New Research at University West - Svetskommissionen · 2019. 4. 10. · Division of Welding...
Transcript of New Research at University West - Svetskommissionen · 2019. 4. 10. · Division of Welding...
Research at University West
Division of Welding Technology
Joel AnderssonAssoc. Prof. in High Temperature Materials
Head of Division Welding TechnologyDepartment of Engineering Science
University WestTrollhättan, Sweden
• Founded in 1990• Vice Chancellor: Professor Martin Hellström• ~600 employees• ~14 000 students
/5 000 full-time equivalents• Work Integrated Learning (WIL)
is the profile of the university
University West
HistoryUniversity West and research in ProductionTechnology
1989 Mechanical Engineering Co-op1993 BSc
2012 Research. edu. rights
1999 Master 1994 Research Volvo Aero
2008 PTC
PTW Division of Additive and SubtractiveManufacturing Methods
Division of Welding Technology
Division of Production Systems
• ~100 peopleo Dedicated research
• Welding• Thermal Spray• Machining• NDT• Robotics• Automation
PTW – A unique research environment!
Head of Division:Joel AnderssonDeputy Head of Division:Ingrid ElisonProfessors: Leif Karlsson, Lars-Erik Svensson, Americo Scotti, Olanrewaju OjoSenior researchers: Isabelle Choquet, Joel Andersson, Asun Valiente, Vahid Hosseini, Sten Wessman (SWERIM), Ebrahim HaratiEngineers:Kjell Hurtig, Mats Högström, Kenneth Andersson, Ingrid Elison, Håkan Backström, Björn KarlssonResearch Engineers:Lars-Erik Stridh, Johnny LarssonPhD students at University West:Suhas Shreekanth, Josefine Svenungsson, Tahira Raza, Ali Abadi, Pradip Aryal, Fabian Hanning (CTH), Sukhdeep Singh (CTH), Asala Gbenga (University of Manitoba), Ana MagalhãesIndustrial PhD students:Karl Fahlström (SWERIM), Arbab Rehan, (Uddeholm), Mikael Johansson (Sandvik)
Personell
~30 people
The vision and goals of the division of Welding technology
Our vision is to become the most distinguished research group on welding and associated technologies in the Nordic countries and well-known globally in our dedication.
Our goals are to fundamentally study and improve the knowledge on welding processes and its corresponding influence on the materials as well as to educate students.
Enabling welding of “hard-to-weld” materials to pave the way for a more sustainable society Offshore
Boiler plants Automotive
Fuel cells
Land based gas turbines
Space
Petrochemical Nuclear power plants…… …
… … …
Process development
Laser, TIG, CMT, MIG/MAG, FSW and Plasma
Process physics
Laser, arc and melt pool physics
Metallurgy
Fundamental research of welding and deposition technologies - understanding ofmicrostructure and defects and their influenceon mechanical performance
Welding&
Metal Deposition
Ni-based superalloys, Ti-alloys, steel and Al
Process development Process physics
Metallurgy
Welding&
Metal Deposition
Welding processes (6hp) - MScWelding and weld fixturing - IndustryLaser welding - Industry
Thermodynamics (7.5hp) - BSc
Arc physics - Industry
Welding metallurgy (6hp) - MScAdvanced material technology (6hp) - MSc
Materials Technology (7.5hp) - BSc
Equipment• Welding processes
o IPG 6 kW fiber laser (new laser on the way…)• Wire and powder
o TIG, HF-TIG, MIG, MAG, Plasma, CMT, and FSW
• Material testingo Tensileo Fatigueo Hardnesso Varestraint (LBW, TIG…)o NDTo Lab furnaces (≤1200 °C)o Vacuum furnaceo Local heat treatment capabilitieso Material preparationo Gleeble 3800D
• Characterizationo Optical microscopyo SEM-EDX (new SEM on the way…)o GOM – measurment
• Simulationo OpenFoamo JMatProo Thermocalco Simufact Weldingo COMSOLo MSC Marc, Simufact additive, MSC fluid etco LS-Dyna
PRIMUSLongterm research possibilities!
The KK-environment at University West
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Some examples of projects…
• Laser beam energy sourceImplement beam energy distribution varying in time and space -> study effect on melt, HAZ (Adopt)
Process physics – simulation (development & application)
• Laser/material interractionDevelop & implement laser metalinteraction model including wire-> study shadowing effect& effect of metal transfer on melt,
HAZ (T-SAMw)
• Melt pool thermal convection & surface derfomation
Metalwire
Improve model efficiency for tracking of surface deformation to reduce CPU, improve accuracy (ex. resolve pore entrapment for small enough pores)-> study melt, HAZ combining heat source,
metal transfer, melt flow, pore formation (T-SAMw)Provide process knowledge (ex. T-distribution)
- to link process & deposited material properties (T-SAMw)- as input to control the process (T-SAMw)
SLM
Influence of SLM Process parameter
Gleeble hot ductility testingVarestraint testing
Weldability Assessment of HIP vs no-HIP of SLM manufactured Alloy 718
AMMAW – Additive Manufacturing of High Temperature Materials and Assessment of Weldability
Hot structures
Processmonitoring
Materialstechnology
Thermalhistory and geometry
Laser Beam Additive ManufacturingTitanium alloy Duplex stainlessSteel
GKN Aerospace Alfa LavalPermanova, Elga
SYNERGIES
Financing: KK-foundationPartners: GKN, Alfa Laval, Permanova, ElgaTotal budget: 26 mkrProject period: 2017-2021
Synergy for Additive Manufacturing using laser beam heat source and wire - SAMw
Core question: how to tailor the performance (functionality and integrity) of high strength steel components through laser and arcadditive manufacturing?
