Cost analysis
Cost of Operations Management (BOM) analysis, from the raw materials component to the production processes of materials/devices, with an emphasis on optimizing production costs.
Cost of Operations Management (BOM) analysis, from the raw materials component to the production processes of materials/devices, with an emphasis on optimizing production costs.
Design and development of components geared towards the industrial manufacturing processes for which they are intended, as well as the planning and conception of strategies aimed at optimizing resources at all stages of production.
Development and study of industrial process validation setups aimed at improving production efficiency and reducing industry costs.
Complete monitoring solutions for integration into industrial equipment and/or processes, aiming at the integration of digital technologies and traceability of materials, processes, and devices.
Development and study for the carbon neutrality of materials and processes with applications in the healthcare sector, including: industrial symbiosis, valorization of industrial and/or post-consumer waste/by-products, energy optimization of manufacturing and industrial processes. Conducting and supporting sustainability analyses. (Development and study of alternative processes for the development of raw materials, materials and products - new, more sustainable synthesis processes. Energy optimization of manufacturing and industrial processes.)
Creation of proof-of-concept tests, prototypes, and study models for validating systems developed specifically for the products created, based on the necessary requirements for future industrial production.
Numerical simulation studies (e.g., thermal, electrical, mechanical, electromagnetic, optical, fluidic) for usability testing.
Capacity to develop pre-series production of various solutions (nanomaterials, coatings, functional fibers, sensors and printed electronics, composites, hardware) at pilot and/or industrial scale.
The use of process validation tools aimed at optimizing selected industrial manufacturing techniques, with the goal of achieving the best possible performance throughout the manufacturing stages, minimizing, for example, the occurrence of defective material production and reducing energy and raw material consumption.