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This page is under construction. To see research project, see our Swedish web www.hv.se/forskning/forskningsprojekt
The purpose of the project is to examine how research orchestration affects innovation in manufacturing SMEs.
The project takes a comprehensive approach on sustainability to provide a pathway that could contribute to the climate target through development of advanced thermal spray (TS) coatings for application in diverse sectors.
In order to maintain its pioneering position, the Thermal Spray (TS) group needs to expand its activities in diverse areas and applications. One of the important application areas is automotive industry, where the TS group has limited activities today despite great potential for collaborative projects.
This project is intended to be a Fellowship in academy by an employment of 20% at the Division of Subtractive and Additive Manufacturing. The aim is that the Fellow from GKN Aerospace will contribute with industrial knowledge about quality assurance and competence within non-destructive evaluation (NDE) processes especially of gas turbine components.
The project contributes to conducting research with new collaboration partners in a branch of industry within Primus, in order to further expand, position and profile the Primus research environment.
The development of the advanced master's program in Production Technology with specialisation in Welding Technology (MWELD) project aims to develop a 2-year Master's programme covering a wide range of topics such as welding technology-related areas, welding-based AM, materials sciences, quality assurance is planned to start in autumn 2023.
The recruitment of an adjunct lecturer is part of the core area I-Industrial Work Integrated Learning (I-AIL) and has a particular focus on industrial transformation and leadership in manufacturing organizations where artificial intelligence (AI) is developed and applied.
The project aims to employ a “Gränsgångare” (from GKN to UW) to improve understanding on fatigue behaviour of additively manufactured material with a long-term view to be able to predict fatigue life of AM parts.
The project intends to recruit an assistant senior lecturer to secure resources for the newly started master's program in AI and automation and to strengthen the research group in process monitoring and control, primarily in the field of artificial intelligence and machine learning.
The collaborative venture AURA.I. AUgmented Reality utilizing Artificial. Intelligence. aims to improve user interactions in Augmented Reality (AR) technology through the creation of an AI toolkit.
The specific purpose of this strategic recruitment is to strengthen the research group within Plug & Produce in the area of multi-agent and AI.
The CIRCUMET initiative has the ambition to develop and implement tailored and concise need-motivated continuing education courses (80-90 credits in total) related to relevant topics for the metal component manufacturing sector, with the fight against climate change as a core concept.
CLOUDS develop an AI based sustainable production system which is capable of handling the process planning, virtual commissioning, optimizing the production schedule, addressing the bottleneck issues in mixed model assembly and balancing the production line with human workload.
Directed Energy Deposition for Industrial Competitiveness in Additive manufacturing Technologies.
The overall aim of the project is to develop innovative working methods to achieve sustainable health in working life for employees in the production industry with the support of digital solutions.
The project proposes DIPy-AI, an agile AI architecture based on the data-knowledge-information-wishdom (DIKW) pyramid, for processing sensor data in production environments. It aims to address challenges related to data assimilation, quality detection, and modular information extraction.
The competence development initiative ExSus2 aims to support companies to meet the rapid technological and societal development required to address the challenges facing society.
The project contributes to technology maturity of manufacturing method and components for fossil-free propulsion and energy supply through improved and validated predictive ability in modeling L-PBF (Laser Powder Bed Fusion) of titanium to enable manufacturing of large complex components with high quality.
In this EU-funded project, University West's researchers will investigate whether additive manufacturing of solar cell receivers can be the key to more efficient solar energy plants.
WAAM (wire arc additive manufacturing) is a manufacturing method that combines traditional welding with additive manufacturing.
The overall purpose of this project is to enhance the understanding of the microstructure evolution in the Ni base superalloys Mar-M-247 and Haynes 282, respectively, during additive manufacturing (AM) by powder bed fusion-electron beam (PBF-EB).
KOLDaHS aims to identify, design, and implement competence development initiatives at an advanced level in management and organization regarding digitalisation and sustainable development / leadership.
This project aims to develop a new method for non-destructive testing of concrete structures based on mechanical wave propagation. The result may, among other things, lead to the use of existing building and construction structures in concrete being optimized.
In the project, opportunities and challenges with neurological diversity will be studied.
Powder bed fusion additive manufacturing of metal (PBF-AM) is an important research area for the manufacturing industry. This form of additive manufacturing makes it possible to manufacture components with complex geometries in a more efficient way. Among other applications of interest are components for gas turbines and aircraft engines.
The aviation industry is searching for new technology that can help reduce aviation's emissions of climate-damaging substances. In a newly started project, University West researchers are investigating how thermal spraying can be used for surface coating of composite components in the next generation of jet engines. Pratt & Whitney, Safran and Saint-Gobain are some of the global companies involved.
The PROWIL project develops sustainable smart automation integrating human centric perspectives towards I5.0, reducing changeover times, and achieving production goals.
The project aims at strengthening the transfer of knowledge between industry and academia through both teaching and research activities by recruiting Dr. Alireza Javidi Shirvan as an adjunct senior lecturer (20%) at the Division of Welding Technology.
The goal is to reuse end-of-life large-scale pipe blanks from the energy sector, which are then repaired with AM and adapted for circular design. This creates a significantly more sustainable cycle, where several tens of tons of steel parts are reused instead of recycled. The circular design creates the possibility for recurring repair and thus planned ageing.
The Department of Engineering has decided to build an education and research platform within production management. The goal is that by 2024 there will be undergraduate education, two international master's programs, PhD education and a research group in the field.
The project aims at performing an in-depth and systematic needs analysis of the error recovery process and knowledge integration demands between involved human stakeholders at the partner companies and based on that design a prototype for an AI&AR-based error recovery support system for operators.
The purpose of the project is to explain the physical effects that influence the surface tension of evaporating surfaces. A combination of theoretical modeling and experiments is proposed.
The project aims to enhance companies' ability to commercialize new knowledge through workshops, seminars, and focus groups.
The purpose of the project is to strengthen the competitiveness of GKN Aerospace in Trollhättan with SMF partners by participating in an international demonstrator engine with leading OEMs.
The project will increase the students' connection to working life during education by transforming existing courses to be fully or partially performed at the company.