Key areas of work

Welcome to the section on the development of composite materials, where our company, despite its small size, actively collaborates with laboratories and technical experts from ScottBader and TalTech for innovative development and implementation of technologies in the field of composite materials.

Research and development

Our team engages in thorough analysis of the properties of matrices and reinforcements used in composites. We operate with advanced modeling and analysis methods to optimize material compositions.

Manufacturing technologies

We strive to implement cutting-edge manufacturing technologies, such as automated processes and 3D printing methods. This is aimed at increasing efficiency, reducing costs, and ensuring a high standard of quality for produced composites.

Partnership with ScottBader

Collaboration with ScottBader provides us access to outstanding expertise and resources in the development of composite materials. We integrate this experience into our projects to create innovative products.

Testing and performance evaluation

Comprehensive testing of materials is an integral part of our development process. We conduct extensive tests to assess the strength, durability, and other characteristics of our composite materials.

Customized solutions for clients

We develop composite materials, taking into account specific market requirements and client requests. This includes individual approaches to compositions and manufacturing technologies.

Focus on technical market requirements

By analyzing technical market requirements, we create materials that meet current and future needs in various industries.

Product development process

We invite you to join our technical team, where every day we refine the production of composite materials, combining a scientific approach with engineering solutions based on modern technologies.

1. Identification of market and customer needs

  • Conduct market analysis to determine current requirements and trends in composite materials.
  • Gather feedback from customers and partners to identify specific needs and issues.

2. Definition of technical requirements

  • Establish technical parameters and characteristics that the new product must provide.
  • Develop a technical specification, including requirements for strength, weight, heat resistance, and other properties.

3. Research and development

  • Conduct laboratory research to select optimal compositions of matrices and reinforcements.
  • Develop and model prototypes of new materials using advanced technologies.

4. Prototypes testing

  • Conduct extensive tests to assess the physical, chemical, and mechanical properties of prototypes.
  • Analyze test results and make adjustments to the material composition as needed.

5. Design of production process

  • Develop an optimal production process, including the selection of equipment and technologies.
  • Consider the efficiency and scalability of the production of the new material.

6. Technology implementation

  • Organize test production to demonstrate the functionality and scalability of the technology.
  • Conduct pilot production cycles and optimize the process.

7. Monitoring and optimization

  • Systematically monitor production and gather feedback from customers.
  • Make changes and improvements to the technology and product based on acquired experience.