100, wear against various materials
77Delrin® 100P, wear rate and dynamic COF
78Delrin® 500, coefficient of friction
78Delrin® 500, flexural stress amplitude vs. cycles to failure
75Delrin® 500, stress amplitude vs. cycles to failure, 100°C
75Delrin® 500, stress amplitude vs. cycles to failure, 23°C
75Delrin® 500, stress amplitude vs. cycles to failure, 66°C
75Delrin® 500, wear against mild steel in a thrust washer test
76Delrin® 500, wear against various materials
77Delrin® 500AF, wear rate and dynamic COF
78Delrin® 500CL, coefficient of friction
78Delrin® 500CL, wear against mild steel in a thrust washer test
76Delrin® 500CL, wear rate and dynamic COF
78Delrin® 500P, wear rate and dynamic COF
78Delrin® 520MP, wear rate and dynamic COF
78Delrin® 900, coefficient of friction
78Delrin® 900, flexural stress amplitude vs. cycles to failure
75Delrin® 900, wear against various materials
77Delrin® 900P, wear rate and dynamic COF
78Delrin® 900SP, wear rate and dynamic COF
78Delrin® AF, coefficient of friction
78Delrin®, the effect of Teflon ® PTFE levels on wear rate and dynamic coefficient of friction
77Diakon™ CMG302, flexural stress amplitude vs. cycles to failure
241,
242Diamino diphenyl sulfone (DDS)
151DIN (Deutsches Institut für Normung.-German Institute for Standardization)
11Dynamic coefficient of friction
25,
31G
Geloy® CR7010, tensile stress amplitude vs. cycles to failure
56Geloy® CR7020, tensile stress amplitude vs. cycles to failure
57Geloy® CR7510, tensile stress amplitude vs. cycles to failure
57Geloy® CR7520, tensile stress amplitude vs. cycles to failure
58Geloy® XP4020R, tensile stress amplitude vs. cycles to failure
69Geloy® XP4020R, tensile stress amplitude vs. cycles to failure
70Geloy® XP4034, tensile stress amplitude vs. cycles to failure
70Generic high-density PE, Fatigue crack propagation vs. stress intensity factor, MW=45000
233Generic high-density PE, Fatigue crack propagation vs. stress intensity factor, MW=70000
233Generic high-density PE, Fatigue crack propagation vs. stress intensity factor, MW=200000
233Geon™ Fiberloc™ 85891, flexural stress amplitude vs. cycles to failure
239Geon™ Fiberloc™ 87321, flexural stress amplitude vs. cycles to failure
239Geon™ Fiberloc™ 87371, flexural stress amplitude vs. cycles to failure
239Glass transition temperature
43Grilamid® LV-5H, flexural stress amplitude vs. cycles to failure
185Grilamid® TR-55, flexural stress amplitude vs. cycles to failure
222Grilamid® TR-90, flexural stress amplitude vs. cycles to failure
222Grilon® PV-5H, flexural stress amplitude vs. cycles to failure
182Grivory® GC-4H, flexural stress amplitude vs. cycles to failure, 23°C
225Grivory® GV-5H, flexural stress amplitude vs. cycles to failure
221Grivory® GV-5H, flexural stress amplitude vs. cycles to failure, 23°C
225Grivory® HT2V-5H, flexural stress amplitude vs. cycles to failure, 23°C
226Grivory® HTV-5H1, flexural stress amplitude vs. cycles to failure, 23°C
226Grivory® HTV-5H1, flexural stress amplitude vs. cycles to failure, 80°C
226Grivory® HTV-6H1, flexural stress amplitude vs. cycles to failure, 23°C
227Grivory® HTV-6H1, flexural stress amplitude vs. cycles to failure, 80°C
227Grivory® HTV-6H1, flexural stress amplitude vs. cycles to failure, 120°C
227Grivory® HTV-6H1, flexural stress amplitude vs. cycles to failure, 150°C
227Grivory® HTV-6H1, flexural stress amplitude vs. cycles to failure, 180°C
227GUR®, dynamic coefficient of friction vs. pressure
237GUR®, dynamic coefficient of friction vs. sliding speed
238GUR®, permissible unlubricated bearing load vs. sliding speed
238GUR®, PV load limit vs. sliding speed
238H
Halar® 600, tribological properties
256Halar® 902, tribological properties
256Halar®, standard polymers, tribological properties
256Halar®, standard polymers, tribological properties
256Heterophasic copolymers
230Hexafluoropropylene–Tetrafluoroethylene–Ethylene copolymer (THE)
252High-density PE (HDPE)
230High-impact polystyrene, (HIPS)
51HIPS, stress amplitude vs. cycles to failure
54HIPS, stress amplitude vs. cycles to failure
54HIPS, temperature rise vs. the number of fatigue cycles, stress amplitude 18.6
54HIPS, temperature rise vs. the number of fatigue cycles, stress amplitude 17.2
54HIPS, temperature rise vs. the number of fatigue cycles, stress amplitude 13.8
54HIPS, temperature rise vs. the number of fatigue cycles, stress amplitude 12.4
54HIPS, temperature rise vs. the number of fatigue cycles, stress amplitude 10.3
54Hostacom® G3 N01, flexural stress amplitude vs. cycles to failure
235Hostacom® M2 N01, flexural stress amplitude vs. cycles to failure
235Hostaform ® C 9021 +3% Si Oil, wear and dynamic coefficient of Friction
87Hostaform ® C 9021 AW, wear and dynamic coefficient of Friction
87Hostaform ® C 9021 G, wear and dynamic coefficient of Friction
87Hostaform ® C 9021 GV1/30, flexural stress amplitude vs. cycles to failure, at 23°C and 10Hz
