SANTOPRENE TPV-101-80 Celanese
Nombre del producto: TPE – – SANTOPRENE – TPV-101-80
Categoría: Elastómero Termoplástico
Información del manual del producto: SANTOPRENE™ 101-80 – TPV
Product Description
A soft, black, 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.
Characteristics
Applications
Automotive – Air Induction System Ducts, Automotive – Boots and Bellows for Steering and
Suspension, Automotive – Plugs, Bumpers, Grommets, Clips, Automotive – Seals and
Gaskets, Consumer – Electronics, Consumer – Floor Care, Industrial – Seals and Gaskets,
Tubing
Uses
Appliance components, Automotive applications, Automotive under the hood, Consumer
applications, Diaphragms, Electrical parts, Gaskets, Outdoor applications, Seals, Tubing
Agency Ratings
UL QMFZ2, UL QMFZ8, UL QMTT2
UL File Number
E80017, E86313
Color
Black
Delivery Form
Pellets
Processing
Blow molding, Coextrusion, Extrusion, Extrusion blow molding, Injection blow molding,
Injection molding, Multi injection molding, Profile extrusion, Sheet extrusion, Thermoforming,
Vacuum forming
Physical properties
Test Standard
Unit
Value
Density
0.96
g/cm³
ASTM D792
Density
960
kg/m³
ISO 1183
Outdoor suitability
f1
–
UL 746C
Detergent resistance
f3
–
UL 749
Detergent resistance
f4
–
UL 2157
Hardness
Unit
Value
Shore A hardness-TPE, 15s
87
ISO 868
Mechanical properties
Test Standard
Unit
Value
Tensile stress at 100%, perpendicular
4.61
MPa
ASTM D412
Tensile stress at 100%, perpendicular
4.61
MPa
ISO 37
Tensile strength at break elast, perpendicular
10.4
MPa
ASTM D412
Tensile stress at break, perpendicular
10.4
MPa
ISO 37
Elongation at break elast, perpendicular
526
%
ASTM D412
Tensile strain at break, perpendicular
526
%
ISO 37
Tear strength, Method Ba, perpendicular
33
kN/m
ISO 34-1
Compression set, 70°C, 22h, Type 1, Method B
36
%
ASTM D395
Compression set, 70°C, 22h, Type A
36
%
ISO 815
Compression set, 125°C, 70h, Type 1, Method B
52
%
ASTM D395
Compression set, 125°C, 70h, Type A
52
%
ISO 815
Thermal properties
Test Standard
Unit
Value
Brittleness temperature
-60
°C
ASTM D746
RTI Elec
90
°C
UL 746
RTI Str, 1.0 mm
90
°C
UL 746
RTI Str, 1.5 mm
90
°C
UL 746
RTI Str, 3.0 mm
95
°C
UL 746
Created: 23-Feb-2022
Revised: 18-Feb-2022 Source: Celanese Materials Database
Page: 1/3
SANTOPRENE™ 101-80 – TPV
Electrical properties
Test Standard
Unit
Value
Dielectric Strength, 2.0 mm
30
kV/mm
ASTM D149
Dielectric Constant 60Hz, 1.98 mm
2.6
–
ASTM D150
Dielectric Constant 60Hz, 1.98 mm
2.6
–
IEC 60250
Comparative tracking index
PLC 0
–
UL 746
High amp arc ignition (HAI)
PLC 0
–
UL 746
High voltage arc resistance to ignition (HVAR)
PLC 6
–
UL 746
High voltage arc tracking rate (HVTR)
PLC 1
–
UL 746
Hot-wire Ignition (1.0 mm)
PLC 4
–
UL 746A
Hot-wire Ignition (1.5 mm)
PLC 3
–
UL 746A
Hot-wire Ignition (3.0 mm)
PLC 2
–
UL 746A
Injection
Unit
Value
Drying temperature
82
°C
Drying time
3
h
Necessary low maximum residual moisture content
0.08
%
Suggested maximum regrind
20
%
Rear temperature
177
°C
Middle temperature
182
°C
Front temperature
188
°C
Nozzle temperature
193 – 232
°C
Melt temperature
199 – 232
°C
Mold temperature
10 – 52
°C
Injection speed
fast
–
Back pressure
0.345 – 0.689
MPa
Screw Speed
100 – 200
RPM
Clamp tonnage
41 – 69
MPa
Cushion
3.18 – 6.35
mm
Screw L/D
20:1/*
–
Screw compression ratio
2.5:1/*
–
Vent depth
0.025
mm
Extrusion
Unit
Value
Drying temperature
82
°C
Drying time
3
h
Melt temperature
202
°C
Die head temperature
204
°C
Back pressure
5 – 20
MPa
Aging
Test Standard
Unit
Value
Change in Tensile Strength in Air @ 150 C, 168 h
-5.8
%
ASTM D573
Change in Tensile Strength in Air @ 150 C, 168 h
-5.8
%
ISO 188
Change in Ultimate Elongation in Air @ 150 C, 168 h
-12
%
ASTM D573
Change in Tensile Strain at Break in Air @ 150 C, 168 h
-12
%
ISO 188
Change in Durometer Hardness in Air @ 150 C, 168 h, Shore A
1.7
–
ASTM D573
Change in Shore Hardness in Air @ 150 C, 168 h, Shore A
1.7
–
ISO 188
Continuous Upper Temperature Resistance (CUTR) @ 1008 h