TAiloring of high PERformance parts through laser and arc additive manufacturing TECHhnologies: TAPERTECH
Objective: To develop the knowledge needed for industrial application of the technologies embraced by DED-AM (Directed EnergyDeposition Additive Manufacturing), especially using LMDp (Laser Metal Deposition with Powder) and WAAM (Wire + Arc AdditiveManufacturing) processes, to tailor the performance of high strength steel components.
Duration: September 2019 to August 2022
Development strategy: based on the elements of the cluster “Process-Automation-Materials-Simulation-Mechanical Characterization”, 4subprojects are organized in an integrated and synergic way in order to understand the link between different material wire deposition,microstructure evolution along the thermal history and occurrence of imperfection to develop a robust process from a functionalcomponent point of view.Subproject AMMet-Tapertech (Additive Manufacturing Metallurgy of High Strength Steels)Subproject AMSim-Tapertech (Additive Manufacturing Modelling and SimulationSubproject AMProc-Tapertech (Additive Manufacturing Process Development and Control)Subproject AMPMech-Tapertech (Additive Manufacturing Mechanical Characterization)
CompanyBusiness area connected to theproposal
Uddeholm Metal Powder supplierBAE Systems Off-road vehiclesESAB Welding machine and
consumablesTrumpf Laser Welding machine
Industrial partners:
• Need from Industry: Better understanding of mechanisms and welding recommendations for avoiding embrittlement in welds of highly alloyed duplex stainless steel. Cost effective methods for microstructure and property characterization and mapping.
• Research questions: How do spinodal decomposition resulting in embrittlement depend on composition and thermal cycles experienced during welding and/or heat treatment for duplex stainless steels and weld metals.
• Goal: Defining welding parameter window ensuring 475°C embrittlement is avoided. Production of TTT, CCT and property diagrams for base material and weld metal.
• Internal resources: Vahid Hosseini, Kjell Hurtig, Sten Wessman + ref. group Robert Pederson + Asun Valiente
Project name: Avoiding 475°C embrittlement in welded highly alloyed duplex stainless steels
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KK Project type Prospekt
Project leader/Responsible for application
Vahid Hosseini/ Welding Technology
Partners: Outokumpu (1 MSEK) & Esab (0.4 MSEK)
Project period: Feb 2019 – Jan 2021
Budget from KK (excl. OH) 1.4 MSEK
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Partners: TWI, ESAB AB, ROMAERO, VZLU, HV, GeonX, Queens University Belfast; Topic manager: SAAB groupTotal budget: 1.4 million €, Project period: 2018-2021
To replace riveting in commercial aircraft fuselages and produce ”rivetless” aluminum aerostructures using the latest developments in FSW and LBW
Partners: SWERIM, HV, AGA, GKN, Gestamp, Permanova, SAPA, Volvo.Total budget: 8.8 million SEK, Project period: 2017-2020
-Develop simulation models to predict risk for crackingand distorsion-Development of welding procedures for laser weldingof large components in Al alloys
Rep-lab (2018-2021) - content & funding
HVAF -repair
LMD-p(Repair)
LMD-w/Wire Arc AM
(repair)
PBF –SLM/EBM
(repair)
Properties evaluation
AM –digitalization(Big data/ Ind. 4.0)
Research Partners• Chalmers IMS (MMT)• University West• Swerea IVF – sub-contractor• Participating SME:s
Funding• VGR+TTV 13,6 MSEK• GKN 6 MSEK• HV 1000 kSEK• Chalmers 900 kSEK
Repair/Remanufacturing/Upgrade of components using additive technologies – a sustainable alternative?
- Industry examples of today, including small exhibition during lunch- Related research in Additive Manufacturing & Thermal Spray- Panel discussion with industry and researchers
When: May 9th, 9.00 – 15.00Where: Produktionstekniskt centrum (PTC) , Innovatumområdet, TrollhättanRegistration: https://www.innovatum.se/aktiviteter/reparation-och-uppgradering-av-komponenter-i-metall/
Contact: [email protected]
Replab – Seminar in May 2019
INDUSTRIAL PHD SCHOOL IN
SMART INDUSTRYFive universities in collaboration offer with support from KK-foundation
a PhD program for industrial employed with focus in Smart Industry
RESEARCH AREAS WITHIN THE PHD SCHOOL
• Smart sustainable materials and manufacturing methods(E.g. Additive Manufacturing, Surface treatment Joining etc.)
• Smart products and processes through eg. digitalization
• Smart production technology for more flexible & agile and reconfigurable production systems
• Smart work methods supporting fast /efficient product development/industrialization
• Effective quality-/maintenance-/productivity development towards smart production
NOW WE ARE RUNNING!
• Planned PhD school start: Spring 2020
• Industrial participation: Identifying industry participation and PhD student projects – ongoing now!
• More information:o University West: Lennart Malmsköld,
[email protected] University of Skövde, Mats Jägstam, [email protected] Jönköping University, Mats Jackson, [email protected]