Online-paintable fuel filler flap made from PBT
- Cost-effective alternative to high-performance thermoplastics
- Can potentially also be used in flaps for electric vehicles
- Comprehensive customer service HiAnt for component development
CologneJuly 02, 2019
Customized compounds based on polybutylene terephthalate (PBT) can be a cost-effective alternative to high-performance thermoplastics in the production of fuel filler flaps. This can be seen in the new Skoda Scala, for example, whose fuel filler flap is made from Pocan B5221XF. The PBT compound was given preference over a blend of polyphenylene ether and polyamide (PPE+PA). “Our material is less expensive and exhibits comparable performance when it comes to surface quality, paintability and mechanical properties. In addition, it is suitable for electrostatic painting. It is also paintable online, which means that it can pass through all painting steps together with the vehicle body without any further outlay. This also contributes to cost-effective production,” says Dr. Stefan Theiler, who is an expert in plastic exterior parts in application development in the LANXESS High Performance Materials (HPM) business division. The plastic vehicle body component was jointly developed by Skoda, a TIER1 and LANXESS.
High dimensional accuracy, minimal warpage
Pocan B5221XF (Xtreme Flow) has been optimized to ensure good paintability and paint adhesion. Depending on the tool, smooth surfaces without unsightly sink marks can be achieved (Class A surface). The material is also suitable for electrostatic painting. When it comes to paint adhesion, standard OEM requirements – such as those defined in delivery regulations TL 211 from Volkswagen and DBL5416 from Daimler – are fulfilled. The paint layers adhere firmly to the plastic surface and can withstand the usual adhesion tests such as the cross-cut test to DIN EN ISO 2409 and steam-jet test to DIN EN ISO 16925.
The material, which is reinforced with 20 percent micro glass beads, exhibits isotropic shrinkage and a minimized tendency to warpage. This means that the fuel filler flap fits in perfectly with the rear fender. “This gives it the edge over polyamide blends, which are less dimensionally stable due to the tendency of polyamide to absorb water,” says Theiler.
Capable of withstanding the high temperatures of cathodic dip-coating
Another advantage of the PBT material is its high resistance to short-term temperatures. The heat distortion temperature as per ISO 75-1,-2 (HDT/B, 0.45 MPa) is 165°C, which means that the fuel filler flap can withstand the high temperatures that arise during both cathodic dip coating of the vehicle body and the drying steps of the painting process. As a result, the component can pass through the entire painting line together with the vehicle body (online painting). “This helps to cut costs during painting and in the logistics processes,” says Theiler. By contrast, mineral-filled PBT or PA compounds – which are also used for manufacturing fuel filler flaps – are not compatible with cathodic dip coating processes.
The extreme toughness of the PBT compound from LANXESS is yet another advantage, making the fuel filler flap highly robust against mechanical deformation (e.g. in the event of vandalism). Theiler: “Gasoline and diesel thieves will find it really hard to prise the flap open, even if they use force.”
Broad application potential
Pocan B5221XF can be processed at lower temperatures than (PPE+PA) blends. Its high flowability makes it easier to realize complex or large component geometries. “In addition to fuel filler flaps, we also envisage our material being used for exterior body parts such as spoilers and other components designed to improve vehicle aerodynamics as well as in antenna covers, flaps for electric vehicles and mirror housings,” says Theiler.
HiAnt – customer service that pays for itself
Through its engineering service HiAnt, LANXESS provided Skoda with comprehensive support in the development of the fuel filler flap. Under this brand, HPM has combined its expertise in material, application, process and technological development. For the fuel filler flap, for example, HPM conducted mold flow and warpage simulations in order to achieve the best-possible tool design and optimize the production process. Theiler: “Our aims here included correctly positioning the cooling ducts in the injection molding tool, defining the ideal parameters for tool tempering and calculating the optimum melting temperature.” In addition, HPM simulated critical load cases during component testing, such as the forceful opening of a sealed fuel filler flap in a body drop test. During the sampling process and start of series production, processing experts from HPM went directly to the injection molders and gave them recommendations for process parameters, reworking the tool (e.g. regarding gating and cooling system) and ventilation.
High dimensional accuracy, minimal warpage
Pocan B5221XF (Xtreme Flow) has been optimized to ensure good paintability and paint adhesion. Depending on the tool, smooth surfaces without unsightly sink marks can be achieved (Class A surface). The material is also suitable for electrostatic painting. When it comes to paint adhesion, standard OEM requirements – such as those defined in delivery regulations TL 211 from Volkswagen and DBL5416 from Daimler – are fulfilled. The paint layers adhere firmly to the plastic surface and can withstand the usual adhesion tests such as the cross-cut test to DIN EN ISO 2409 and steam-jet test to DIN EN ISO 16925.
The material, which is reinforced with 20 percent micro glass beads, exhibits isotropic shrinkage and a minimized tendency to warpage. This means that the fuel filler flap fits in perfectly with the rear fender. “This gives it the edge over polyamide blends, which are less dimensionally stable due to the tendency of polyamide to absorb water,” says Theiler.
Capable of withstanding the high temperatures of cathodic dip-coating
Another advantage of the PBT material is its high resistance to short-term temperatures. The heat distortion temperature as per ISO 75-1,-2 (HDT/B, 0.45 MPa) is 165°C, which means that the fuel filler flap can withstand the high temperatures that arise during both cathodic dip coating of the vehicle body and the drying steps of the painting process. As a result, the component can pass through the entire painting line together with the vehicle body (online painting). “This helps to cut costs during painting and in the logistics processes,” says Theiler. By contrast, mineral-filled PBT or PA compounds – which are also used for manufacturing fuel filler flaps – are not compatible with cathodic dip coating processes.
The extreme toughness of the PBT compound from LANXESS is yet another advantage, making the fuel filler flap highly robust against mechanical deformation (e.g. in the event of vandalism). Theiler: “Gasoline and diesel thieves will find it really hard to prise the flap open, even if they use force.”
Broad application potential
Pocan B5221XF can be processed at lower temperatures than (PPE+PA) blends. Its high flowability makes it easier to realize complex or large component geometries. “In addition to fuel filler flaps, we also envisage our material being used for exterior body parts such as spoilers and other components designed to improve vehicle aerodynamics as well as in antenna covers, flaps for electric vehicles and mirror housings,” says Theiler.
HiAnt – customer service that pays for itself
Through its engineering service HiAnt, LANXESS provided Skoda with comprehensive support in the development of the fuel filler flap. Under this brand, HPM has combined its expertise in material, application, process and technological development. For the fuel filler flap, for example, HPM conducted mold flow and warpage simulations in order to achieve the best-possible tool design and optimize the production process. Theiler: “Our aims here included correctly positioning the cooling ducts in the injection molding tool, defining the ideal parameters for tool tempering and calculating the optimum melting temperature.” In addition, HPM simulated critical load cases during component testing, such as the forceful opening of a sealed fuel filler flap in a body drop test. During the sampling process and start of series production, processing experts from HPM went directly to the injection molders and gave them recommendations for process parameters, reworking the tool (e.g. regarding gating and cooling system) and ventilation.
LANXESS is a leading specialty chemicals company with sales of EUR 6.7 billion in 2023. The company currently has about 12,400 employees in 32 countries. The core business of LANXESS is the development, manufacturing and marketing of chemical intermediates, additives and consumer protection products. LANXESS has achieved leading positions in the Dow Jones Sustainability Index and the MSCI ESG and ISS ESG ratings, among others, for its commitment to sustainability.
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