Projects connected to the Application Center for Additive Manufacturing
RISE and the Application Center for Additive Manufacturing are involved in various projects within the field of additive manufacturing. Here you find details about ongoing projects, completed projects, and student thesis projects.
Ongoing projects
ReMAT
ReMAT enables a circular pathway for 3D-printing high-strength steels by recycling scrap into powder and extending powder lifespan. The goal: less virgin material use, stronger industry, and support for Sweden’s net-zero 2040 target.
COMPASS III
COMPASS III aims to strengthen long-term competence in additive manufacturing. By fostering deeper collaboration between industry, academia, and research institute, it drives the development of innovative solutions that support sustainability, competitiveness, and growth – both regionally and nationally.
Res2AM
The Res2AM project aims to develop a sustainable and resilient additive manufacturing (AM) process for large and complex metallic components using Powder Bed Fusion Laser Beam (PBF-LB), particularly targeting the Aerospace and Energy sectors.
SURF
The SURF project aims to pave the way for well-informed use of additively manufactured (AM) stainless steel in small modular reactors (SMRs). One of the main goals is to understand the mechanisms of stress corrosion cracking (SCC) in AM-produced and post-treated 316L in SMR-relevant environments.
Assessment and Production of Spare Parts
During crises and conflicts, it is vital that key societal functions remain operational. A lack of spare parts could cause disruptions that impact both food and water supplies. To explore whether additive manufacturing of spare parts could enhance resilience, the Swedish Food Agency has commissioned RISE.
AMTVINE
AMTVINE is a framework for several work packages targeting verification of additively manufactured stainless steels and coated claddings during normal operation in light water reactors (LWRs). The project includes a unique examination and testing of novel fuel materials after operation in LWRs.
BRAVE
BRAVE aims to develop an integrated, experimental and digital framework, combining the capabilities of the commercial material and process modelling software tools, for optimisation of the AM value-chain.
3D-Action 2.0
The 3D-Action 2.0 project serves as a catalyst to raise awareness and knowledge about additive manufacturing and its benefits for small and medium-sized businesses in Västra Götaland.
LAMBADA
Using additive manufacturing, LAMBADA aims to develop an ultra-lightweight and scalable battery pack with improved cooling capacity.
LSAM-SAFE
The purpose of the LSAM-SAFE project is to develop a lighter design and more sustainable production of the sea rescue vessel The RescueRunner, for Safe at Sea AB, and to take steps towards a more circular value chain.
SuRF-LSAM
SuRF-LSAM merges previous projects, OCEAN-LSAM and SPARSAM, to implement a circular economy microfactory concept by establishing two microfactories in Sweden and Portugal.
iMAT
Innovative modelling strategies for additive manufacturing processes (iMAT) aims to increase the competitiveness of the manufacturing industry by utilising advanced digital tools and systems to further develop sustainable additive manufacturing (AM) for challenging components.
Finished projects
- COMPASS II: Competence platform for additive manufacturing
- ProThin: Robust additive manufacturing of components with thin walls and narrow channels
- MATER-AM: Material efficient supply chains through decentralised 3D-printing
- 3D-Action: 3D-printing for the next generation of product and production solution
- SPARSAM: Business criteria for selection of 3d-printed components
- MANUELA: A Horizon 2020 project with the aim to develop and deploy an open access pilot line for metal additive manufacturing.
- Feasibility study: Establishment of the Application Center for Additive Manufacturing
- DIGIQUAM - digital platform for additive manufacturing
- Feasibility study: National testbed for SME in additive manufacturing