Please, in order to enter to the members area fill in the boxes below this lines.
Please type your email address below and you will shortly receive an email.
The INTEGRADDE consortia has come together to offer you a 2-part online training session on Additive Manufacturing for manufacturers and final-users. If you have missed the second training, now you can watch it, at the pace that you like!
If you have missed the Integradde Expression of Interest Infoday for MetalWorking SMEs and MidCaps Q&A and Tips now can access the full recording!
The INTEGRADDE project launched today (June 1st) an Expression of Interest (EOI) Call, oriented to European SMEs and Midcaps willing to implement Advanced Manufacturing solutions in their production process.
April 2021
INTEGRADDE, Level-Up and DIMOFAC are three European-funded projects which have benefitted from the European Commission’s Horizon Results Booster to carry out joint dissemination activities with the aim of promoting their technology solutions adapted to advanced manufacturing
This article collects the research presented by the Steel Structures Group at Imperial College London in collaboration with LimitState, the University of Sheffield and MX3D. Seeking to combine sophisticated optimisation techniques and cutting-edge AM methods to establish an automated end-to-end framework for the generation of WAAM optimised structures.
Stay tuned for INTEGRADDE's Expression of Interest (EOI)! This opportunity addresses to metalworking SMEs and Midcaps at EU level, and will offer free-trials and other AM related services at no cost for the selected applicants.
The Integradde project now has its community. A user-oriented platform to meet the main players in the AM ecosystem, find solutions, get inspired and be up to date with all the news related to the Expression of Interest.
IREPA LASER is an industrial research and development company specialized in laser processes and materials, with a laser machine base including over 20 devices to support all companies in their needs.
Within the scope of print job preparation physics-based models are used to optimize the design, define the deposition path, investigate possible collisions, predict material quality and final part shape.