135
°C
SAE J2236
Flammability
Unit
Value
Flame rating, 1.0 mm
HB
UL 94
Flame rating, 1.5 mm
HB
UL 94
Flame rating, 3.0 mm
HB
UL 94
Other text information
Processing Notes
Desiccant drying for 3 hours at 80°C (180°F) is recommended. Santoprene™ TPV has a wide temperature processing window from 175 to 230°C
(350 to 450°F) and is incompatible with acetal and PVC.
Created: 23-Feb-2022
Revised: 18-Feb-2022 Source: Celanese Materials Database
Page: 2/3
SANTOPRENE™ 101-80 – TPV
Other Approvals
OEM
Specification
Chrysler (FCA)
MS-AR-100 DGN
FORD
WSD-M2D381-A1
GM
GMW15813, Type 7
Contact
Americas
8040 Dixie Highway
Florence, KY 41042 USA
Product Information Service
t: +1-800-833-4882
t: +1-859-372-3244
Customer Service
t: +1-800-526-4960
t: +1-859-372-3214
e: [email protected]
Asia
4560 Jinke Road
Zhang Jiang Hi Tech Park
Shanghai 201210 PRC
Customer Service
t: +86 21 3861 9288
e: [email protected]
Europe
Am Unisys-Park 1
65843 Sulzbach, Germany
Product Information Service
t: +49-800-86427-531
t: +49-(0)-69-45009-1011
e: [email protected]
General Disclaimer
NOTICE TO USERS: Values shown are based on testing of laboratory test specimens and represent data that fall within the standard range of
properties for natural material. These values alone do not represent a sufficient basis for any part design and are not intended for use in
establishing maximum, minimum, or ranges of values for specification purposes. Colorants or other additives may cause significant variations in
data values. Properties of molded parts can be influenced by a wide variety of factors including, but not limited to, material selection, additives,
part design, processing conditions and environmental exposure. Any determination of the suitability of a particular material and part design for any
use contemplated by the users and the manner of such use is the sole responsibility of the users, who must assure themselves that the material as
subsequently processed meets the needs of their particular product or use.To the best of our knowledge, the information contained in this
publication is accurate; however, we do not assume any liability whatsoever for the accuracy and completeness of such information. The
information contained in this publication should not be construed as a promise or guarantee of specific properties of our products. It is the sole
responsibility of the users to investigate whether any existing patents are infringed by the use of the materials mentioned in this
publication.Moreover, there is a need to reduce human exposure to many materials to the lowest practical limits in view of possible adverse
effects. To the extent that any hazards may have been mentioned in this publication, we neither suggest nor guarantee that such hazards are the
only ones that exist. We recommend that persons intending to rely on any recommendation or to use any equipment, processing technique or
material mentioned in this publication should satisfy themselves that they can meet all applicable safety and health standards.We strongly
recommend that users seek and adhere to the manufacturer’s current instructions for handling each material they use, and entrust the handling of
such material to adequately trained personnel only. Please call the telephone numbers listed for additional technical information. Call Customer
Services for the appropriate Materials Safety Data Sheets (MSDS) before attempting to process our products. The products mentioned herein are
not intended for use in medical or dental implants.
Trademark
© 2021 Celanese or its affiliates. All rights reserved. Celanese®, registered C-ball design and all other trademarks identified herein with ®, TM,
SM, unless otherwise noted, are trademarks of Celanese or its affiliates. Fortron is a registered trademark of Fortron Industries LLC.
Powered by TCPDF (www.tcpdf.org)
Created: 23-Feb-2022
Revised: 18-Feb-2022 Source: Celanese Materials Database
Page: 3/3