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Fondo Unico Regionale - POR FESR 2014-2020 Asse IV - Azione 4.1.1. “Sostegno agli investimenti per l’efficienza energetica e l’utilizzo delle fonti di energia rinnovabile”. Bando 2015

 

Energy efficiency project company production system through 4 interventions:
1) Introduction No. 2 new variable speed rotary compressors Ingersoll Rand Nirvana R75n AC-D and IRN15K-TAS with very high energy efficiency;
2) Introduction n.1 Robotically automated NORBLAST shot peening plant with very high energy efficiency for peening of complex aeronautical details;
3) Introduction n.1 High efficiency paintwork system with manual air conveyor with pneumatic exchanges;
4) Replacing traditional fluorescence units of the production unit with new LED technology lighting fixtures.

 

Fondo unico regionale per le attività produttive e POR FESR 2014-2020. Asse I Azione 1.1.1. Bando a sostegno dei progetti di Ricerca industriale e sviluppo sperimentale Annualità 2015.

Study and development of a highly efficient controlled shot peening process for complex geometry components

“FIERA AIRTEC MONACO DI BAVIERA 2016 – Partecipazione alla fiera con il contributo della Regione Umbria a valere sui fondi POS-FERS 2014:2020”

La partecipazione alla Fiera Airtec 2016 è stata dettata dalla necessità di sviluppare ulteriori nuovi contatti con aziende del settore; ci ha permesso di conoscere, attraverso la formula B2B, key person di aziende del proprio settore con le quali ancora non si collabora permettendoci attività di business development mirata.

POR FESR 2014-2020 Asse III Azione 3.4.1 Notice for big supply chain projects 2016 Project title: Manufacturing NET

POR FESR 2014-2020 Asse IV - Azione 4.1.1. Avviso 2018 - “Realization of two fv plants connected to the network in exchange regime on the spot, aiming to reduce annual energy consumption"

POR FESR 2014-2020 Asse I - Azione 1.1.1. Avviso - Study and development of an innovative integrated system for business management and maintenance using ICT technologies integrated in a Smart Factory 4.0 perspective

The aim of the project is the development of an innovative platform, for the digitalization and integrated management of each single phase of the process, the quality and the maintenance of the company through ICT technologies integrated in a Smart Factory 4.0 perspective.

The project, financed under the POR FESR 2014-2020 Call Axis I – action 1.1.1.- Notice in support of the 2018 research and development projects, will allow the company to make an important technological advance, given by the development of an advanced and flexible, able to digitize and integrate, through innovative algorithms and technological solutions, the entire company management.

The elements characterizing the new infrastructure are:

– Solutions for the digitization of the singularities of the technological cycle that currently no system can model and trace digitally.

– Smart solutions for contactless quality control and automatic feedback.

– Automated scenarios of predictive maintenance on machinery and equipment / molds.

PROGETTO: ACQUISTO ED ISTALLAZIONE DI UN SISTEMA DI ASPIRAZIONE E FILTRAZIONE FUMI PER IL REPARTO STAMPAGGIO, AL FINE DI RIDURRE IL RISCHIO DI ESPOSIZIONE AD AGENTI CHIMICI PERICOLOSI.

 

CONTRIBUTO INAIL CONCESSO: € 130.000,00

Piano Sviluppo e Coesione FSC ex DGR n. 251/2021 – AVVISO RICERCA 2020 – Cod. CUP I42C20001300008

Study, experimentation and development of innovative technological and process solutions, with high efficiency and sustainability, to obtain new classes of aluminum alloy products, with increased fatigue resistance, for aerospace

The R&D project concerns the creation of an innovative process for forming structural components in aluminum alloy intended for aerospace uses. Specifically, it aims to make radical changes to the current production methods and sector practices and to achieve a net increase in the mechanical performance of the components compared to current levels.
The main novelty elements that characterize the new process are the following:
– Introduction of a multidirectional hot plastic deformation step (3D kneading) before the hot stamping phase, with the aim of guaranteeing a greater isotropy of the mechanical characteristics of the molded component and, therefore, an increase in fatigue resistance.
– New ways of heating the molds with the aim of obtaining a more homogeneous microstructure (zero enlarged surface grain).
– New cooling methods (quenching by solubilization), identifying the optimal concentration of glycol, to obtain an improvement in elongation at break, a characteristic closely related to the fatigue behavior of the component.
R&D has a strong value for the RIS 3 “INTELLIGENT FACTORY – including aerospace” specialization area, as it is aimed at the development, specialization and application of innovative, highly efficient and sustainable technologies for the aeronautical / aerospace sector, able to implement advanced Smart Factory scenarios.