80–81Hostaform ® C 9021 K, wear and dynamic coefficient of Friction
87Hostaform ® C 9021 TF +3% Si Oil, wear and dynamic coefficient of Friction
87Hostaform ® C 9021 TF, wear and dynamic coefficient of Friction
87Hostaform ® C 9021, flexural stress amplitude vs. cycles to failure
79Hostaform ® C 9021, flexural stress amplitude vs. cycles to failure, at 23°C and 10Hz
80–81Hostaform ® C 9021, tensile stress amplitude vs. cycles to failure
80Hostaform ® C 9021, torsional stress amplitude vs. cycles to failure, at 23°C and 10Hz
80–81Hostaform ® C 9021, wear and dynamic coefficient of Friction
87Hostaform ® C 9064, flexural stress amplitude vs. cycles to failure, at 23°C and 10Hz
80Hostaform ® C 9244, flexural stress amplitude vs. cycles to failure, at 23°C and 10Hz
80Hyflon® PFA M Series, MIT flex life vs. melt flow index
260Hyflon® PFA P Series, MIT flex life vs. melt flow index
260L
Lexan® 101, Taber abrasion performance
117Lexan® 101, tensile stress amplitude vs. cycles to failure
103Lexan® 101, tensile stress amplitude vs. cycles to failure
117Lexan® 101R, coefficient of friction vs. temperature
113Lexan® 121, Taber abrasion performance
117Lexan® 141, Taber abrasion performance
117Lexan® 141, tensile stress amplitude vs. cycles to failure
104Lexan® 143R, Taber abrasion performance
117Lexan® 143R, tensile stress amplitude vs. cycles to failure
104Lexan® 191, Taber abrasion performance
117Lexan® 191, tensile stress amplitude vs. cycles to failure
105Lexan® 4501, tensile stress amplitude vs. cycles to failure
135Lexan® 4701R, tensile stress amplitude vs. cycles to failure
136Lexan® 500, Taber abrasion performance
117Lexan® 500, tensile stress amplitude vs. cycles to failure
105Lexan® 915R, tensile stress amplitude vs. cycles to failure
106Lexan® 920, Taber abrasion performance
117Lexan® 920, tensile stress amplitude vs. cycles to failure
106Lexan® 925, tensile stress amplitude vs. cycles to failure
107Lexan® 940, Taber abrasion performance
117Lexan® 940, tensile stress amplitude vs. cycles to failure
107Lexan® 945, tensile stress amplitude vs. cycles to failure
108Lexan® 955, tensile stress amplitude vs. cycles to failure
108Lexan® EM1210, tensile stress amplitude vs. cycles to failure
109Lexan® EM2212, tensile stress amplitude vs. cycles to failure
109Lexan® EM3110, tensile stress amplitude vs. cycles to failure
110Lexan® HF1110, tensile stress amplitude vs. cycles to failure
110Lexan® HF1130, tensile stress amplitude vs. cycles to failure
111Lexan® HF1140, tensile stress amplitude vs. cycles to failure
111Lexan® LS1, tensile stress amplitude vs. cycles to failure
112Lexan® OQ1030, tensile stress amplitude vs. cycles to failure
112Linear low-density PE (LLDPE)
230Linear Reciprocating Abrasion Testing
33Lubricomp® BGU, flexural stress amplitude vs. cycles to failure, 23°C
227Lubricomp® IFL-4036, flexural stress amplitude vs. cycles to failure
218Lubricomp® QFL-4017 ER HS, flexural stress amplitude vs. cycles to failure
217Lubriloy® FR-40, stress amplitude vs. cycles to failure
188Lupolen® PE, dynamic coefficient of friction vs. pressure
233Lupolen® PE, jet abrasion volume vs. jet velocity
234Lupolen® PE, wear rate vs. mean pressure
234Luran® 368 R, flexural stress amplitude vs. cycles to failure
58Luran® S 757 R, flexural stress amplitude vs. cycles to failure
56Luran® S 776 S, flexural stress amplitude vs. cycles to failure
56N
Napthalene-2,6-dicarboxylic acid (NDA)
101Noncontact infrared thermometers
Noryl®731, tensile stress amplitude vs. cycles to failure, 23°C
92Noryl®EM6100F, tensile stress amplitude vs. cycles to failure, 23°C
93Noryl®EM6101, tensile stress amplitude vs. cycles to failure, 23°C
93Noryl®EM7100, tensile stress amplitude vs. cycles to failure, 23°C
94Noryl®EM7304F, tensile stress amplitude vs. cycles to failure, 23°C
94Noryl®FN150X, tensile stress amplitude vs. cycles to failure, 23°C
95Noryl®FN215X, tensile stress amplitude vs. cycles to failure, 23°C
95Noryl®GFN1, tensile stress amplitude vs. cycles to failure, 23°C
96Noryl®GFN1, tensile stress amplitude vs. cycles to failure, 61°C
96Noryl®GFN2, tensile stress amplitude vs. cycles to failure, 23°C
96Noryl®GFN3, tensile stress amplitude vs. cycles to failure, 23°C
97Noryl®GFN3, tensile stress amplitude vs. cycles to failure, 66°C
97Noryl®GTX954, Tensile stress amplitude vs. cycles to failure, 23°C
88Noryl®HH195, tensile stress amplitude vs. cycles to failure, 23°C
92Noryl®HS1000X, tensile stress amplitude vs. cycles to failure, 23°C
97Noryl®HS2000X, tensile stress amplitude vs. cycles to failure, 23°C
98Noryl®IGN320, tensile stress amplitude vs. cycles to failure, 100°C
98Noryl®IGN320, tensile stress amplitude vs. cycles to failure, 150°C
98Noryl®IGN320, tensile stress amplitude vs. cycles to failure, 23°C
98Noryl®PPX615, tensile stress amplitude vs. cycles to failure, 23°C
89Noryl®PPX630, tensile stress amplitude vs. cycles to failure, 23°C
89Noryl®PPX640, tensile stress amplitude vs. cycles to failure, 23°C
