Technical Data Sheet
Eastman™ MXF221 copolyester
Applications
Medical equipment
Medical housings and hardware
Key Attributes
Color retention after disinfection
Ease of processing
Excellent Notched Izod impact strength before and after disinfection
Excellent chemical resistance to a wide variety of hospital disinfectants and wipes
Excellent hydrolytic stability
Excellent toughness
Fast cycle times
Fast drying times
Product Description
Eastman™ MXF221 copolyester is an amorphous material. Eastman™ MXF221 copolyester contains a mold release derived from vegetable based sources. Eastman™ MXF221 copolyester has many outstanding features that include excellent toughness, hydrolytic stability, heat resistance, chemical resistance, and melt flowability. Eastman™ MXF221 copolyester has been formulated for medical devices. Eastman™ MXF221 copolyester has passed FDA/ISO 10993 testing for cytotoxicity, skin sensitization, and intracutaneous reactivity.
Typical Properties
Property
a
Test Method
b
Typical Value, Units
c
General Properties
Specific Gravity
D 792
1.19
Mold Shrinkage
D 955
0.003-0.006 mm/mm (0.003-0.006 in./in.)
Mechanical Properties
Tensile Stress @ Yield
D 638
47 MPa (6800 psi)
Tensile Stress @ Break
D 638
50 MPa (7300 psi)
Elongation @ Yield
D 638
5 %
Elongation @ Break
D 638
132 %
Tensile Modulus
D 638
1671 MPa (2.42 x 10
5
psi)
Flexural Modulus
D 790
1847 MPa (2.68 x 10
5
psi)
Rockwell Hardness, R Scale
D 785
111
Izod Impact Strength, Notched
@ 23°C (73°F)
D 256
1077 J/m (20.2 ft·lbf/in.)
Impact Strength, Unnotched
@ 23°C (73°F)
D 4812
NB
Optical Properties
Total Transmittance
d
D 1003
81 %
Haze
d
D 1003
2 %
Thermal Properties
Deflection Temperature
@ 0.455 MPa (66 psi)
D 648
90 °C (194 °F)
@ 1.82 MPa (264 psi)
D 648
76 °C (169 °F)
Flammability
@ Thickness 1.5 mm
UL 94
V2
@ Thickness 3.0 mm
UL 94
V2
Typical Processing Conditions
Drying Temperature
88 °C (190 °F)
Drying Time
4-6 hrs
Processing Melt Temperature
240-290 °C (464-555 °F)
Mold Temperature
24-66 °C (75-150 °F)
a
Unless noted otherwise, all tests are run at 23°C (73°F) and 50% relative humidity.
b
Unless noted otherwise, the test method is ASTM.
c
Units are in SI or US customary units.
d
These properties can be modified by adjustment to melt temperature and melt residence time.
Eastman Medical Disclaimer
It is the responsibility of the medical device manufacturer ("Manufacturer") to determine the suitability of all component parts and raw materials, including any Eastman product, used in its final product in order to ensure safety and compliance with requirements of the United States Food and Drug Administration (FDA) or other international regulatory agencies. Eastman products have not been designed for nor are they promoted for end uses that would be categorized by either the United States FDA or by the International Standards Organization (ISO) as implant devices. Eastman products are not intended for use in the following applications: (1) in any bodily implant applications for greater than 30 days, based on FDA-Modified ISO-10993, Part 1 "Biological Evaluation of Medical Devices" tests (including any cosmetic, reconstructive or reproductive implant applications); (2) in any cardiac prosthetic device application, regardless of the length of time involved, including, without limitation, pacemaker leads and devices, artificial hearts, heart valves, intra-aortic balloons and control systems, and ventricular bypass assisted devices, or (3) as any critical component in any medical device that supports or sustains human life. For manufacturers of medical devices, biological evaluation of medical devices is performed to determine the potential toxicity resulting from contact of the component materials of the device with the body. Tests are defined in FDA-Modified ISO-10993, Part 1 ''''Biological Evaluation of Medical Devices''''. Limited testing information for certain Eastman products is available upon request. The Manufacturer of the medical device is responsible for the biological evaluation of the finished medical device. The suitability of an Eastman product in a given end-use environment is dependent upon various conditions including, without limitation, chemical compatibility, temperature, part design, sterilization method, residual stresses, and external loads. It is the responsibility of the Manufacturer to evaluate its final product under actual end-use requirements and to adequately advise and warn purchasers and users thereof.
Comments
Properties reported here are typical of average lots. Eastman makes no representation that the material in any particular shipment will conform exactly to the values given. The processing melt temperature and mold temperature refer to the actual resin melt temperature and actual mold surface temperature respectively. Consider overall resin residence time, part shot size utilization and part geometry to set appropriate processing melt temperature and mold temperature in order to minimize IV loss and maximize molded part performance.
Eastman and its marketing affiliates shall not be responsible for the use of this information, or of any product, method, or apparatus mentioned, and you must make your own determination of its suitability and completeness for your own use, for the protection of the environment, and for the health and safety of your employees and purchasers of your products. No warranty is made of the merchantability of fitness of any product, and nothing herein waives any of the Seller's conditions of sale.
1/28/2019 2:26:24 PM