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offers extended functionality!CAMPUS® datasheet | CELSTRAN PA66-GF50-02 P1114
This datasheet of CELSTRAN PA66-GF50-02 P1114 from Ticona is provided by the international plastics database CAMPUS.
CAMPUS is organized by a group of leading international resin producers, who have agreed to test their material according to uniform conditions, based on ISO standards (ISO 10350, ISO 11403), in order to offer comparable data to the market.
You may contact the supplier for more information about this grade.
CELSTRAN PA66-GF50-02 P11/14 | PA66-GF50 | Ticona
Product Texts
Material code according to ISO 1043-1: PA66
Heat stabilized Nylon 66 reinforced by 50 weight percent long glass
fibers. The pellets are cylindrical and normally as well as the
embedded fibers 11 mm long.
Parts molded of CELSTRAN have outstanding mechanical properties such
as high strength and stiffness combined with high heat deflection.
The notched impact strength is increased at elevated and low
temperatures due to the fiber skeleton built in the parts. The long
fiber reinforcement reduces creep significantly.
The very isotropic shrinkage in the molded parts minimizes the
warpage.
Complex parts can be manufactured with high reproducibility by
injection molding.
Can be used for substituting die cast metal with the advantage of
Weight reduction, no corrosion problems, no post treatment.
Heat stabilized Nylon 66 reinforced by 50 weight percent long glass
fibers. The pellets are cylindrical and normally as well as the
embedded fibers 11 mm long.
Parts molded of CELSTRAN have outstanding mechanical properties such
as high strength and stiffness combined with high heat deflection.
The notched impact strength is increased at elevated and low
temperatures due to the fiber skeleton built in the parts. The long
fiber reinforcement reduces creep significantly.
The very isotropic shrinkage in the molded parts minimizes the
warpage.
Complex parts can be manufactured with high reproducibility by
injection molding.
Can be used for substituting die cast metal with the advantage of
Weight reduction, no corrosion problems, no post treatment.
| Mechanical properties | dry / cond | Unit | Test Standard |
| Tensile Modulus | 16800 / 12000 | MPa | ISO 527-1/-2 |
| Stress at break | 220 / 170 | MPa | ISO 527-1/-2 |
| Strain at break | 1.6 / 2 | % | ISO 527-1/-2 |
| Charpy impact strength (+23°C) | 60 / 65 | kJ/m² | ISO 179/1eU |
| Charpy impact strength (-30°C) | 58 / 46 | kJ/m² | ISO 179/1eU |
| Charpy notched impact strength (+23°C) | 30 / 25 | kJ/m² | ISO 179/1eA |
| Charpy notched impact strength (-30°C) | 30 / 30 | kJ/m² | ISO 179/1eA |
| Puncture energy (+23°C) | 24 / - | J | ISO 6603-2 |
| Puncture energy (-30°C) | 23.8 / - | J | ISO 6603-2 |
| Thermal properties | dry / cond | Unit | Test Standard |
| Melting temperature (10°C/min) | 260 / * | °C | ISO 11357-1/-3 |
| Temp. of deflection under load (1.80 MPa) | 258 / * | °C | ISO 75-1/-2 |
| Temp. of deflection under load (8.00 MPa) | 240 / * | °C | ISO 75-1/-2 |
| Other properties | dry / cond | Unit | Test Standard |
| Density | 1570 / 1570 | kg/m³ | ISO 1183 |
| Material specific properties | dry / cond | Unit | Test Standard |
| Viscosity number | 136 / * | cm³/g | ISO 307, 1157, 1628 |
| Test specimen production | Value | Unit | Test Standard |
| Injection Molding, melt temperature | 305 | °C | ISO 294 |
| Injection Molding, mold temperature | 90 | °C | ISO 10724 |
| Injection Molding, injection velocity | 80 | mm/s | ISO 294 |
| Injection Molding, pressure at hold | 83 | MPa | ISO 294 |
Diagrams
Characteristics
Processing
Injection Molding, Profile Extrusion, Sheet Extrusion, Other Extrusion, Blow Molding, Transfer Molding
Delivery form
Pellets
Special Characteristics
Heat stabilized or stable to heat
Regional Availability
Other text information
Injection molding
PREPROCESSING
It is recommended to dry in a dehumidifying dryer: 4 hours at 80 °C
PROCESSING
During the processing of CELSTRAN it is important to watch and
control melt shear, for excessive shear reduces fiber length and
mechanical performance as well.
Processing recommendation:
- Conventional 3 zone screw, screw diameter minimum 40 mm
- Design flow channels for low melt shear
- Back pressure and screw rotation to realize a continous
plastification performance and thus a homogeneous melt.
- Apply higher temperature settings than for short fiber compounds
Melt temperature (in the srew anteroom) 310-325 °C
Mold surface temperature 90-120 °C
POSTPROCESSING
It is recommended to dry in a dehumidifying dryer: 4 hours at 80 °C
PROCESSING
During the processing of CELSTRAN it is important to watch and
control melt shear, for excessive shear reduces fiber length and
mechanical performance as well.
Processing recommendation:
- Conventional 3 zone screw, screw diameter minimum 40 mm
- Design flow channels for low melt shear
- Back pressure and screw rotation to realize a continous
plastification performance and thus a homogeneous melt.
- Apply higher temperature settings than for short fiber compounds
Melt temperature (in the srew anteroom) 310-325 °C
Mold surface temperature 90-120 °C
POSTPROCESSING
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 which 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 to 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.
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Any decision about the application of materials must be double checked with the producer of this material.
CAMPUS® is a Registered trademark of CWFG mbH, Frankfurt/Main, 1991
CAMPUS® is a Registered trademark of CWFG mbH, Frankfurt/Main, 1991