90Noryl®PPX7110, tensile stress amplitude vs. cycles to failure, 23°C
90Noryl®PPX7112, tensile stress amplitude vs. cycles to failure, 23°C
91Noryl®PPX7115, tensile stress amplitude vs. cycles to failure, 23°C
91Nylon 6, fatigue life vs. stress and heat treatment
44Nylon 66, generic, fatigue crack propagation rate vs. stress intensity factor, MW=17000
195Nylon 66, generic, fatigue crack propagation rate vs. stress intensity factor, MW=34000
195Nylon 66, generic, fatigue crack propagation rate vs. stress intensity factor,Hz=100
195Nylon 66, generic, fatigue crack propagation rate vs. stress intensity factor,Hz=10
195Nylon 66, generic, fatigue crack propagation rate vs. stress intensity factor,Hz=1
195P
PEEK, generic with SiC fiber, graphite and PTFE, tribological properties, medium molecular weight
271PEEK, generic with SiC fiber, graphite and PTFE, tribological properties, high molecular weight
271PEEK, generic, tribological properties, high molecular weight
271PEEK, generic, tribological properties, low molecular weight
271PEEK, generic, tribological properties, medium molecular weight
271Perfluoroethyl vinyl ether (EVE)
251Perfluoromethyl vinyl ether (MVE)
251Perfluoropolyether (PFPE) synthetic oil
36Perfluoropropyl vinyl ether (PVE)
251PES FO-10D, tribological properties
275PES SGF2020R, tribological properties
275PES SGF2030, tribological properties
275PES SGF2040, tribological properties
275Petra® 130, flexural stress amplitude vs. cycles to failure
129Petra® 140, flexural stress amplitude vs. cycles to failure
129Phase -separated mixtures
44Pin-on-disk abrasion testing
33Plastic strain amplitude
22Plint Tribology Products
32Poly-(4-methyl-1-pentene)
230Poly(methyl methacrylate)
230,
232Poly(methyl methacrylate), generic, fatigue crack propagation rate vs. temperature, 1Hz
242Poly(methyl methacrylate), generic, fatigue crack propagation rate vs. temperature, 100Hz
242Poly(methyl methacrylate), generic, fatigue crack propagation rate vs. stress intensity factor, MW=110000
243Poly(methyl methacrylate), generic, fatigue crack propagation rate vs. stress intensity factor, MW=190000
243Poly(methyl methacrylate), generic, fatigue crack propagation rate vs. stress intensity factor, MW=350000
243Poly(methyl methacrylate), generic, fatigue crack propagation rate vs. stress intensity factor, MW=230000
243Poly(methyl methacrylate), generic, fatigue crack propagation rate vs. stress intensity factor, MW=360000
243Poly(methyl methacrylate), generic, fatigue crack propagation rate vs. stress intensity factor, 0% crosslinking agent
243Poly(methyl methacrylate), generic, fatigue crack propagation rate vs. stress intensity factor, 6.7% crosslinking agent
243Poly(methyl methacrylate), generic, fatigue crack propagation rate vs. stress intensity factor, 11% crosslinking agent
243Poly(methyl methacrylate), generic, tension/compression stress amplitude vs. cycles to failure, unnotched
241Poly(methyl methacrylate), generic, tension/compression stress amplitude vs. cycles to failure, 1 mm notch
241Poly(methyl methacrylate), generic, tension/compression stress amplitude vs. cycles to failure, 0.25 mm notch
241Poly(methyl methacrylate), generic, tension/compression stress amplitude vs. cycles to failure, 0.01 mm notch
241Polybenzimidazole (PBI)
267Polycarbonate, generic, fatigue crack propagation rate vs. temperature, 1Hz
113Polycarbonate, generic, fatigue crack propagation rate vs. temperature, 100Hz
113Polycarbonate, generic, fatigue crack propagation rate, 1Hz
113Polycarbonate, generic, fatigue crack propagation rate, 10Hz
113Polycarbonate, generic, fatigue crack propagation rate, 100Hz
113Polychlorotrifluoroethylene (CTFE or PCTFE)
251Polycyclohexylene -dimethylene terephthalate (PCT)
101–102,
136Polyethylene chlorotrifluoroethylene (E-CTFE)
250,
256Polyethylene tetrafl uoroethylene (ETFE)
250,
257–258Polyoxymethylene (POM) homopolymer
73,
75–78Polyoxymethylene (POM) homopolymer, generic, various molecular weights, fatigue crack propagation vs. stress intensity factor
76Polyoxymethylene copolymer (POM-Co)
73,
79–87Polyphenylsulfone (PPSU)
267Polystyrene, crosslinked, fatigue crack propagation
41Polystyrene, fatigue crack propagation dependence on molecular weight
41Polystyrene, fatigue crack propagation rates, frequency 0.1Hz
55Polystyrene, fatigue crack propagation rates, frequency 1Hz
55Polystyrene, fatigue crack propagation rates, frequency 10Hz
55Polystyrene, fatigue crack propagation rates, frequency 100Hz
55Polystyrene, fatigue life vs. stress and molecular weight
42Polystyrene, stress amplitude vs. cycles to failure
54Polysulfone (PSU), generic, fatigue crack propagation rate vs. temperature, 1Hz
284Polysulfone (PSU), generic, fatigue crack propagation rate vs. temperature, 100Hz
284Polytetramethylene glycol segments (PTMG)
246Polytrimethylene terephthalate (PTT)
102Polyvinyl chloride, generic, fatigue crack propagation rate vs. stress intensity factor, 100Hz
