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offers extended functionality!CAMPUS® datasheet | Ultramid® B3WG7 BK00564
This datasheet of Ultramid® B3WG7 BK00564 from BASF 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.
Ultramid® B3WG7 BK00564 | PA6-GF35 | BASF
Product Texts
Glass fiber reinforced, pigmented black, injection molding PA6 grade for highly rigid, dimensionally stable components which are resistant to high temperature aging and have improved retention of properties in a hot water environment.
Typical applications include automotive clutch and accelerator pedals.
Typical applications include automotive clutch and accelerator pedals.
| Mechanical properties | dry / cond | Unit | Test Standard |
| Tensile Modulus | 12600 / * | MPa | ISO 527-1/-2 |
| Stress at break | 188 / - | MPa | ISO 527-1/-2 |
| Strain at break | 2.9 / - | % | ISO 527-1/-2 |
| Charpy notched impact strength (+23°C) | 9.2 / - | kJ/m² | ISO 179/1eA |
| Thermal properties | dry / cond | Unit | Test Standard |
| Melting temperature (10°C/min) | 220 / * | °C | ISO 11357-1/-3 |
| Temp. of deflection under load (1.80 MPa) | 215 / * | °C | ISO 75-1/-2 |
| Electrical properties | dry / cond | Unit | Test Standard |
| Relative permittivity (1MHz) | 3.9 / 6.2 | - | IEC 60250 |
| Dissipation factor (100Hz) | 210 / 1900 | E-4 | IEC 60250 |
| Dissipation factor (1MHz) | 210 / 1900 | E-4 | IEC 60250 |
| Volume resistivity | 1E13 / 1E10 | Ohm*m | IEC 60093 |
| Surface resistivity | * / 1E10 | Ohm | IEC 60093 |
| Comparative tracking index | - / 450 | - | IEC 60112 |
| Other properties | dry / cond | Unit | Test Standard |
| Water absorption | 6.2 / * | % | Sim. to ISO 62 |
| Humidity absorption | 2 / * | % | Sim. to ISO 62 |
| Density | 1410 / - | kg/m³ | ISO 1183 |
| Rheological calculation properties | Value | Unit | Test Standard |
| Ejection temperature | 165 | °C | - |
| Test specimen production | Value | Unit | Test Standard |
| Injection Molding, melt temperature | 280 | °C | ISO 294 |
| Injection Molding, mold temperature | 80 | °C | ISO 10724 |
| Injection Molding, injection velocity | 200 | mm/s | ISO 294 |
Diagrams
Characteristics
Processing
Injection Molding
Delivery form
Pellets
Additives
Lubricants, Release agent
Special Characteristics
Heat stabilized or stable to heat
Regional Availability
Other text information
Injection molding
PREPROCESSING
Pre/Post-processing, Pre-drying, Temperature: 80 °C
Pre/Post-processing, Pre-drying, Time: 10 h
PROCESSING
injection molding, Melt temperature, range: 270 - 290 °C
injection molding, Melt temperature, recommended: 280 °C
injection molding, Mold temperature, range: 80 - 90 °C
injection molding, Mold temperature, recommended: 85 °C
Max. Water content: 0.10%
Product is supplied in sealed containers and
drying prior to moldin g is not required. If drying
becomes necessary, a dehumidifying or desiccant dryer
operating at 80 degC (176 degF) is recommended. Drying time is
dependent on moisture level, but 2-4 hours is generally
sufficient.
Further information concerning safe handling procedures
can be obtained from the Material Safety Data Sheet.
Alternatively, please contact your BASF representative.
PROCESSING
Melt Temperature 270-295 degC (518-563 degF)
Mold Temperatu re 80-95 degC (176-203 degF)
Injection and Packing Pressure 35-125 bar (500-1500 psi)
This product can be processed over a wide range of mold
temperatures; however, for applications where aesthetics are
critical, a mold surface temperature of 80-95 degC (176-203 degF)
is recommended.
Injection pressure controls the filling of the part and should
be applied for 90% of ram travel. Packing pressure affects
the final part and can be used effectively in controlling
sink marks and shrinkage. It should be applied and maintained
until the gate area is completely frozen off.
Back pressure can be utilized to provide uniform melt consistency
and reduce trapped air and gas. Minimal back pressure should be utilized to
prevent glass breakage.
Fast fill rates are recommended to insure uniform melt
delivery to the cavity and prevent premature freezing. Surface
appearance is directly affected by inject ion rate.
