We are passionate about developing your products


Product Development

Depending on customer need and product nature, we bring our capabilities together and can assist you thru parts or whole product development process i.e. brainstorming, concept design, prototype manufacturing, product verification, validation and industrialization.

We also manage complete product development projects and take fully responsibility for bringing your product to market.

Industrial Design

Together with our partners we offer unique product shapes that integrate human factors, usability and design configurations to achieve the optimal user experience.

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Mechatronics Mechatronics

Mechatronics engineering

As todays products are getting smarter, more versatile, and is often connected to IT-services, the technical solutions become undoubtedly more complex with integrated mechanical, electrical and software design. Today’s engineers must master many engineering areas with higher excellence in each area.

We offer excellence in a wide range of areas, as our product developers is highly skilled within the mechatronic engineering, including mechanical engineering/design within electronic systems, control systems and IT-services.

We are also working closely with external partners such as industrial designers and manufacturers for a complete offering of services from idea to ready to use product.

Our engineers are also trained to handle a range of different CAD/CAE systems, PDM systems and uses the robust design methodology as a backbone for all product design

Simply, Seamless Design!

Our Capabilities

  • Brainstorming and idea generating
  • Conceptual design & visualization
  • Rapid prototypes
  • Virtual/physical feasability studies
  • Feasability/Sensibility studies
  • Design optimizing
  • Mechanical engineering
  • Structural engineering
  • Mechatronics for highly complex embedded systems
  • Electrical engineering
  • Software engineering
  • Verification and validation testing

Our material­/­technology knowledge base

Steel and lightweight metal alloys

Termoset and Thermoplastics

Injection moulded polymers


Composite structures

Cast aluminium / Steel

Welded structures

Sheet metal design

Wooden structures

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Simulations & Calculations

Structural analysis, deformation and stress analysis is extremely beneficial in manufacturing scenarios where cost, material, weight, strength need to be optimized or where safety factors need to be determined.

We perform structural analysis with compliance to Eurocode package EN 1993 and crane safety regulations EN13001 and compliance to other standard like BSK, ASME, PED and EN 13445. We perform also complex motion analysis predicting effects of dynamics and collision on structural integrity and machine stability. Failures can be predicted or investigated using linear and non-linear buckling analysis.

Structural analysis gives not only design confidence and product reliability but can together with design optimization give important benefits like less carbon footprint and technology head start before your competitors.

Fatigue and durability analysis

The majority of structural failures occur from fatigue which occurs when a material is subjected to time-varying loads. If the loads are above a certain threshold, microscopic cracks begin to form at the stress concentrators. Eventually a cracks will reach a critical size and will propagate suddenly, thus structural fractures and failures. The lifetime of the structures can be pre-longed by correct design and/or surface treatments, but the lifetime is not for eternity and a failure may have big consequences. Time-varying loads may also lead to vibrations and noise emissions if not properly damped.

We offer fatigue analysis for your product durability challenges in order to predict lifetime of component with respekt to required safety factors. This increases reliability and optimizes the maintenance intervals. Depending on component nature and application we can also optimize component geometry or its surroundings in order to increase the damping and thus both prolong lifetime and also reduce vibrations and noise emissions.

Our engineers are also trained to handle a range of different CAD/CAE systems, PDM systems and uses the robust design methodology as a backbone for all product design.

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Fluid & Thermo dynamics analysis

CFD is a simulation technique that mathematically simulates fluid flow and heat transfer.Thermodynamics analysis can be applied to a wide range of products such as heat sinks, heat exchangers, PCB, LED bulbs, solar heating application, human comfort applications, aerodynamic applications and many more.

We perform both steady state and transient thermodynamic analysis that gives crucial information about the product performance, life time and operating condition. CFD is becoming a tool of choice in many competitive markets, whether it´s an aerodynamic application reducing drag or a liquid flow application reducing turbulence, a CFD analysis can make all the difference for your product.

Applying these methods in a correct manner brings your product faster to market, reduce of development costs and ensures compliance to legal demands.

Quality Assurance

Traditional Six Sigma seeks for continuous improvement after a process or a product already exists. The DMAIC (Define, Measure, Analyze, Improve and Control) improvement cycle is the core tool used to drive improvement projects usually after initial system or product design and development have been largely completed.

We are certified six sigma black belts which liketo be ahead and save both time, money and customer dissatisfaction. Therefore we practice Design For Six Sigma (DFSS) and use the methodology as a backbone already in our design process in order to achieve robust designs and avoid quality and manufacturing/service process problems.

We use both physical and virtual Design of Experiments (DOE) in order to explore the design space and find the global optimum that fulfills all requirements.

Geometrical dimension and tolerances (GD&T) are one of the most obvious and complex quality features, always balancing between high cost and low quality, which often is shown when changing supplier och manufacturing process.

We use statistical methods and tools for complex tolerance chains analysis in order to achieve robust design recipe while also arriving at a ”thoughtful allocation of economic tolerances”. The process is best employed early in the Design/Development process when it is still possible to change nominal geometry in order to desensitize the design to variation.