240Polyvinyl chloride, generic, fatigue crack propagation rate vs. stress intensity factor, 10Hz
240Polyvinyl chloride, generic, fatigue crack propagation rate vs. stress intensity factor, 1Hz
240Polyvinyl chloride, generic, fatigue crack propagation rate vs. stress intensity factor, MW=61000
240Polyvinyl chloride, generic, fatigue crack propagation rate vs. stress intensity factor, MW=67000
240Polyvinyl chloride, generic, fatigue crack propagation rate vs. stress intensity factor, MW=97000
240Polyvinyl chloride, generic, fatigue crack propagation rate vs. stress intensity factor, MW=95000
240Polyvinyl chloride, generic, fatigue crack propagation rate vs. stress intensity factor, MW=106000
240Polyvinyl chloride, generic, fatigue crack propagation rate vs. stress intensity factor, MW=141000
240Polyvinyl chloride, generic, fatigue crack propagation rate vs. stress intensity factor, MW=225000
240Polyvinyl chloride, generic, fatigue crack propagation rate vs. stress intensity factor, MW=205000
240p-phenylene diamine (PDA)
151PTFE, fatigue life vs. stress and crystallinity
44PTFE, generic with 25% carbon, dynamic coefficient of friction vs. temperature
254PTFE, generic with 25% carbon, wear factor vs. temperature
255PTFE, generic, flexural stress amplitude vs. cycles to failure, 10.7 mm thick
253PTFE, generic, flexural stress amplitude vs. cycles to failure, 20Hz
253PTFE, generic, flexural stress amplitude vs. cycles to failure, 3.6 mm thick
253PTFE, generic, flexural stress amplitude vs. cycles to failure, 40Hz
253PTFE, generic, flexural stress amplitude vs. cycles to failure, 60Hz
253PTFE, generic, flexural stress amplitude vs. cycles to failure, 6.6 mm thick
253PTFE, generic, flexural stress amplitude vs. cycles to failure, 320Hz
253PTFE, generic, temperature rise vs. fatigue cycles, 10.3 MPa
254PTFE, generic, temperature rise vs. fatigue cycles, 6.3 MPa
254PTFE, generic, temperature rise vs. fatigue cycles, 6.9 MPa
254PTFE, generic, temperature rise vs. fatigue cycles, 7.6 MPa
254PTFE, generic, temperature rise vs. fatigue cycles, 8.3 MPa
254PTFE, generic, temperature rise vs. fatigue cycles, 9.0 MPa
254PTFE, measured temperature at failure
PVC, fatigue crack propagation rate and toughener
48PVDF, generic, fatigue crack propagation vs. stress intensity factor
263Pyromellitic dianhydride (PMDA)
151–152R
Radel®A A-200, flexural stress amplitude vs. cycles to failure
273Radel®A AG-210, flexural stress amplitude vs. cycles to failure
273Radel®A AG-220, flexural stress amplitude vs. cycles to failure
273Radel®A AG-230, flexural stress amplitude vs. cycles to failure
273Radel®A, Taber abrasion loss vs. glass fiber content
275RTP 200 AR 15 TFE 15, wear properties at various PV levels, against steel
201RTP 200 SI 2, wear properties at various PV levels, against self
196RTP 200 SI 2, wear properties at various PV levels, against steel
196RTP 200 TF 10 SI 2, wear properties at various PV levels, against steel
198RTP 200 TF 10, wear properties at various PV levels, against self
197RTP 200 TF 10, wear properties at various PV levels, against steel
197RTP 200 TF 18 SI 2, wear properties at various PV levels, against steel
198RTP 200 TF 18 SI 2, wear properties at various PV levels, against self
199RTP 200 TF 20, wear properties at various PV levels, against self
198RTP 200 TF 20, wear properties at various PV levels, against steel
198RTP 200 TF 5, wear properties at various PV levels, against steel
197RTP 200D TFE 10, wear properties at various PV levels, against self
219RTP 200D TFE 10, wear properties at various PV levels, against steel
219RTP 200D TFE 18 SI 2, wear properties at various PV levels, against steel
219RTP 200D TFE 18 SI 2, wear properties at various PV levels, against self
220RTP 200D TFE 20, wear properties at various PV levels, against self
219RTP 200D TFE 20, wear properties at various PV levels, against steel
219RTP 202 TF 15 SI 2, wear properties at various PV levels, against steel
199RTP 202 TF 15 SI 2, wear properties at various PV levels, against self
199RTP 202 TF 15, wear properties at various PV levels, against self
199RTP 202 TF 15, wear properties at various PV levels, against steel
199RTP 202D TFE 15, wear properties at various PV levels, against self
220RTP 202D TFE 15, wear properties at various PV levels, against steel
220RTP 205 TF 15, wear properties at various PV levels, against steel
200RTP 207A TFE 13 SI 2 HS, wear properties at various PV levels
184RTP 207A TFE 20 HS, wear properties at various PV levels
184RTP 2100 AR 15 TFE 15, wear properties at various PV levels
162RTP 2200 AR 15 TFE 15, wear properties at various PV levels
272RTP 2200 LF TFE 15, wear properties at various PV levels
271RTP 2200 LF TFE 20, wear properties at various PV levels
271RTP 2205 TFE 15, wear properties at various PV levels
272RTP 2285 TFE 15, wear properties at various PV levels
272RTP 2299 x 57352 A, wear properties at various PV levels
