KetaSpire® KT-820 SL30

About
KetaSpire® KT-820 SL30 is a polyetheretherketone (PEEK) compound designed to provide a balance of excellent mechanical properties, wear resistance and low coefficient of friction in both dry and externally lubricated applications. The resin is formulated with a ternary anti-friction/anti-wear additive system comprised of carbon fiber, graphite, and polytetrafluoroethylene (PTFE). KetaSpire® PEEK is produced to the highest industry standards and is characterized by a distinct combination of properties, which include excellent wear resistance, best-in-class fatigue resistance, ease of melt processing, high purity, and excellent chemical resistance to organics, acids, and bases. These properties make it well-suited for applications in transportation, electronics, chemical processing, and industrial uses including oil and gas exploration and production. The resin is black in color in its natural state.&&

Product Description
SupplierSolvay
GenericPEEK
Material StatusCommercial: Active
FeaturesGood Dimensional Stability,Flame Characteristics,High Heat Resistance,Fatigue resistance,Good wear resistance,Solvent resistance,V-0
AvailabilitysAfrica & Middle East ,North America,Latin America,Asia Pacific,Europe
Process MethodsInjection Molding

Technical Data
IMPACTNominal valueUnitTest method
Impact strength of cantilever beam notch 
69J/mASTM D256
9.0kJ/m²ISO 180
Notched impact strength of cantilever beam 
530J/mASTM D4812
34kJ/m²ISO 180

THERMALNominal valueUnitTest method
Hot deformation temperature ASTM D648
1.8 MPa, unannealed291ASTM D648
1.8 MPa, annealed291ASTM D648
Glass transition temperature152ASTM D3418
Melting peak temperature342ASTM D3418
Linear coefficient of thermal expansion
MD ASTM E831
0 to 150 ℃2.2E-5cm/cm/℃ASTM E831
-50 to 50 ℃2.2E-5cm/cm/℃ASTM E831
specific heat DSC
50℃1360J/kg/℃DSC
200℃1840J/kg/℃DSC
Thermal conductivity coefficient0.40W/m/KASTM E1530

FLAME CHARACTERISTICSNominal valueUnitTest method
Flame retardant level UL 94
0.80 mmV-0 UL 94
1.60 mmV-0 UL 94

MECHANICALNominal valueUnitTest method
Shore hardness
Shore D, 1 second86 ASTM D2240
Rockwell hardness
M-level80 ASTM D785
Tensile modulus 
11000MPaASTM D638
14400MPaISO 527-2/1A/1
tensile strength 
yield150MPaISO 527-2/1A/5
133MPaASTM D638
Tensile strain 
fracture2.8%ASTM D638
fracture2.8%ISO 527-2/1A/5
Bending modulus 
10500MPaASTM D790
14900MPaISO 178
bending strength 
221MPaASTM D790
218MPaISO 178
compressive strength110MPaASTM D695
shear strength70.3MPaASTM D732
friction coefficient ASTM D3702
0.25 ASTM D3702
0.30 ASTM D3702
0.090 ASTM D3702
0.080 ASTM D3702

PHYSICALNominal valueUnitTest method
Density1.45g/cm³ASTM D792
Melt Flow Rate
400℃,2.16kg2.4g/10minASTM D1238
Shrinkage rate ASTM D955
MD:3.2 mm0.10 to 0.30%ASTM D955
TD:3.2 mm1.5 to 1.7%ASTM D955
Water absorption rate
24hr0.14%ASTM D570
Apparent viscosity of melt
400℃,1000 sec^-1270Pa·sASTM D3835

Process Conditions
injectionNominal valueUnitTest method
Drying temperature150°C
Drying time4.0hr
Barrel rear temperature366°C
Barrel middle temperature370°C
Barrel front temperature375°C
Nozzle temperature380°C
Mold temperature175 to 205°C

Notes
1. Typical properties: these are not to be construed as specifications.
2. 5″ x 0.5″ x 0.125″ bars
3. 0.20 in/min
4. Lubricated conditions: 75 fpm and 1000 psi ( 0.38 m/s and 6895 kPa)
5. Lubricated conditions: 800 fpm and 750 psi (4.06 m/s and 5171 kPa)
6. Dry conditions: 800 fpm and 31.25 psi (4.06 m/s and 215 kPa
7. Dry conditions: 200 fpm and 125 psi (1.02 m/s and 862 kPa). Not recommended at 50 fpm and 500 psi (0.25 m/s and 3447 kPa).
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