| About |
|---|
| Meets ISO 10993 and/or USP Class VI biocompatibility requirement. Ecdel™ elastomers are medical grade copolyester ethers (COPE) that offer the clarity, toughness, and chemical resistance needed in a variety of flexible packaging including medical and pharmaceutical applications. Ecdel™ elastomer 9965 may be processed on standard injection molding, extrusion blow molding, profile extrusion, extrusion coating, or film extrusion equipment. Ecdel™ elastomers may be extrusion blow molded directly into bags or extruded into film for later fabrication into bags. Ecdel™ elastomers are radiation, electron beam, ethylene oxide, and autoclave sterilization stable. 9965’s low inherent viscosity may be helpful for extrusion coating or cast film extrusion applications. This product has been CRADLE TO CRADLE CERTIFIED Silver. The CRADLE TO CRADLE CERTIFIED Mark is a registered certification mark used under license through McDonough Braungart Design Chemistry (MBDC). MBDC is a global sustainability consulting and product certification firm. The CRADLE TO CRADLE framework moves beyond the traditional goal of reducing the negative impacts of commerce (‘eco-efficiency’), to a new paradigm of increasing its positive impacts (‘eco-effectiveness’). At its core, Cradle to Cradle design perceives the safe and productive processes of nature’s ‘biological metabolism’ as a model for developing a ‘technical metabolism’ flow of industrial materials. Product components can be designed for continuous recovery and reutilization as biological and technical nutrients within these metabolisms. For more information about MBDC and to obtain printable certificates for Eastman Copolyesters, visit www.mbdc.com. Choose Eastman Chemical Company under Company Name in C2C Certified products to display a list of our products.&& |
| Product Description | |
|---|---|
| Supplier | Eastman |
| Generic | TPE |
| Material Status | Commercial: Active |
| Features | Low extract,Good flexibility,Good disinfection,High Heat Resistance,Solvent resistance |
| Availabilitys | Africa & Middle East ,North America,Latin America,Asia Pacific,Europe |
| Process Methods | Injection Molding |
| Technical Data | |||
|---|---|---|---|
| PHYSICAL | Nominal value | Unit | Test method |
| Density | 1.13 | g/cm³ | ASTM D792 |
| Melt Flow Rate | |||
| 230℃,2.16kg | 20 | g/10min | ASTM D1238 |
| Water absorption rate | |||
| 23℃,24hr | 0.35 | % | ASTM D570 |
| Intrinsic viscosity | |||
| 23℃ | 1.1 | Internal Method | |
| film | Nominal value | Unit | Test method |
|---|---|---|---|
| film thickness | |||
| test | 130 | µm | |
| Secant modulus | ASTM D882 | ||
| Tangent, MD: 130 µ m | 185 | MPa | |
| Tangent, TD: 130 µ m | 179 | MPa | |
| tensile strength | ASTM D882 | ||
| MD, yield, 130 µ m | 13.7 | MPa | |
| TD, yield, 130 µ m | 13.5 | MPa | |
| MD, fracture, 130 µ m | 23.7 | MPa | |
| TD, fracture, 130 µ m | 22.6 | MPa | |
| Tensile strain | ASTM D882 | ||
| MD, yield, 130 µ m | 26 | % | |
| TD, yield, 130 µ m | 26 | % | |
| MD, fracture, 130 µ m | 550 | % | |
| TD, fracture, 130 µ m | 550 | % | |
| Oxygen permeability | |||
| 30℃,130 µm | 841 | cm³/m²/24 hr | ASTM D1434 |
| Water vapor transmittance | |||
| 38℃,100% RH,130 µm | 130 | g/m²/24 hr | ASTM F372 |
| elastic body | Nominal value | Unit | Test method |
|---|---|---|---|
| Kappa’s modulus | ASTM D1043 | ||
| -70℃ | 930 | MPa | |
| -28℃ | 240 | MPa |
| IMPACT | Nominal value | Unit | Test method |
|---|---|---|---|
| Impact strength of cantilever beam notch | |||
| -40℃ | 50 | J/m | ASTM D256 |
| THERMAL | Nominal value | Unit | Test method |
|---|---|---|---|
| Embrittlement temperature | < -75.0 | ℃ | ASTM D746 |
| Glass transition temperature | -3.00 | ℃ | DSC |
| Vicat Softening Temp | 170 | ℃ | ASTM D1525 4 |
| Melting peak temperature | 207 | ℃ | ASTM D3418 |
| Crystallization peak temperature | |||
| DSC | 140 | ℃ | DSC |
| Linear coefficient of thermal expansion | |||
| MD:23℃ | 9.0E-5 | 1/℃ | ASTM D696 |
| specific heat | DSC | ||
| 25℃ | 1600 | J/kg/℃ | |
| 100℃ | 1800 | J/kg/℃ | |
| 150℃ | 2000 | J/kg/℃ | |
| 175℃ | 2300 | J/kg/℃ | |
| 200℃ | 3100 | J/kg/℃ | |
| 225℃ | 2300 | J/kg/℃ | |
| Thermal conductivity coefficient | |||
| 23℃ | 0.19 | W/m/K | ASTM C177 |
| Fusion heat | |||
| 23℃ | 27.0 | kJ/kg | ASTM E793 |
| optical performance | Nominal value | Unit | Test method |
|---|---|---|---|
| gloss | |||
| 45°,130 µm | 80 | ASTM D2457 | |
| Transmittance | ASTM D1003 | ||
| Total, 130 µ m | 93.0 | % | |
| Conventional, 130 µ m | 90.0 | % | |
| Haze | |||
| 130 µm | 1.0 | % | ASTM D1003 |
| Supplementary information | Nominal value | Unit | Test method |
|---|---|---|---|
| tear strength | |||
| 23℃ | 370 | N | ASTM D1004 |
| MECHANICAL | Nominal value | Unit | Test method |
|---|---|---|---|
| Shore hardness | ASTM D2240 | ||
| Shore A, 23 ℃ | 95 | ||
| Shore D, 23 ℃ | 55 | ||
| Tensile modulus | |||
| 23℃ | 170 | MPa | ASTM D638 |
| tensile strength | ASTM D638 | ||
| Yield, 23 ℃, 3 mm, injection molding | 14.0 | MPa | |
| Fracture, 23 ℃, 2 mm | 20.0 | MPa | |
| Tensile strain | ASTM D638 | ||
| Yield, 23 ℃ | 30 | % | |
| Fracture, 23 ℃ | 300 | % | |
| Bending modulus | |||
| 23℃ | 150 | MPa | ASTM D790 |
| friction coefficient | > 1.0 | ASTM D1894 |
| Notes |
|---|
| 1. Typical properties: these are not to be construed as specifications. |
| 2. EMN-A-AC-G-V-1 |
| 3. Type I, 20 in/min |
| 4. Type IV, 20 in/min |
| 5. Loading 1 (10 N) |
| 6. Solid |
| 7. Transition, apparent specific heat, including the effects of the heat of fusion. |
| 8. Melt |
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