To define solutions to arrange precision clamping and position and angle adjustment of a micro- or thin-walled workpiece near the working area directly in a new type of adaptive workpiece holder with clamping force control and pattern recognition for higher repeatability.
In plastic injection moulding, demoulding is complicated by sticking and high friction between the plastic and the moulds. The aim of the project is to tailor coatings and surface roughness towards superior slip properties to increase productivity by up to 50 % and to double the service lifetime.
To ensure to the consumer, the maintenance of the characteristics of coffee dispensed in single-dose capsules (pp material), regardless of the period of validity and the initial raw material. Thus, it is intended to ensure the consistency of the features for a reference / mark.
This project aims to develop an integrated portfolio management system incorporating market risk and compliance features for asset management companies.
The placentus is a new paradigm for management of monochorionic pregnancies: the creation of software system for non-invasive previsualization of superficial vasculature of placentas for improved prognosis and for improved prognosis and planning of fetoscopic laser therapy.
Alent dynamic, an sme in sweden, has the technology to produce higher quality wood faster and using less energy. They will prove this knowledge to one of the largest forest products companies in chile where they will process certified eucalyptus forest into added value products.
Biotic4.0 will pursuit to obtain a complete, intelligent, autonomous and low cost control system (prototype) to be installed in injection moulding machines that will be able to discretize the production (lots and parts) and differentiate valid/not valid part(inspection) among other functionalities.
The objective of the project is to obtain a commercial product (prototype) from germanium, by an innovative technology that allows to recover the element of interest in the form of compound from the leach residue (borras) generated in the treatment hydrometallurgy of smelter flue dust.
Smoa.Cl aims at prototyping a system for real-time in-motion analysis of hydraulic oils and engines in mining transport and machinery.The system will act in real working conditions collecting relevant data that will be centralised and processed through mathematical models for early failure diagnosis
Development of a system which enables to analyze the vital signs of mining trucks operators otr (caex) to ensure that the value of their vital parameters are compatible with their tasks. The signal is transmitted to a control center, where it is analysed in real time.