Santoprene™ 201-73

About
A soft, colorable, versatile thermoplastic vulcanizate (TPV) in the thermoplastic elastomer (TPE) family. This material combines good physical properties and chemical resistance for use in a wide range of applications. This grade of Santoprene TPV is shear-dependent and can be processed on conventional thermoplastics equipment for injection molding, extrusion, blow molding, thermoforming or vacuum forming. It is polyolefin based and recyclable within the manufacturing stream.&&

Product Description
SupplierCelanese
Material StatusCommercial: Active
FeaturesHB
AvailabilitysAsia Pacific,North America,Europe,Latin America

Technical Data
PHYSICALNominal valueUnitTest method
Density0.968g/cm³ASTM D792
Density0.970g/cm³ISO 1183
Detergent Resistancef4 UL 2157
Detergent Resistancef3 UL 749

elastic bodyNominal valueUnitTest method
tensile strength
TD, fracture, 23 ℃8.80MPaISO 37
TD, fracture, 23 ℃8.80MPaASTM D412
TD, 100% strain, 23 ℃3.60MPaASTM D412
TD, 100% strain, 23 ℃3.60MPaISO 37
Tensile strain
TD, fracture, 23 ℃490%ISO 37
TD, fracture, 23 ℃490%ASTM D412
tear strength
TD,23℃27.0kN/mASTM D624
TD,23℃27kN/mISO 34-1
Compression deformation ASTM D395B
70℃,22 hr28%ASTM D395B
125℃,70 hr37%ASTM D395B
Compression deformation ISO 815
70℃,22 hr28%ISO 815
125℃,70 hr37%ISO 815

MECHANICALNominal valueUnitTest method
Shore hardness
Shore A, 15 seconds, 23 ℃78 ISO 868

THERMALNominal valueUnitTest method
Embrittlement temperature-60.0ASTM D746
Embrittlement temperature-60.0ISO 812
Relative temperature index
Electrical performance100UL 746
Strength mechanical performance UL 746
1.0 mm90.0UL 746
1.5 mm90.0UL 746
3.0 mm95.0UL 746

