Amanda Mattsson
Universitetslektor, biträdande|Associate Senior Lecturer
- Professional title: Associate Senior Lecturer
- Telephone: +46 (0)10-1428858
- Email: amanda.mattsson@miun.se
- Room number: SCA5084
- Location: Sundsvall
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- Research centers:
- FSCN Research Centre
Publications
Articles in journals
Chapters in books
Conference papers
Doctoral theses, comprehensive summaries
Articles in journals
Sanchez-Salvador, J. L. , Pettersson, G. , Mattsson, A. , Blanco, A. , Engstrand, P. & Negro, C. (2024). Extending the limits of using chemithermomechanical pulp by combining lignin microparticles and hot-pressing technology. Cellulose, vol. 31: 15, pp. 9335-9348.
Sanchez-Salvador, J. L. , Mattsson, A. , Pettersson, G. , Blanco, A. , Engstrand, P. & Negro, C. (2024). Lignin microparticle coatings for enhanced wet resistance in lignocellulosic materials. International Journal of Biological Macromolecules, vol. 282
Negro, C. , Pettersson, G. , Mattsson, A. , Nyström, S. , Sanchez-Salvador, J. L. , Blanco, A. & Engstrand, P. (2023). Synergies between Fibrillated Nanocellulose and Hot-Pressing of Papers Obtained from High-Yield Pulp. Nanomaterials, vol. 13: 13
Mattsson, A. , Joelsson, T. , Miettinen, A. , Ketoja, J. A. , Pettersson, G. & Engstrand, P. (2021). Lignin inter-diffusion underlying improved mechanical performance of hot-pressed paper webs. Polymers, vol. 13: 15
Mattsson, A. & Uesaka, T. (2018). Characterisation of time-dependent, statistical failure of cellulose fibre networks. Cellulose, vol. 25: 5, pp. 2817-2828.
Mattsson, A. & Uesaka, T. (2018). New strength metrics for containerboards : Influences of basic papermaking factors. Nordic Pulp & Paper Research Journal, vol. 33: 4, pp. 592-602.
Mattsson, A. & Uesaka, T. (2017). Time-dependent breakdown of fiber networks : Uncertainty of lifetime. Physical review. E, vol. 95: 5
Mattsson, A. & Uesaka, T. (2015). Time-dependent statistical failure of fiber networks. Physical Review E. Statistical, Nonlinear, and Soft Matter Physics, vol. 92: 4
Chapters in books
Mattsson, A. , Joelsson, T. , Pettersson, G. , Ketoja, J. , Mietinen, A. & Engstrand, P. (2023). Lignin Inter-Diffusion Underlying Improved Mechanical Performance of Hot-Pressed Paper Webs. In Mechanical Performance of Sustainable Bio-Based Compounds. Basel : MDPI. pp. 213-228.
Conference papers
Joelsson, T. , Mattsson, A. , Ketoja, J. A. , Pettersson, G. & Engstrand, P. (2022). Lignin inter-diffusion - a mechanism behind improved wet strength. In Transactions of the 17th Fundamental Research Symposium. Cambridge : . pp. 105--118.
Mattsson, A. & Uesaka, T. (2017). Creep failure of fibre network : The Origin of uncertainty. Paper presented at the Svenska mekanikdagar, Uppsala,12-13 juni, 2017
Mattsson, A. & Uesaka, T. (2017). Time-dependent, statistical failure of fibre network. Does Weibull distribution hold?. Paper presented at the Euromech colloquium - Deformation and damage mechanisms of wood-fibre network-based materials and structures, Stockholm, 7-9 juni, 2017
Mattsson, A. & Uesaka, T. (2016). Statistical Failure of Fibre Network under Creep Condition. Paper presented at the VII European Congress on Computational Methods in Applied Sciences and Engineering, Crete, Greece, 5 - 10 June 2016
Mattsson, A. & Uesaka, T. (2015). Characterisation of time-dependent, stochastic failure of fibre-based materials. Paper presented at the International Paper Physics Conference, Tokyo, 29 October - 1 November 2015
Mattsson, A. & Uesaka, T. (2014). Predicting Stochastic Failure of Fibre-based Materials in Long Term and Short Term. Paper presented at the Progress in Paper Physics, Raleigh, North Carolina, U.S.A. September 8-11, 2014
Mattsson, A. & Uesaka, T. (2014). Time-Dependent Stochastic Failure of Fibre Network. Paper presented at the 11th World Congress on Computational Mechanics, Barcelona Spain, 20-25 July 2014
Mattsson, A. & Uesaka, T. (2013). Time-dependent, statistical failure of paperboard in compression. In Advances in pulp and paper research, Cambridge 2013. UK :
Doctoral theses
Mattsson, A. (2018). Characterisation of Time-dependent Statistical Failure of Fibre Networks : Applications for Light-weight Structural Composites. Dis. (Comprehensive summary) Sundsvall : Mid Sweden University, 2018 (Mid Sweden University doctoral thesis : 285)