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Composite springs for mobility systems and high-performance vibration

Up to 70% lighter than steel. Engineered for precision machinery, automotive and advanced industrial applications.
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Who We Are

Deep-tech suspension innovation​

Weight reduction Lower system mass supports efficiency and dynamic optimization.
Design freedom Composite architecture enables application-oriented tuning.
Modern integration Suitable for advanced mobility platforms and test environments.
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Composite Spring Platform

Composite Spring is positioned as a next-generation engineering platform for lightweight dynamic systems.
  • Up to 70%
  • Corrosion-free
  • Tunable response
  • Mobility + test systems
The Engineering Challenge

Why replace steel springs?

Conventional spring solutions remain effective, but in many modern systems they create constraints in weight, corrosion resistance, lifecycle, and performance tuning.

Excessive mass​

Higher mass affects energy use, range, handling, and overall system efficiency.​

Corrosion risk​

Steel components are exposed to degradation in outdoor, humid, and chemically demanding environments.​

Limited tuning flexibility​

Traditional material systems offer narrower possibilities for tailoring mechanical behavior.

Integration constraints​

Lightweight products increasingly require components designed around system optimization, not legacy standards.​

INNOVATION!

Start your configuration and request a prototype

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Applications

built for dynamic systems​

The platform is intended for systems where mass, durability, and controlled response influence product value, performance, and operating reliability.

Vibration tables & test systems

Dynamic systems used in testing may benefit from mass optimization and frequency-oriented tuning possibilities.

tunable response for selected dynamic conditions
use-case relevance for engineering test rigs
clear B2B entry point for pilot validation
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Automotive & EV platforms

In vehicle development, every mass-saving opportunity matters. Composite spring architecture can support future integration concepts.

lightweight vehicle component strategy
innovation opportunity for OEMs and Tier suppliers
potential for targeted pilot programs
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Bikes & e-bikes

Lower mass can contribute to range, performance, and premium product positioning in high-value mobility segments.

reduced weight for advanced bicycle systems
premium suspension differentiation
strong fit for innovation-oriented brands
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Motorcycles & scooters

The concept may support reduced unsprung mass, durability in outdoor use, and technical distinctiveness.

lighter suspension-oriented components
corrosion-free use profile
engineering value for next-gen mobility platforms
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Trusted by world-class brands and organizations of all sizes

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    Engineering Tool

    Composite Spring Configurator

    Define your application, technical targets and operating environment to qualify your project.

    Application
    Parameters
    Environment
    Project
    Project Readiness
    25%

    Select application

    Define technical targets

    Operating environment

    Moisture, condensation or outdoor exposure.
    Exposure to chemicals, acids or bases.
    Weight reduction is a critical driver.
    Frequent oscillatory or impact loads.

    Project & Lead details

    Engineering summary ready

    Engineered composite spring technology

    Fully composite structural concept

    The spring is designed as an advanced composite structure rather than a simple replacement of steel geometry. This opens the door to new design logic and application-specific tuning.

    Materials approach

    Explore the technology

    Built for dynamic systems

    The platform is intended for systems where mass, durability, and controlled response influence product value, performance, and operating reliability.

    Performance principles 

    See applications
    Let’s build the next generation of spring systems​
    Whether you are evaluating a new product direction, looking for a lightweight suspension concept, or searching for an innovation partner, we are open to technical and commercial discussions.
    Technical Support
    Request pitch deck

    Built for collaboration

    The most valuable next step is not passive browsing, but a focused conversation around application fit, pilot implementation, and commercialization model.

    Who we want to work with

    • OEM manufacturers
    • advanced mobility brands
    • R&D and engineering partners
    • test system producers
    • companies exploring licensing opportunities
    Partnership model

    Preferred collaboration formats

    • technical discovery meetings
    • pilot or feasibility projects
    • co-development discussions
    • industry validation partnerships
    • commercialization and licensing talks
    Start a conversation
    Suggested topics: technical fit, validation pathway, pilot potential, co-development, commercialization, licensing.
    Free Consultations

    Let’s build the next generation of spring systems​

    Whether you are evaluating a new product direction, looking for a lightweight suspension concept, or searching for an innovation partner, we are open to technical and commercial discussions.
    Customer Support

    +48 506 062 362

    Email Support

    email@compositespring.com