Pre/Post-processing, Pre-drying, Temperature: 80 °C
Pre/Post-processing, Pre-drying, Time: 10 h
PROCESSING
injection molding, Melt temperature, range: 270 - 290 °C
injection molding, Melt temperature, recommended: 280 °C
injection molding, Mold temperature, range: 80 - 90 °C
injection molding, Mold temperature, recommended: 85 °C
Max. Water content: 0.10%
Product is supplied in sealed containers and
drying prior to moldin g is not required. If drying
becomes necessary, a dehumidifying or desiccant dryer
operating at 80 degC (176 degF) is recommended. Drying time is
dependent on moisture level, but 2-4 hours is generally
sufficient.
Further information concerning safe handling procedures
can be obtained from the Material Safety Data Sheet.
Alternatively, please contact your BASF representative.
PROCESSING
Melt Temperature 270-295 degC (518-563 degF)
Mold Temperatu re 80-95 degC (176-203 degF)
Injection and Packing Pressure 35-125 bar (500-1500 psi)
This product can be processed over a wide range of mold
temperatures; however, for applications where aesthetics are
critical, a mold surface temperature of 80-95 degC (176-203 degF)
is recommended.
Injection pressure controls the filling of the part and should
be applied for 90% of ram travel. Packing pressure affects
the final part and can be used effectively in controlling
sink marks and shrinkage. It should be applied and maintained
until the gate area is completely frozen off.
Back pressure can be utilized to provide uniform melt consistency
and reduce trapped air and gas. Minimal back pressure should be utilized to
prevent glass breakage.
Fast fill rates are recommended to insure uniform melt
delivery to the cavity and prevent premature freezing. Surface
appearance is directly affected by inject ion rate.
Chemical Media Resistance
Disclaimer
The data contained in this publication are based on our current
knowledge and experience. In view of the many factors that may affect
processing and application of our product, these data do not relieve
processors from carrying out their own investigations and tests. Any
descriptions, drawings, photographs, data, proportions, weights etc.
given herein may change without prior information and do not constitute
the agreed contractual quality of the product. It is the responsibility
of the recipient of our products to ensure that any proprietary rights
and existing laws and legislation are observed. NO WARRANTIES OF ANY
KIND, EITHER EXPRESS OR IMPLIED, INCLUDING WARRANTIES OFMERCHANTABILITY
OR FITNESS FOR A PARTICULAR PURPOSE, ARE MADE REGARDING PRODUCTS
DESCRIBED OR DESIGNS, DATA OR INFORMATION SET FORTH, OR THAT THE
PRODUCTS, DESIGNS, DATA OR INFORMATION MAY BE USED WITHOUT INFRINGING
THEINTELLECTUAL PROPERTY RIGHTS OF OTHERS.
In order to check the availability of products please contact us or our
sales agency.
For more information about our products contact your local BASF
representative or
BASF SE
Dept. KS/KC
Fax: 0621-60-49497
e-mail: e-mail
CAMPUS® is a registered trademark of CWFG (Chemie
Wirtschaftsfoerderungsgesellschaft GmbH, Frankfurt)
knowledge and experience. In view of the many factors that may affect
processing and application of our product, these data do not relieve
processors from carrying out their own investigations and tests. Any
descriptions, drawings, photographs, data, proportions, weights etc.
given herein may change without prior information and do not constitute
the agreed contractual quality of the product. It is the responsibility
of the recipient of our products to ensure that any proprietary rights
and existing laws and legislation are observed. NO WARRANTIES OF ANY
KIND, EITHER EXPRESS OR IMPLIED, INCLUDING WARRANTIES OFMERCHANTABILITY
OR FITNESS FOR A PARTICULAR PURPOSE, ARE MADE REGARDING PRODUCTS
DESCRIBED OR DESIGNS, DATA OR INFORMATION SET FORTH, OR THAT THE
PRODUCTS, DESIGNS, DATA OR INFORMATION MAY BE USED WITHOUT INFRINGING
THEINTELLECTUAL PROPERTY RIGHTS OF OTHERS.
In order to check the availability of products please contact us or our
sales agency.
For more information about our products contact your local BASF
representative or
BASF SE
Dept. KS/KC
Fax: 0621-60-49497
e-mail: e-mail
CAMPUS® is a registered trademark of CWFG (Chemie
Wirtschaftsfoerderungsgesellschaft GmbH, Frankfurt)
The CAMPUS internet database is hosted by M-Base Engineering + Software GmbH.
M-Base Engineering + Software GmbH assumes no liability for the system to be free of errors.
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