KEBABLEND / EC FE 210204 PA66 (DB) (development product*)
KEBABLEND / EC FE 210204 PA66 (DB) is a dryblend material based on PA 6.6 . The material was specially developed for applications in the field of electrical engineering and is very well suited for shielding electromagnetic fields. A large application potential lies in the substitution of metal housings (metal replacement/lightweight construction) with regard to EMC-compliant component design. As a housing material, KEBABLEND / EC FE 210204 PA66 (DB) offers the advantage of electromagnetic shielding even in the high-frequency range, without additional surface treatments.
PA 6.6 - KEBABLEND
Details
KEBABLEND is a wide range of functional compounds, often tailor-made to customer requirements. Under the trade name KEBABLEND, we market magnetizable, thermally or electrically conductive compounds, high-density injection molding materials, compounds for radiation protection applications, detectable plastics and much more.
ISO designation
- PA666-GF-MEF
Typical areas of application
- Covers
- Cover
- Electronic components
- Housing
- industrial goods
- Pumps and motors
Industry sectors
- Automotive
- Electrical and electronics industry
- Household appliances
- Industry
- Mechanical Engineering
properties
- antistatic
- electrically conductive
- good chemical resistance
- Good electrical properties
- good aging behavior
- semi-crystalline
Overview of product features
Mechanical properties
Thermal properties
Pre-drying:
Dryer type: dry air dryer
Temperature: 80°C
Drying time: 4 – 8 h
Target moisture content: <0,1%
Recommended basic settings:
Melt temperature: 275 – 300°C
Mold temperature: 80 – 120°C
Injection speed: medium – high
Back pressure (spec.): 30 – 70 bar
Machine selection:
Wear protection: wear and corrosion protected according to machine manufacturer’s recommendation suitable for processing highly filled compounds
Injection unit: Shot volume = 50-80% of maximum metering volume
Further important processing information:
The residence time of the melt in the screw antechamber should be kept as short as possible. If this is not observed, segregation can occur due to the large difference in density between the filler and the substrate if the downtimes are too high. The ideal here is metering time = cooling time. A medium back pressure leads to optimum homogenization. Due to the high filler content, the spraying equipment must be equipped with wear and corrosion protection.
Legal notice
The information in this data sheet is based on our current knowledge and experience. Due to the wide range of possible influences during processing and application of our products, they do not exempt the processor from carrying out his own tests and trials. A legally binding assurance of certain properties or suitability for a specific application cannot be derived from our information.
* FE products are development products which are still in the trial phase. Technical data may still change in the course of product and process development. No final decision has yet been made on the commercialization of FE products. We reserve the right to discontinue the manufacture of FE products without giving further reasons.
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