Case study
Lighting future: Crafting identity through headlamp design
The front of a vehicle defines identity and intent. The FrontIQ Light Concept by LEONHARD KURZ reimagines headlamp design through Makrofol® UV503—Covestro's UV-stabilized polycarbonate film — delivering exterior decoration and integrated automotive lighting in a single 3K injection molding process.
OEMs are facing converging requirements in exterior automotive lighting: distinctive brand identity, deeper functional integration, lower CO₂ footprint, and higher recycled content—without disrupting established production processes.
The objective of the FrontIQ Light Concept was to develop a fully integrated headlamp architecture that combines premium lighting design, advanced optical functionality, and more sustainable manufacturing—validated under real production conditions and based on materials suitable for series applications.
To address these sustainability demands, the FrontIQ Light Concept integrates decoration, injection molding, and surface protection into a single step—eliminating subsequent painting and hard-coating processes. Compatibility with recycled-content polycarbonate grades is available on request.
Developed in close collaboration between Covestro, LEONHARD KURZ, Schöfer and KraussMaffei, the concept demonstrates how design expressiveness and lighting precision can be realized within a single, scalable solution. The resulting architecture is adaptable across vehicle platforms and automotive lighting strategies.
The objective of the FrontIQ Light Concept was to develop a fully integrated headlamp architecture that combines premium lighting design, advanced optical functionality, and more sustainable manufacturing—validated under real production conditions and based on materials suitable for series applications.
To address these sustainability demands, the FrontIQ Light Concept integrates decoration, injection molding, and surface protection into a single step—eliminating subsequent painting and hard-coating processes. Compatibility with recycled-content polycarbonate grades is available on request.
Developed in close collaboration between Covestro, LEONHARD KURZ, Schöfer and KraussMaffei, the concept demonstrates how design expressiveness and lighting precision can be realized within a single, scalable solution. The resulting architecture is adaptable across vehicle platforms and automotive lighting strategies.
Conventional headlamp manufacturing relies on multiple sequential steps—film insert molding (FIM), thermoforming, painting, laminating, and/or hard coating. Each operation adds energy consumption, material waste, cost, and quality risk.
At the same time, the FrontIQ headlamp needs to integrate multiple functions within one transparent optical cover:
• Dynamic direction indicators and automated driving status signals
• Segmented communication lighting for interaction with other road users
• Holographic carbon structures as a brand‑defining visual element
• Full geometric flexibility for platform‑independent vehicle integration
All of this must be achieved while maintaining long-term UV resistance, optical clarity, outdoor weatherability, and compatibility with a single step 3K injection molding process. The simultaneous fulfillment of these optical, mechanical, durability, and processing requirements place stringent demands on film material selection.
At the same time, the FrontIQ headlamp needs to integrate multiple functions within one transparent optical cover:
• Dynamic direction indicators and automated driving status signals
• Segmented communication lighting for interaction with other road users
• Holographic carbon structures as a brand‑defining visual element
• Full geometric flexibility for platform‑independent vehicle integration
All of this must be achieved while maintaining long-term UV resistance, optical clarity, outdoor weatherability, and compatibility with a single step 3K injection molding process. The simultaneous fulfillment of these optical, mechanical, durability, and processing requirements place stringent demands on film material selection.
The FrontIQ Light Concept shows how targeted material innovation can eliminate conventional trade‑offs between design freedom, exterior durability, and manufacturing efficiency.
Traditional headlamp design covers depend on external hard-coat layers to achieve long-term UV resistance. Makrofol® UV503 integrates UV-stabilizing functionality directly within the polycarbonate matrix. In the FrontIQ 3K process, an inline PUR flood coating (K3, supplied by Rühl Puromer) provides additional surface protection and self-healing behavior. Together, the UV-stabilized film and PUR layer replace multiple conventional coating and finishing steps—while meeting exterior durability and weathering requirements. Unlike external hard coatings, the intrinsic UV stability of Makrofol® UV503 does not degrade or delaminate over the vehicle lifetime, supporting cost efficiency in the integrated automotive lighting manufacturing process.
The FrontIQ lighting choreography—direction indicators, automated driving signals, communication lighting, holographic carbon signatures—relies on precise light transmission through the front cover. Makrofol® UV503 provides tightly controlled translucency and stable optical properties, ensuring that thin-film decorations by KURZ and the crystal-based lighting system remain visually crisp and functionally precise throughout the vehicle lifetime.
Makrofol® UV503 is formed three-dimensionally directly inside the mold using KURZ’s VARIOFORM® sheet-to-sheet technology. This requires uniform deformation under controlled heat and vacuum, conformity to complex geometries, and seamless integration into subsequent injection steps:
• K1: Transparent polycarbonate layer
• K2: Black PC/ABS structural frame
• K3: Inline PUR surface coating
The Makrofol® UV503 film, printed and cut by KURZ, is placed into the mold at the very beginning of the process and back injected with the first component K1. In the final step, the K3 PUR coating is applied directly over the film, sealing and protecting it against environmental influences.
Crucially, Covestro polycarbonate films have a long track record for automotive exterior and interior applications. As an AMECA*-listed film grade, Makrofol® UV503 builds on this heritage with enhanced UV performance for exterior lighting.
*Automotive Manufacturers Equipment Compliance Agency.
• K1: Transparent polycarbonate layer
• K2: Black PC/ABS structural frame
• K3: Inline PUR surface coating
The Makrofol® UV503 film, printed and cut by KURZ, is placed into the mold at the very beginning of the process and back injected with the first component K1. In the final step, the K3 PUR coating is applied directly over the film, sealing and protecting it against environmental influences.
Crucially, Covestro polycarbonate films have a long track record for automotive exterior and interior applications. As an AMECA*-listed film grade, Makrofol® UV503 builds on this heritage with enhanced UV performance for exterior lighting.
*Automotive Manufacturers Equipment Compliance Agency.
On request, the FrontIQ process is compatible with post-consumer recycled (PCR) polycarbonate grades, enabling design freedom without sacrificing performance. Covestro offers TÜV Rheinland-certified PCR polycarbonates with up to 50% recycled content, derived from end-of-life automotive headlamps, supporting a genuine headlamp-to-headlamp circular value chain. The FrontIQ architecture accommodates these materials without requiring changes to tooling or processing parameters.
3K IMD process: FrontIQ Light Concept by LEONHARD KURZ integrating Makrofol® UV503
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3K IMD process: FrontIQ Light Concept by LEONHARD KURZ integrating Makrofol® UV503.
Makrofol® UV503 was selected for the Front Light Concept based on its combination of exterior durability, optical performance, and seamless integration into a 3K in‑mold process. Its AMECA qualification provides confidence for OEM validation and supports a clear path toward series production.
Key benefits
- Heating compatibility: Compatible with embedded heating elements for seamless de-icing and anti-fogging.
- Design freedom: Excellent printability enables precise brand-specific light signatures and depth.
- UV resistance: Built-in UV stabilization ensures long-term resistance to weathering.
- AMECA-certified: Makrofol® UV503 meets AMECA requirements, accelerating OEM exterior-lighting validation.
- Optical stability: Stable glaze and haze performance over vehicle lifetime, reducing steps and cost.