• 8010

    Kopernikusgasse 24 Graz

    Austria

Organization profile

Profile Information

The rapid advances in technology, the limited earth's ressources and energy and increasing requirements for mininmum environmental polution make materials science a key technology in modern industrial countries. Frequently, mechanical properties of materials are the limiting factors in technical projects. The Institute for Materials Science and Welding aims at giving a contribution to the analysis and characterisation of materials during processing and in service. National and international cooperations form the basis of this goal. Apart from comprehensive experimental studies, major attention is directed toward application of advanced computational methods. Areas of interest: - Characterisation of materials microstructures; - Computational methods in Materials Science and Welding Technology; - Optimisation of materials properties and processing technologies; Short Description: The Institute for Materials Science, Joining and Forming aims at giving a contribution to the analysis and characterisation of materials during processing and in service. National and international cooperations form the basis of this goal. Apart from comprehensive experimental studies, major attention is directed toward application of advanced computational methods.

Fingerprint Dive into the research topics where Institute of Materials Science, Joining and Forming (3030) is active. These topic labels come from the works of this organisation's members. Together they form a unique fingerprint.

  • Network Recent external collaboration on country level. Dive into details by clicking on the dots.

    Research Output

    Analysis of Splitting and Martensitic Transformation of AlNi Intermetallic Obtained by Transient Liquid Phase Bonding

    Poliserpi, M., Buzolin, R., Boeri, R., Poletti, C. & Sommadossi, S., 1 Jan 2020, In : Metallurgical and Materials Transactions / B. 51, p. 916–924

    Research output: Contribution to journalArticleResearchpeer-review

  • Application of an advanced mean-field dislocation creep model to P91 for calculation of creep curves and time-to-rupture diagrams

    Riedlsperger, F. K., Krenmayr, B., Zuderstorfer, G., Fercher, B., Niederl, B., Schmid, J. & Sonderegger, B., 2 Jun 2020, (Accepted/In press) In : Materialia. 12, 100760.

    Research output: Contribution to journalArticleResearchpeer-review

    Open Access

    Durability of Metal-Composite Friction Spot Joints under Environmental Conditions

    Goushegir, S. M., Scharnagl, N., dos Santos, J. F. & Amancio-Filho, S. T., 4 Mar 2020, In : Materials. 13, 5, 20 p., 1144.

    Research output: Contribution to journalArticleResearchpeer-review

    Open Access
  • Activities

    Electron Beam Welding

    Norbert Enzinger (Speaker)
    29 May 2020

    Activity: Talk or presentationTalk at workshop, seminar or courseScience to science

    Tribology Investigation on Aluminum Sheets for Forming Applications

    Arash Shafiee Sabet (Speaker), Josef Domitner (Contributor), Kerem Öksüz (Contributor), Hector Torres (Contributor), Manel Rodriguez Ripoll (Contributor), Christof Sommitsch (Contributor)
    18 Feb 2020

    Activity: Talk or presentationTalk at conference or symposiumScience to science

    Metal Additive Manufacturing - Winter School of Metallurgy

    Zahra Silvayeh (Participant)
    26 Jan 202029 Jan 2020

    Activity: Participation in or organisation ofWorkshop, seminar or course (Participation in/Organisation of)

    Prizes

    1. Preis - Dr. Wolfgang Houska Preis

    Peter Mayr (Recipient), Horst-Hannes Cerjak (Recipient), Bernhard Sonderegger (Recipient), Cornelia Pein (Recipient) & Ivan Holzer (Recipient), 29 Apr 2008

    Prize: Prizes / Medals / Awards

    2. Platz Franz-Leitner-Preis

    Markus Stütz (Recipient), 11 May 2017

    Prize: Prizes / Medals / Awards

    2. Platz Franz-Leitner-Preis

    Markus Stütz (Recipient), 8 May 2017

    Prize: Prizes / Medals / Awards

    Press / Media

    IT & Automation

    Christof Sommitsch

    1/06/20

    1 item of media coverage

    Press/Media: Press / Media

    Sustainable 3D-printed super magnets

    Siegfried Arneitz & Mateusz Skalon

    30/01/20

    20 items of media coverage, 2 media contributions

    Press/Media: Press / Media

    Projects