An experienced rubber extrusion supplier must combine materials science, process control and industrial insight. Formgummigruppen exemplifies how Nordic manufacturing expertise meets modern demands for precision, flexibility and sustainable production.
A specialized industry with broad industrial relevance
Rubber components are rarely visible in finished products, yet they are essential to performance, safety and durability across sectors from automotive to energy infrastructure. According to a industry study, the European rubber manufacturing sector generates approximately €100 billion in annual revenue and employs over 500,000 people. This highlights that although rubber parts may be inexpensive, their failure can shut down entire systems. That is why the role of a rubber extrusion supplier has shifted from subcontractor to a strategic partner.
Formgummigruppen: six decades of industrial continuity
The Swedish manufacturer Formgummigruppen represents a model of long-term industrial specialization. With roots dating back to 1954, the company has accumulated more than 60 years of experience in manufacturing customized rubber components for Nordic industry. Operating production facilities in both Sweden and Estonia, the company combines regional proximity with scalable manufacturing.
Rubber extrusion as a core supplier capability
At the heart of Formgummigruppen’s offering lies extrusion, which is one of the most critical processes in elastomer manufacturing. In extrusion, raw rubber compounds are forced through a die to produce profiles with a consistent cross-section.
Extruded profiles in industrial applications
Rubber strips, often referred to as extruded rubber profiles, are a common type of extruded component, manufactured in various lengths and tailored to specific geometries such as U-, T-, L- and Z-shaped profiles. Each profile type serves a specific function. Sealing strips prevent air, water, dust and noise from entering joints, while edge protection strips reduce wear and mechanical damage. Other profiles, such as glass run channels, are used to secure and seal materials within assembled systems.
From raw material to engineered function
Formgummigruppen’s strength lies in its vertically integrated production, managing the full process from tooling and material selection to final machining. This enables strong control over quality and lead times while supporting engineering-driven manufacturing, from application analysis and material selection to process choice and final post-processing.
Material science as a competitive advantage
Formgummigruppen works with a broad spectrum of elastomers, which allows the company to operate across industries such as construction, automotive, process industries and medical technology.
EPDM
Offers excellent resistance to weathering and UV radiation and is commonly used in façade sealing systems exposed to long-term outdoor conditions. It is also widely applied in automotive door and window seals, as well as in HVAC and ventilation gaskets.
Silicone
Performs reliably under extreme temperatures and hygienic conditions, making it suitable for food-grade and pharmaceutical sealing components. It is also commonly used in medical devices, sterile environments and high-temperature industrial equipment.
Neoprene
Provides strong durability in oil- and chemical-rich environments and is often used in industrial machinery gaskets exposed to oils and greases. It is also applied in protective bellows, flexible couplings and marine or offshore sealing systems.
Butyl rubber
Ensures low gas permeability, making it ideal for airtight sealing systems in construction and glazing. It is also used in vibration damping and acoustic insulation applications, as well as in inner liners and pressure-retaining seals.
Industrial trends shaping rubber extrusion
According to EU-related industry data, growth remains stable, although influenced by sustainability requirements and supply chain pressures. Several trends are particularly relevant and Formgummigruppen’s regional production model and focus on long-life components align closely with them.
Sustainability and circularity
Formgummigruppen supports longer product lifecycles through durable elastomer solutions designed to reduce replacement frequency and material waste, rather than relying on short-lived components.
Shorter supply chains
With production in both Sweden and Estonia, Formgummigruppen enables regional manufacturing and closer proximity to European customers, reducing lead times and transport dependency.
Higher technical demands
The company works with application-specific engineering, ensuring tight tolerances, consistent extrusion quality and material selection adapted to demanding operating environments.
Sweden’s role in the European rubber ecosystem
Operating within Sweden’s high-value manufacturing landscape, Formgummigruppen is part of a national industry that prioritizes precision and performance over volume. According to Statistics Sweden (SCB), the country’s rubber and plastic products industry generated over €5.5 billion in turnover in 2023, reflecting stable growth in recent years.
At the same time, data reported to Eurostat shows that producer price levels for rubber products in Sweden are relatively high compared to the Euro area. This reflects a focus on advanced, higher-margin manufacturing rather than commodity production, where companies like Formgummigruppen compete through custom solutions and engineering expertise.
5 benefits of partnering with a rubber extrusion expert
Suppliers in today’s rubber industry are no longer defined solely by production capacity, but by its ability to support design decisions, material selection and long-term performance optimization. Formgummigruppen positions itself as a development partner rather than a subcontractor, engaging early in the engineering process.
This approach creates clear advantages for customers:
- Faster and more reliable development phases through early engineering involvement and design input.
- Improved component performance by aligning material selection with real operational conditions.
- Reduced risk of failure in demanding environments involving heat, chemicals or dynamic loads.
- More efficient lifecycle costs through longer-lasting and better-optimized rubber components.
- Flexible production scaling from prototypes to series production without losing process control.