273RTP 282 TF 13 SI 2, wear properties at various PV levels, against steel
200RTP 282 TF 13 SI 2, wear properties at various PV levels, against self
201RTP 282 TF 15, wear properties at various PV levels, against self
200RTP 282 TF 15, wear properties at various PV levels, against steel
200RTP 282D TFE 15, wear properties at various PV levels, against self
220RTP 282D TFE 15, wear properties at various PV levels, against steel
220RTP 285 TF 13 SI 2, wear properties at various PV levels, against steel
201RTP 285D TFE 15, wear properties at various PV levels, against self
221RTP 285D TFE 15, wear properties at various PV levels, against steel
221RTP 299A x 82678 C, wear properties at various PV levels
185RTP 299A x 90821, wear properties at various PV levels
185RTP 299B x 89491 A, wear properties at various PV levels
217RTP 300 AR 10 TFE 10, wear properties against steel at various PV levels
116RTP 300 AR 10, wear properties against steel at various PV levels
116RTP 300 TFE 10 SI 2, wear properties against steel at various PV levels
115RTP 300 TFE 10, wear properties against steel at various PV levels
114RTP 300 TFE 10, wear properties at various PV levels against self
114RTP 300 TFE 15, wear properties against steel at various PV levels
115RTP 300 TFE 15, wear properties at various PV levels against self
115RTP 300 TFE 20, wear properties against steel at various PV levels
115RTP 300 TFE 20, wear properties at various PV levels against self
115RTP 300 TFE 5, wear properties against steel at various PV levels
114RTP 300 TFE 5, wear properties at various PV levels against self
114RTP 302 TFE 15, wear properties against steel at various PV levels
116RTP 305 TFE 15, wear properties against steel at various PV levels
116RTP 382 TFE 15, wear properties against self at various PV levels
117RTP 382 TFE 15, wear properties against steel at various PV levels
117RTP 385 TFE 15, wear properties against steel at various PV levels
117RTP 4205 TFE 15, wear properties at various PV levels
161RTP 4285 TFE 15, wear properties at various PV levels
161RTP 4299 x 64425, wear properties at various PV levels
162RTP 4299 x 71927, wear properties at various PV levels
161RTP 800 SI 2, wear properties at various PV levels
86RTP 800 TFE 10 SI2, wear properties at various PV levels
87RTP 800 TFE 10, wear properties at various PV levels
87RTP 800 TFE 20 DEL, wear properties at various PV levels
78RTP 800 TFE 5, wear properties at various PV levels
86RTP 800, wear properties at various PV levels
86RTP ESD 800, wear properties at various PV levels
86Rynite® 408, flexural stress amplitude vs. cycles to failure
129Rynite® 415HP, flexural stress amplitude vs. cycles to failure
129Rynite® 530, flexural stress amplitude vs. cycles to failure
130Rynite® 535, flexural stress amplitude vs. cycles to failure
130Rynite® 545, flexural stress amplitude vs. cycles to failure
130Rynite® 555, flexural stress amplitude vs. cycles to failure
130Rynite® 940, flexural stress amplitude vs. cycles to failure
130Rynite® FR515, flexural stress amplitude vs. cycles to failure
131Rynite® FR530L, flexural stress amplitude vs. cycles to failure
131Rynite® FR543, flexural stress amplitude vs. cycles to failure
131Rynite® FR943, flexural stress amplitude vs. cycles to failure
131Rynite® SST35, flexural stress amplitude vs. cycles to failure
131Rynite®415HP, Taber abrasion and COF
132Rynite®530, Taber abrasion and COF
132Rynite®530, Taber abrasion and COF
132Rynite®545, Taber abrasion and COF
132Rynite®555, Taber abrasion and COF
132Rynite®935, flexural stress amplitude vs. cycles to failure
130Rynite®935, Taber abrasion and COF
132Rynite®940, Taber abrasion and COF
132Rynite®FR330, Taber abrasion and COF
132Rynite®FR515, Taber abrasion and COF
132Rynite®FR530, Taber abrasion and COF
132Rynite®FR543, Taber abrasion and COF
132Rynite®FR943, Taber abrasion and COF
132Rynite®FR945, Taber abrasion and COF
132Rynite®FR946, Taber abrasion and COF
132Rynite®SST35, Taber abrasion and COF
132Ryton® A-200, Taber abrasion
283Ryton® A-200, tensile stress retained vs. cycles to failure
277Ryton® R-4 02XT, tensile stress retained vs. cycles to failure
278Ryton® R-4, coefficient of friction
283Ryton® R-4, Taber abrasion
283Ryton® R-7, Taber abrasion
283Ryton® R-7, tensile stress retained vs. cycles to failure
279T
Teflon ® PTFE, coefficient of friction vs. sliding speed
26Teflon® FEP, 10% bronze, tribological properties
259Teflon® FEP, 15% glass fiber, tribological properties
259Teflon® FEP, dynamic coefficient of friction vs. sliding speed, 0.007 MPa
259Teflon® FEP, dynamic coefficient of friction vs. sliding speed, 0.07 MPa
259Teflon® FEP, dynamic coefficient of friction vs. sliding speed, 0.69 MPa
259Teflon® PTFE, 15% glass fiber, tribological properties
256Teflon® PTFE, 15% graphite, tribological properties
256Teflon® PTFE, 20% glass and 5% graphite, tribological properties
256Teflon® PTFE, 20% glass and 5% MoS2, tribological properties