Aging performanceNominal valueUnitTest method
The rate of change in tensile strength in air
150℃,168 hr-1.0%ASTM D573
150℃,168 hr-1.0%ISO 188
The rate of change in ultimate elongation in air
150℃,168 hr-3.0%ASTM D573
Change in Tensile Strain at Break in Air(150℃,168 hr)-3.0%ISO 188
Change in Durometer Hardness in Air (150 ℃, 168 hr)7.0 ASTM D573
The rate of change of Shore hardness in air
Shaw A, 150 ℃, 168 hr7.0 ISO 188
The rate of change in tensile strength ASTM D471
23℃,168 hr,in Acetic Acid-8.0%ASTM D471
23℃,168 hr,in Cyclohexane31%ASTM D471
23℃,168 hr,in Detergent(Tide),2.5%3.0%ASTM D471
23℃,168 hr,in Ethanol,95%-2.0%ASTM D471
23℃,168 hr,in Hydrochloric Acid,10%13%ASTM D471
23℃,168 hr,in Isopropyl Alcohol31%ASTM D471
23℃,168 hr,in Methylethylketone47%ASTM D471
23℃,168 hr,in Sodium Chloride,15%0.0%ASTM D471
23℃,168 hr,in Sodium Hydroxide,50%3.0%ASTM D471
23℃,168 hr,in Sulfuric Acid,98%-17 -17%ASTM D471
23℃,168 hr,in Trichloroethylene54%ASTM D471
100℃,168 hr,in Deionized Water1.0%ASTM D471
100℃,168 hr,in IRM 903 Oil-30%ASTM D471
125℃,70 hr,in IRM 903 Oil-31%ASTM D471
125℃,168 hr,in IRM 903 Oil-31%ASTM D471
The rate of change in tensile strength ISO 1817
23℃,168 hr,in Acetic Acid-8.0%ISO 1817
23℃,168 hr,in Cyclohexane31%ISO 1817
23℃,168 hr,in Detergent(Tide),2.5%3.0%ISO 1817
23℃,168 hr,in Ethanol,95%-2.0%ISO 1817
23℃,168 hr,in Hydrochloric Acid,10%13%ISO 1817
23℃,168 hr,in Isopropyl Alcohol31%ISO 1817
23℃,168 hr,in Methylethylketone47%ISO 1817
23℃,168 hr,in Sodium Chloride,15%0.0%ISO 1817
23℃,168 hr,in Sodium Hydroxide,50%3.0%ISO 1817
23℃,168 hr,in Sulfuric Acid,98%-17 -17%ISO 1817
23℃,168 hr,in Trichloroethylene54%ISO 1817
100℃,168 hr,in Deionized Water1.0%ISO 1817
100℃,168 hr,in IRM 903 Oil-30%ISO 1817
125℃,70 hr,in IRM 903 Oil-31%ISO 1817
125℃,168 hr,in IRM 903 Oil-31%ISO 1817
Change rate of ultimate elongation ASTM D471
23℃,168 hr,in Acetic Acid-4.0%ASTM D471
23℃,168 hr,in Cyclohexane20%ASTM D471
23℃,168 hr,in Detergent(Tide),2.5%2.0%ASTM D471
23℃,168 hr,in Ethanol,95%0.0%ASTM D471
23℃,168 hr,in Hydrochloric Acid,10%9.0%ASTM D471
23℃,168 hr,in Isopropyl Alcohol20%ASTM D471
23℃,168 hr,in Methylethylketone24%ASTM D471
23℃,168 hr,in Sodium Chloride,15%-2.0%ASTM D471
23℃,168 hr,in Sodium Hydroxide,50%2.0%ASTM D471
23℃,168 hr,in Sulfuric Acid,98%-27%ASTM D471
23℃,168 hr,in Trichloroethylene22%ASTM D471
100℃,168 hr,in Deionized Water-7.0%ASTM D471
100℃,168 hr,in IRM 903 Oil-49%ASTM D471
125℃,70 hr,in IRM 903 Oil-47%ASTM D471
125℃,168 hr,in IRM 903 Oil-58%ASTM D471
Changes in tensile stress during fracture ISO 1817
23℃,168 hr,in Acetic Acid-4.0%ISO 1817
23℃,168 hr,in Cyclohexane20%ISO 1817
23℃,168 hr,in Detergent(Tide),2.5%2.0%ISO 1817
23℃,168 hr,in Ethanol,95%0.0%ISO 1817
23℃,168 hr,in Hydrochloric Acid,10%9.0%ISO 1817
23℃,168 hr,in Isopropyl Alcohol20%ISO 1817
23℃,168 hr,in Methylethylketone24%ISO 1817
23℃,168 hr,in Sodium Chloride,15%-2.0%ISO 1817
23℃,168 hr,in Sodium Hydroxide,50%2.0%ISO 1817
23℃,168 hr,in Sulfuric Acid,98%-27%ISO 1817
23℃,168 hr,in Trichloroethylene22%ISO 1817
100℃,168 hr,in Deionized Water-7.0%ISO 1817
100℃,168 hr,in IRM 903 Oil-49%ISO 1817
125℃,70 hr,in IRM 903 Oil-47%ISO 1817
125℃,168 hr,in IRM 903 Oil-58%ISO 1817
The rate of change in Shore hardness ASTM D471
Shore A, 23 ℃, 168 hr, in acetic acid-2.0 ASTM D471
Shore A, 23 ℃, 168 hr, in cyclohexane-16 ASTM D471
Shaw A, 23 ℃, 168 hr, in detergent (Tide), 2.5%0.0 ASTM D471
Shore A, 23 ℃, 168 hr, in ethanol, 95%0.0 ASTM D471
Shore A, 23 ℃, 168 hr, in hydrochloric acid, 10%-3.0 ASTM D471
Shore A, 23 ℃, 168 hr, in isopropanol-1.0 ASTM D471
Shore A, 23 ℃, 168 hr, in methyl ethyl ketone0.0 ASTM D471
Shore A, 23 ℃, 168 hr, in sodium chloride, 15%0.0 ASTM D471
Shore A, 23 ℃, 168 hr, in sodium hydroxide, 50%0.0 ASTM D471
Shore A, 23 ℃, 168 hr, in sulfuric acid, 98%0.0 ASTM D471
Shore A, 23 ℃, 168 hr, in trichloroethylene-3.0 ASTM D471
Shore A, 100 ℃, 168 hr, in deionized water-2.0 ASTM D471
Shaw A, 100 ℃, 168 hr, in IRM 903 oil-21 ASTM D471
Shaw A, 125 ℃, 168 hr, in IRM 903 oil-23 ASTM D471
The rate of change in Shore hardness ISO 1817
Shore A, 23 ℃, 168 hr, in acetic acid-2.0 ISO 1817
Shore A, 23 ℃, 168 hr, in cyclohexane-16 ISO 1817
Shaw A, 23 ℃, 168 hr, in detergent (Tide), 2.5%0.0 ISO 1817
Shore A, 23 ℃, 168 hr, in ethanol, 95%0.0 ISO 1817
Shore A, 23 ℃, 168 hr, in hydrochloric acid, 10%-3.0 ISO 1817
Shore A, 23 ℃, 168 hr, in isopropanol-1.0 ISO 1817
Shore A, 23 ℃, 168 hr, in methyl ethyl ketone0.0 ISO 1817
Shore A, 23 ℃, 168 hr, in sodium chloride, 15%0.0 ISO 1817
Shore A, 23 ℃, 168 hr, in sodium hydroxide, 50%0.0 ISO 1817
Shore A, 23 ℃, 168 hr, in sulfuric acid, 98%0.0 ISO 1817
Shore A, 23 ℃, 168 hr, in trichloroethylene-3.0 ISO 1817
Shore A, 100 ℃, 168 hr, in deionized water-2.0 ISO 1817
Shaw A, 100 ℃, 168 hr, in IRM 903 oil-21 ISO 1817
Shaw A, 125 ℃, 168 hr, in IRM 903 oil-23 ISO 1817
Quality change rate ASTM D471
23℃,168 hr,in Acetic Acid4.0%ASTM D471
23℃,168 hr,in Cyclohexane-4.9%ASTM D471
23℃,168 hr,in Detergent(Tide),2.5%0.60%ASTM D471
23℃,168 hr,in Ethanol,95%-0.10%ASTM D471
23℃,168 hr,in Hydrochloric Acid,10%0.20%ASTM D471
23℃,168 hr,in Isopropyl Alcohol-13%ASTM D471
23℃,168 hr,in Methylethylketone-24%ASTM D471
23℃,168 hr,in Sodium Chloride,15%0.20%ASTM D471
23℃,168 hr,in Sodium Hydroxide,50%-0.20%ASTM D471
23℃,168 hr,in Trichloroethylene-6.0%ASTM D471
100℃,168 hr,in Deionized Water3.6%ASTM D471
100℃,168 hr,in IRM 903 Oil66%ASTM D471
125℃,168 hr,in IRM 903 Oil78%ASTM D471
Quality change rate ISO 1817
23.0℃,168 hr,in Methylethylketone-24%ISO 1817
23.0℃,168 hr,in Isopropyl Alcohol-13%ISO 1817
23.0℃,168 hr,in Trichloroethylene-6.0%ISO 1817
23.0℃,168 hr,in Cyclohexane-4.9%ISO 1817
23.0℃,168 hr,in Sodium Hydroxide,50%-0.20%ISO 1817
23.0℃,168 hr,in Ethanol,95%-0.10%ISO 1817
23.0℃,168 hr,in Hydrochloric Acid,10%0.20%ISO 1817
23.0℃,168 hr,in Sodium Chloride,15%0.20%ISO 1817
23.0℃,168 hr,in Detergent(Tide),2.5%0.60%ISO 1817
100℃,168 hr,in Deionized Water3.6%ISO 1817
23.0℃,168 hr,in Acetic Acid4.0%ISO 1817
100℃,168 hr,in IRM 903 Oil66%ISO 1817
125℃,168 hr,in IRM 903 Oil78%ISO 1817
Volume change
125 ℃, 70 hr, in IRM 903 oil72%ISO 1817
125 ℃, 70 hr, in IRM 903 oil72%ASTM D471
Durable to continuous maximum temperature
1008 hr135SAE J2236

