Database providing access to the High Technology Network's industrial research offering: research competences, type of analyses and tests available at the Laboratories. Companies can consult the Catalogue to find Laboratories and researchers that match their needs.
Competence
Acquisition and pre-processing of signals for model identification
Additive manufacturing processes (3D printing, SLA rapid prototyping, etc.)
Analysis of standards and regulations: laws and guidelines for protected, biological raw material, and processing
Cladding
Continuous-time and discrete-time mathematical modeling of systems and processes
Conventional welding processes (arc, TIG, MIG / MAG, resistance, etc.)
Design of new molecular markers for traceability of specific varietal components
Discrete events mathematical modeling of systems and processes
Evaluation of molecular transformations during food processing
Finite element simulation (FEM)
Food traceability by evaluation of functional components
Food traceability by genetic analysis
Food traceability by spectroscopic techniques, NMR, proteomic and peptidomic methods for the identification of ingredients or contaminants
Formal languages for systems modeling (Unified Modeling Language-UML and SysML-System Modeling Language)
Generation and optimization of the part program
Genetic methods for varietal identification
Heat treatments of conventional and not conventional metal alloys
Identification of models and parameters estimation
Infinite-dimensional mathematical modeling of systems
Machining processes for metal removal (turning, milling, drilling, reaming, broaching, grinding, etc.)
Massive deformation processes (forging, pressing, rolling mill, extrusion, drawing, etc.)
Melting processes (in sand, in shell, die casting, investment casting, etc.)
Methods for the specific and varietal identification based on single components within blends
Microprocessing (micro-milling, -drilling, -laser, -waterjet, etc.)
Modeling of the collision of bodies in mechanical systems
Molecular characterization of DNA, protein, peptides and metabolites
Non-conventional machining processes (laser, plasma, waterjet, chemical and electrochemical , ultrasonic, electrical discharge, etc.)
Non-parametric modeling (neural networks, etc.)
Optimization of energy consumption
Processes of ceramic materials production / machining (massive, dense / porous, thick films, etc.)
Processes of powder sintering
Processes of production / machining of products in glass
Processes of production / machining of products in polymer materials
Processes of production / machining of products of composite materials
Processes of recovery and recycling of materials / products
Production planning (cell and processing lines configuration, scheduling, reconfigurability, adaptivity, lean production, etc.)
Regulation on GMOs and labelling
Reliability and quality of the finished product / process
Sheet metal forming processes (stamping, cutting, bending, hydroforming, etc.)
Simulation for discrete events models