256Teflon® PTFE, 25% carbon, tribological properties
256Teflon® PTFE, 25% glass fiber, tribological properties
256Teflon® PTFE, 60% bronze, tribological properties
256Teflon® PTFE, dynamic coefficient of friction vs. sliding speed, 0.3 MPa
255Teflon® PTFE, dynamic coefficient of friction vs. sliding speed, 0.1 MPa
255Teflon® PTFE, dynamic coefficient of friction vs. sliding speed, 0.5 MPa
255Teflon® PTFE, neat, tribological properties
256Tefzel® ETFE HT-200, flexural stress amplitude vs. cycles to failure
257Tefzel® ETFE HT-2004, bearing wear vs. PV
258Tefzel® ETFE HT-2004, coefficient of friction vs. PV
258Tefzel® ETFE HT-2004, flexural stress amplitude vs. cycles to failure
257Tefzel® ETFE HT-2004, static coefficient of friction
258Tensile eccentric fatigue machine
Thermocomp® BF-1006, Flexural stress amplitude vs. cycles to failure
59Thermocomp® CF-1006, Flexural stress amplitude vs. cycles to failure
55Thermocomp® CF-1008, Flexural stress amplitude vs. cycles to failure
55Thermocomp® GF-1006, flexural stress amplitude vs. cycles to failure
283Thermocomp® GF-1008, flexural stress amplitude vs. cycles to failure
283Thermocomp® IF-1006, flexural stress amplitude vs. cycles to failure
218Thermocomp® JC-1006, flexural stress amplitude vs. cycles to failure
274Thermocomp® JF-1006, flexural stress amplitude vs. cycles to failure
274Thermocomp® JF-1008, flexural stress amplitude vs. cycles to failure
274Thermocomp® MF-1006, flexural stress amplitude vs. cycles to failure
235Thermocomp® PF-1006, flexural stress amplitude vs. cycles to failure
183Thermocomp® QF-1006, flexural stress amplitude vs. cycles to failure
217Thermocomp® QF-1008, flexural stress amplitude vs. cycles to failure
217Thermocomp® RC-1002, flexural stress amplitude vs. cycles to failure
190Thermocomp® RC-1006, flexural stress amplitude vs. cycles to failure
190Thermocomp® RC-1008, flexural stress amplitude vs. cycles to failure
190Thermocomp® RF-1006, flexural stress amplitude vs. cycles to failure
190Thermocomp® RF-1008, flexural stress amplitude vs. cycles to failure
190Thermocomp® UC-1008, flexural stress amplitude vs. cycles to failure, 23°C
227Thermocomp® UF-1006, flexural stress amplitude vs. cycles to failure, 23°C
227Thermocomp®WC-1006, flexural stress amplitude vs. cycles to failure
121Thermocomp®WF-1006, flexural stress amplitude vs. cycles to failure
121Thermocomp®ZF-1006, tensile stress amplitude vs. cycles to failure, 23°C
88Thermoplastic copolyester elastomers
246Thermoplastic polyether block amide elastomers
246Thermoplastic polyimide
149Thermoplastic polyurethane elastomers
245Thrust washer abrasion test
32Thrust washer abrasion testing
32Torelina® A504, coefficient of abrasion vs. PV value, against itself
282Torelina® A504, coefficient of abrasion vs. PV value, against steel
282Torelina® A504, stress amplitude vs. cycles to failure, 110°C
280Torelina® A504, stress amplitude vs. cycles to failure, 160°C
281Torelina® A504, stress amplitude vs. cycles to failure, 180°C
281Torelina® A504X90, stress amplitude vs. cycles to failure, 110°C
280Torelina® A504X90, stress amplitude vs. cycles to failure, 160°C
281Torelina® A504X90, stress amplitude vs. cycles to failure, 180°C
281Torlon® 4203L, flexural stress amplitude vs. cycles to failure, 30Hz
165Torlon® 4203L, flexural stress amplitude vs. cycles to failure, 30Hz, 177°C
166Torlon® 4203L, tensile stress amplitude vs. cycles to failure
164Torlon® 4275, flexural stress amplitude vs. cycles to failure, 30Hz
165Torlon® 4275, wear factor at various PV
168Torlon® 4275, wear rate at various PV
168Torlon® 4275, wear resistance vs. pressure, velocity=0.25m/sec
167Torlon® 4275, wear resistance vs. pressure, velocity=1.02m/sec
167Torlon® 4275, wear resistance vs. pressure, velocity=4.06m/sec
166Torlon® 4301, extended cure, wear factor vs. pressure, velocity=1.02m/sec
168Torlon® 4301, wear factor at various PV
168Torlon® 4301, wear rate at various PV
168Torlon® 4301, wear resistance vs. pressure, velocity=0.25m/sec
167Torlon® 4301, wear resistance vs. pressure, velocity=1.02m/sec
167Torlon® 4301, wear resistance vs. pressure, velocity=4.06m/sec
166Torlon® 4435, wear factor at various PV
168Torlon® 4435, wear rate at various PV
168Torlon® 4435, wear resistance vs. pressure, velocity=0.25m/sec
167Torlon® 4435, wear resistance vs. pressure, velocity=1.02m/sec
167Torlon® 4435, wear resistance vs. pressure, velocity=4.06m/sec
166Torlon® 5030, flexural stress amplitude vs. cycles to failure, 30Hz
165Torlon® 5030, flexural stress amplitude vs. cycles to failure, 30Hz, 177°C
166Torlon® 7130, flexural stress amplitude vs. cycles to failure, 30Hz
165Torlon® 7130, flexural stress amplitude vs. cycles to failure, 30Hz, 177°C
166Torlon® 7130, tensile stress amplitude vs. cycles to failure, 2Hz
164Torlon® 7130, tensile stress amplitude vs. cycles to failure, 30Hz
164Trimellitic anhydride (TMA)
152Trimethyl hexamethylene diamine
