Stefan Holmström

Person

Holmström, Stefan

  • Fuel Materials

Person: Employee

  1. 2022
  2. Heavy wall forged pipes of grade 92_ effect of heat treatment conditions on microstructure and creep resistance.pdf

    Anelli, E. & Holmström, S., 18 Mar 2022, In: Materials At High Temperatures. p. 1-11 11 p.

    Research output: Contribution to journalArticlepeer-review

  3. 2021
  4. Estimation of uniaxial and creep properties by small punch testing in support of ECCC test programmes

    Holmström, S., Nilsson, K-F., De Bruycker, E., Anelli, E., Guery, A., Rantala, J., Simonovski, I. & Baraldi, D., 20 Oct 2021, ECCC 2021 - 5th international Creep & Fracture Conference: Abstracts handbook, virtual conference 19th, 20th Oct 2021. 2021 ed. European Creep Collaborative Committee, p. 1-13 13 p. 116

    Research output: Contribution to report/book/conference proceedingsIn-proceedings paperpeer-review

  5. New approaches to determine negligible creep

    Baylac, M., Bullough, C., Holmström, S., Smith, W., Tonti, A. & Forot, C., 19 Oct 2021, ECCC 2021 - 5th international Creep & Fracture Conference: Abstracts handbook, virtual conference 19th, 20th Oct 2021. 2021 ed. European Creep Collaborative Committee, p. 301-311 11 p. 108

    Research output: Contribution to report/book/conference proceedingsIn-proceedings paperpeer-review

  6. A numerical and experimental assessment of the small

    Nilsson, K-F., Baraldi, D., Holmström, S. & Simonovski, I., 11 Oct 2021, In: Metals. 11, p. 1-21 21 p., 11101609.

    Research output: Contribution to journalArticlepeer-review

  7. 316L(N) Creep modeling with phenomenological approach and artificial intelligence based methods

    Baraldi, D., Holmström, S., Nilsson, K-F., Bruchhausen, M. & Simovovski, I., 24 Apr 2021, In: Metals. 11, 5, p. 1-24 24 p.

    Research output: Contribution to journalArticlepeer-review

  8. 2020
  9. Investigation of cracking in small punch test for semi-brittle materials

    Simonovski, I., Holmström, S., Baraldi, D. & Delville, R., 16 May 2020, In: Theoretical and Applied Fracture Mechanics. 108, p. 1-12 12 p., 102646.

    Research output: Contribution to journalArticlepeer-review

ID: 6874676