Tampere University of Technology

TUTCRIS Research Portal

Inari Lyyra

  1. 2018
  2. Published

    Bioresorbable Conductive Wire with Minimal Metal Content

    Hänninen, A., Salpavaara, T., Lyyra, I., Kroon, M., Lekkala, J. & Kellomäki, M., 18 Dec 2018, In : ACS Biomaterials Science & Engineering. 5, 2, p. 1134-1140

    Research output: Contribution to journalArticleScientificpeer-review

  3. Published

    Nanocellulose and chitosan based films as low cost, green piezoelectric materials

    Hänninen, A., Sarlin, E., Lyyra, I., Salpavaara, T., Kellomäki, M. & Tuukkanen, S., 15 Dec 2018, In : Carbohydrate Polymers. p. 418-424 7 p.

    Research output: Contribution to journalArticleScientificpeer-review

  4. Published

    Mechanical and in vitro properties of PLA/bioactive glass composites

    Lyyra, I., Leino, K., Hukka, T., Kellomäki, M. & Massera, J., 18 Jul 2018, p. 156. 1 p.

    Research output: Other conference contributionPaper, poster or abstractScientific

  5. 2017
  6. Published

    Soft tissue compatibility of Li, Sr and B doped bioactive glasses

    Lyyra, I., Sartoneva, R., Kellomäki, M., Miettinen, S. & Massera, J., 26 Oct 2017.

    Research output: Other conference contributionPaper, poster or abstractScientific

  7. 2016
  8. Published

    Porous polymer tubes for urethral tissue engineering

    Lyyra, I., Hannula, M., Paakinaho, K. & Kellomäki, M., 25 Nov 2016.

    Research output: Other conference contributionPaper, poster or abstractScientific

  9. Published

    Development of a Soft Sensor to Predict the Molecular Weight of Polylactide (PLA) in a Melt Extrusion Process

    Mulrennan, K., Whitaker, D., Talvitie, E., Lyyra, I., Annala, T., Kellomäki, M. & McAfee, M., 2016, p. 69. 1 p.

    Research output: Other conference contributionPaper, poster or abstractScientific

  10. 2015
  11. Published

    Optimising polylactide melt spinning using real-time monitoring

    Lyyra, I., 3 Jun 2015, Tampere University of Technology. 85 p.

    Research output: Book/ReportMaster's ThesisScientific

ID: 2808743