175Trogamid® CX7323, abrasion resistance
228Trogamid® T5000, fatigue crack propagation rate vs. stress intensity factor
222Trogamid® T5000, flexural stress amplitude vs. cycles to failure
223U
Ultem® 1000, Taber abrasion
163Ultem® 1000, tensile stress amplitude vs. cycles to failure, 23°C
153Ultem® 1000, tensile stress amplitude vs. cycles to failure, 77°C
153Ultem® 1010, Taber abrasion
163Ultem® 1010, tensile stress amplitude vs. cycles to failure, 23°C
154Ultem® 2100, tensile stress amplitude vs. cycles to failure, 23°C
154Ultem® 2200, tensile stress amplitude vs. cycles to failure, 23°C
155Ultem® 2212, tensile stress amplitude vs. cycles to failure, 23°C
155Ultem® 2300, tensile stress amplitude vs. cycles to failure, 23°C
155Ultem® 2300, tensile stress amplitude vs. cycles to failure, 77°C
155Ultem® 2310, tensile stress amplitude vs. cycles to failure, 23°C
156Ultem® 2312, tensile stress amplitude vs. cycles to failure, 23°C
156Ultem® 2400, tensile stress amplitude vs. cycles to failure, 23°C
156Ultem® 2400, tensile stress amplitude vs. cycles to failure, 77°C
156Ultem® 3452, tensile stress amplitude vs. cycles to failure, 23°C
157Ultem® 4000, tensile stress amplitude vs. cycles to failure, 23°C
157Ultem® 4000, tribological properties
163Ultem® 4001, tensile stress amplitude vs. cycles to failure, 23°C
157Ultem® 4001, tribological properties
163Ultem® 9075, tensile stress amplitude vs. cycles to failure
158Ultem® 9076, tensile stress amplitude vs. cycles to failure
158Ultem® AR9100, tensile stress amplitude vs. cycles to failure
158Ultem® AR9200, tensile stress amplitude vs. cycles to failure
158Ultem® AR9300, tensile stress amplitude vs. cycles to failure
158Ultem® CRS5001, tensile stress amplitude vs. cycles to failure
159Ultem® CRS5001,Taber abrasion
163Ultem® CRS5011, tensile stress amplitude vs. cycles to failure
159Ultem® CRS5311, tensile stress amplitude vs. cycles to failure
159Ultem® D9065, tensile stress amplitude vs. cycles to failure
159Ultem® LTX300B, tensile stress amplitude vs. cycles to failure
159Ultem® XH6050, tensile stress amplitude vs. cycles to failure
160Ultimate tensile strength
15Ultraform ® N2200 G53, flexural stress amplitude vs. cycles to failure, at 23°C and 10Hz
82Ultraform ® N2310P, coefficient of sliding friction vs. roughness
85Ultraform ® N2310P, wear rate vs. roughness
85Ultraform ® N2320 003, coefficient of sliding friction vs. roughness
85Ultraform ® N2320 003, flexural stress amplitude vs. cycles to failure, at 23°C and 10Hz
82Ultraform ® N2320 003, wear rate vs. roughness
85Ultrahigh Molecular Weight PE (UHMWPE)
232,
237–239Ultrahigh Molecular Weight PE (UHMWPE), generic, fatigue crack propagation vs. stress intensity factor, unfilled
237Ultrahigh Molecular Weight PE (UHMWPE), generic, fatigue crack propagation vs. stress intensity factor, carbon fiber filled
237Ultralow-density PE (ULDPE)
229Ultramid® A 3HG5, flexural stress amplitude vs. cycles to failure, 23°C
191Ultramid® A 3HG5, flexural stress amplitude vs. cycles to failure, 90°C
191Ultramid® A 3WG7, flexural stress amplitude vs. cycles to failure, 23°C
191Ultramid® A 3WG7, flexural stress amplitude vs. cycles to failure, 90°C
191Ultramid® AG5, stress amplitude vs. cycles to failure
188Ultramid® AG7, stress amplitude vs. cycles to failure
188Ultramid® B 3WG6, flexural stress amplitude vs. cycles to failure, 23°C, conditioned
183Ultramid® B 3WG6, flexural stress amplitude vs. cycles to failure, 90°C
183Ultramid® BG5, stress amplitude vs. cycles to failure
181Ultramid® BG7, stress amplitude vs. cycles to failure
181Ultrason® E 2010 G4, flexural stress amplitude vs. cycles to failure
274Ultrason® E 2010 G4, tribological properties
275Ultrason® E 2010 G6, tribological properties
275Ultrason® E 2010, flexural stress amplitude vs. cycles to failure
274Ultrason® E 2010, tribological properties
275Ultrason® KR 4113, tribological properties
275Ultrason® S 2010 G4, flexural stress amplitude vs. cycles to failure
284Ultrason® S 2010 G4, tribological properties
285Ultrason® S 2010 G6, tribological properties
285Ultrason® S 2010, flexural stress amplitude vs. cycles to failure
284Ultrason® S 2010, tribological properties
285Underwriters Laboratories
46V
Valox®310, tensile stress amplitude vs. cycles to failure
122Valox®325, tensile stress amplitude vs. cycles to failure
125Valox®337, tensile stress amplitude vs. cycles to failure
122Valox®368, tensile stress amplitude vs. cycles to failure
138Valox®3706, tensile stress amplitude vs. cycles to failure
139Valox®412E, tensile stress amplitude vs. cycles to failure
123Valox®420, tensile stress amplitude vs. cycles to failure
123Valox®430, tensile stress amplitude vs. cycles to failure
124Valox®508, tensile stress amplitude vs. cycles to failure, 23°C
138Valox®508, tensile stress amplitude vs. cycles to failure, 82°C
139Valox®732E, tensile stress amplitude vs. cycles to failure