Electrical performanceNominal valueUnitTest method
Dielectric strength
23 ℃,2 mm30kV/mmASTM D149
Dielectric constant
23 ℃,1.96 mm2.40 ASTM D150
23 ℃,1.96 mm2.40 IEC 60250
Compared to the leakage tracing indexPLC 0 UL 746
High Arc Burning Index (HAI)PLC 0 UL 746
High voltage arc ignition resistance index (HVAR) (PLC)PLC 6 UL 746
High voltage arc marking rate
HVTRPLC 1 UL 746
Hot wire ignition
HWI UL 746
1.0 mmPLC 4 UL 746
1.5 mmPLC 3 UL 746
3.0 mmPLC 3 UL 746

FLAME CHARACTERISTICSNominal valueUnitTest method
Flame retardant level UL 94
1.00 mmHB UL 94
1.50 mmHB UL 94
3.00 mmHB UL 94

Process Conditions
InjectionNominal valueUnitTest method
extrusionNominal valueUnitTest method
drying temperature82°C
Drying time3.0hr
Recommended maximum moisture content0.080%
Suggested maximum proportion of recycled materials20%
Temperature at the rear of the barrel177°C
Temperature in the middle of the barrel182°C
Front temperature of material barrel188°C
Nozzle temperature193 to 227°C
Processing (melt) temperature199 to 232°C
Mold temperature10 to 52°C
Injection speedFast 
Back pressure0.345 to 0.689MPa
Screw speed100 to 200rpm
Locking force4.1 to 6.9kN/cm²
cushion3.18 to 6.35mm
Screw length to diameter ratio16.0:1.0 to 20.0:1.0 
Screw compression ratio2.0:1.0 to 2.5:1.0 
Exhaust hole depth0.025mm
drying temperature82°C
Drying time3.0hr
Melt Temperature202°C
Mouth temperature204°C
Back pressure5.00 to 20.0MPa

Notes
1. Typical properties: these are not to be construed as specifications.
2. Die C
3. Method Bb, Angle (Nicked)
4. Type 1
5. Type A
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