124Valox®736, tensile stress amplitude vs. cycles to failure
125Valox®865, tensile stress amplitude vs. cycles to failure
146Valox®AE7370, tensile stress amplitude vs. cycles to failure
146Valox®CS860, tensile stress amplitude vs. cycles to failure
147Valox®EF3500, tensile stress amplitude vs. cycles to failure
136Valox®EF4517, tensile stress amplitude vs. cycles to failure
136Valox®EF4530, tensile stress amplitude vs. cycles to failure
136Valox®HV7075, tensile stress amplitude vs. cycles to failure
126Valox®V4280, tensile stress amplitude vs. cycles to failure
147Vectra® A115, coefficient of friction
135Vectra® A130, coefficient of friction
135Vectra® A130, dynamic coefficient of friction
134Vectra® A130, flexural stress amplitude vs. cycles to failure
133Vectra® A130, wear volume
134Vectra® A150, coefficient of friction
135Vectra® A230, coefficient of friction
135Vectra® A230, dynamic coefficient of friction
134Vectra® A230, wear volume
134Vectra® A410, coefficient of friction
135Vectra® A430, coefficient of friction
135Vectra® A430, dynamic coefficient of friction
134Vectra® A430, wear volume
134Vectra® A435, coefficient of friction
135Vectra® A435, dynamic coefficient of friction
134Vectra® A435, wear volume
134Vectra® A515, coefficient of friction
135Vectra® A530, dynamic coefficient of friction
134Vectra® A530, wear volume
134Vectra® A625, coefficient of friction
135Vectra® A625, dynamic coefficient of friction
134Vectra® A625, wear volume
134Vectra® B130, dynamic coefficient of friction
134Vectra® B130, wear volume
134Vectra® B230, dynamic coefficient of friction
134Vectra® B230, flexural stress amplitude vs. cycles to failure
133Vectra® B230, wear volume
134Vectra® C130, dynamic coefficient of friction
134Vectra® C130, wear volume
134Vectra® L130, coefficient of friction
135Vectra® L130, dynamic coefficient of friction
134Vectra® L130, wear volume
134Vectra®B230, coefficient of friction
135Verton® MFX-700-10 HS, flexural stress amplitude vs. cycles to failure
236Verton® MFX-7006 HS, flexural stress amplitude vs. cycles to failure
236Verton® MFX-7008 HS, flexural stress amplitude vs. cycles to failure
236Verton® RF-700-10 EM HS, flexural stress amplitude vs. cycles to failure
192Verton® RF-700-12 EM HS, flexural stress amplitude vs. cycles to failure
192Verton® RF-7007 EM HS, flexural stress amplitude vs. cycles to failure
192Very low-density PE (VLDPE)
229Vespel® CR-6100, dynamic coefficient of friction vs. temperature
260Vespel® CR-6100, tribological properties
261Vespel® CR-6100, wear factor vs. temperature
261Vespel® SP1, fatigue resistance vs. temperature
169Vespel® SP1, tribological properties
173Vespel® SP-21, coefficient of friction vs. lubrication
26Vespel® SP-21, coefficient of friction vs. temperature
26Vespel® SP21, dynamic coefficient of friction vs. temperature
171Vespel® SP21, dynamic coefficient of friction vs. time
170Vespel® SP21, dynamic coefficient of friction vs. ZN/P
169Vespel® SP21, fatigue resistance vs. temperature
169Vespel® SP21, tribological properties
173Vespel® SP21, wear factor vs. ZN/P
170Vespel® SP-21, wear factor vs. hardness
30Vespel® SP-21, wear factor vs. roughness
30Vespel® SP21, wear factor vs. temperature limit at 395°C
172Vespel® SP-21, wear factor vs. temperature
30Vespel® SP21, wear rate vs. hardness
172Vespel® SP21, wear rate vs. PV
172Vespel® SP21, wear rate vs. roughness
173Vespel® SP211, dynamic coefficient of friction vs. temperature
171Vespel® SP211, pressure vs. velocity limit at 395°C
171Vespel® SP211, tribological properties
173Vespel® SP211, wear factor vs. temperature limit at 395°C
172Vespel® SP22, tribological properties
173Vespel® SP3, tribological properties
173Vespel® TP-8054, tensile stress amplitude vs. cycles to failure
160Vespel® TP-8130, tensile stress amplitude vs. cycles to failure
160Vespel® TP-8130, tribological properties
163–164Vespel® TP-8311, tribological properties
163–164Vespel® TP-8395, tensile stress amplitude vs. cycles to failure
160Vespel® TP-8549, tribological properties
163–164Vestamid® L1600, Taber abrasion
187Vestamid® L1670, Taber abrasion
187Vestamid® L1901, abrasion vs. sliding distance
186Vestamid® L1901, dynamic coefficient of friction vs. bearing pressure
186Vestamid® L1901, dynamic coefficient of friction vs. bearing temperature
187Vestamid® L1930, Taber abrasion
187Vestamid® L1950, Taber abrasion
187Vestamid® L2101F, Taber abrasion
187Vestamid® L2124, Taber abrasion
187Vestamid® L2128, Taber abrasion
187Vestamid® L2140, Taber abrasion
187Vestamid® L-GB30, abrasion vs. sliding distance
186Vestamid® L-GB30, Taber abrasion
187Vestamid® L-GF30, abrasion vs. sliding distance
186Vestodur®2000, sliding coefficient of friction vs. pressure
127Victrex® 450CA30, tribological properties
270Victrex® 450FC30, dynamic coefficient of friction vs. temperature
270Victrex® 450FC30, tribological properties
270Victrex® 450G, tribological properties
270Von Mises equivalent stress formula