Gunilla Pettersson

Forskare|Researcher

Övrigt

Programansvarig: utbildningsprogrammet Processoperatör

Publikationer

Artiklar i tidskrifter

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, ss. 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  

Rahman, H. , An, S. , Norlin, B. , Persson, E. , Engstrand, P. , Zeeshan, F. , Granfeldt, T. , Slavicek, T. & et al. (2022). On-Site X-ray Fluorescence Spectrometry Measurement Strategy for Assessing the Sulfonation to Improve Chemimechanical Pulping Processes. ACS Omega, vol. 7: 51, ss. 48555-48563.  

Joelsson, T. , Persson, E. , Pettersson, G. , Norgren, S. , Svedberg, A. & Engstrand, P. (2022). The impact of sulfonation and hot-pressing of low-energy high temperature chemi-thermomecanical pulp. Holzforschung, vol. 76: 5, ss. 463-472.  

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    

Joelsson, T. , Svedberg, A. , Norgren, S. , Pettersson, G. , Berg, J. , Garcia-Lindgren, C. & Engstrand, P. (2021). Unique steel belt press technology for high strength papers from high yield pulp. SN Applied Sciences, vol. 3: 5    

Joelsson, T. , Pettersson, G. , Norgren, S. , Svedberg, A. , Höglund, H. & Engstrand, P. (2020). High strength paper from high yield pulps by means of hot-pressing. Nordic Pulp & Paper Research Journal, vol. 35: 2, ss. 195-204.    

Joelsson, T. , Pettersson, G. , Norgren, S. , Svedberg, A. , Höglund, H. & Engstrand, P. (2020). Improved paper wet-strength by increasing lignin content and hot-pressing temperature. ,

Joelsson, T. , Pettersson, G. , Norgren, S. , Svedberg, A. , Höglund, H. & Engstrand, P. (2020). Improving paper wet strength via increased lignin content and hot-pressing temperature. TAPPI Journal, vol. 19: 10, ss. 487-499.  

Norgren, S. , Pettersson, G. & Höglund, H. (2018). Strong paper from spruce CTMP - Part II : Effect of pressing at nip press temperatures above the lignin softening temperature. Nordic Pulp & Paper Research Journal, vol. 33: 1, ss. 142-149.    

Pettersson, G. , Norgren, S. & Höglund, H. (2017). Strong paper from spruce CTMP - Part I. Nordic Pulp & Paper Research Journal, vol. 32: 1, ss. 54-58.  

Marais, A. , Enarsson, L. , Pettersson, G. , Lindström, T. & Wågberg, L. (2016). Pilot-scale papermaking using Layer-by-Layer treated fibres; Comparison between the effects of beating and of sequential addition of polymeric additives. Nordic Pulp & Paper Research Journal, vol. 31: 2, ss. 308-314.

Pettersson, G. , Höglund, H. , Norgren, S. , Sjöberg, J. , Peng, F. , Hallgren, H. , Moberg, A. , Ljungqvist, C. & et al. (2015). Strong and bulky paperboard sheets from surface modified CTMP, manufactured at low energy. Nordic Pulp & Paper Research Journal, vol. 30: 2, ss. 318-324.  

Pettersson, G. , Sjöberg, J. , Wågberg, L. , Höglund, H. & Averheim, A. (2007). Increased joint-forming ability of ductile kraft pulp fibres by polyelectrolyte multilayer treatment-Influence of refining and drying strategies. Nordic Pulp & Paper Research Journal, vol. 22: 2, ss. 228-235.    

Pettersson, G. , Höglund, H. & Wågberg, L. (2006). The use of polyelectrolyte multilayers of cationic starch and CMC to enhance strength properties of papers formed from mixtures of unbleached chemical pulp and CTMP : Part I. Nordic Pulp & Paper Research Journal, vol. 21: 1, ss. 115-121.    

Pettersson, G. , Höglund, H. & Wågberg, L. (2006). The use of polyelectrolyte multilayers of cationic starch and CMC to enhance strength properties of papers formed from mixtures of unbleached chemical pulp and CTMP-II : Part II: Influnence of addition strategy, fibre treatment and fibre type. Nordic Pulp & Paper Research Journal, vol. 21: 1, ss. 122-128.    

Eriksson, M. , Pettersson, G. & Wågberg, L. (2005). Application of polymeric multilayers of starch onto wood fibres to enhance strength properties of paper. Nordic Pulp & Paper Research Journal, vol. 20: 3, ss. 270-275.    

Wågberg, L. , Pettersson, G. & Notley, S. (2004). Adsorption of bilayers and multilayers of cationic and anionic copolymers of acrylamide on silcon oxide. Journal of Colloid and Interface Science, vol. 274: 2, ss. 480-488.  

Artiklar, forskningsöversikter

Pettersson, G. , Norgren, S. , Engstrand, P. , Rundlöf, M. & Höglund, H. (2021). Aspects on bond strength in sheet structures from TMP and CTMP - a review. Nordic Pulp & Paper Research Journal, vol. 36: 2, ss. 177-213.    

Doktorsavhandlingar

Pettersson, G. (2007). Influence of Polymeric Multilayer Treatment on Out-of Plane Properties of CTMP-Based Paperboard. Diss. (Sammanläggning) Sundsvall : Mittuniversitetet, 2007 (Mid Sweden University doctoral thesis : 40)

Kapitel i böcker, del av antologier

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. I Mechanical Performance of Sustainable Bio-Based Compounds. Basel : MDPI. S. 213-228.  

Konferensbidrag

Engberg, B. A. , Vuorio, P. , Granfeldt, T. , Ahlzén, P. , Lundfors, M. , Pettersson, G. & Höglund, H. (2022). Abrasive refining of spruce TMP and CTMP fibers. I Proceedings of the International Mechanical Pulping Conference.. S. 57--62.

Joelsson, T. , Mattsson, A. , Ketoja, J. A. , Pettersson, G. & Engstrand, P. (2022). Lignin inter-diffusion - a mechanism behind improved wet strength. I Transactions of the 17th Fundamental Research Symposium. Cambridge : . S. 105--118.

Pettersson, G. , Svedberg, A. , Norgren, S. & Engstrand, P. (2022). Manufacturing of paper with high wetstrength from CTMP and high yield NSK by combining sizing and wet strength additives with hot-pressing. I Proceedings of the International Mechanical Pulping Conference.. S. 109--113.

Rahman, H. , An, S. , Norlin, B. , Persson, E. , Engstrand, P. , Pettersson, G. & Granfeldt, T. (2022). Measurement of S and Na distribution in impregnated wood chips by ED-XRF to improve CTMP process efficiency and product properties. Paper presented at the 16th European Workshop on Lignocellulosics and Pulp (EWLP), Gothenburg, Sweden, 27 June- 1 July, 2022

Ferritsius, R. , Moberg, A. , Hallgren, H. , Pettersson, G. , Rundlöf, M. , Engstrand, P. & Engberg, B. A. (2022). Water Absorption and Wet Strength in Hot-pressed Paper. I Proceedings of the International Mechanical Pulping Conference.. S. 168--170.

Joelsson, T. , Svedberg, A. , Norgren, S. , Pettersson, G. , Berg, J. , Garcia-Lindgren, C. & Engstrand, P. (2021). Unique steel belt press technology for development of high strength papers from HYP. I TAPPICon Virtual 2021.. S. 523--531.

Joelsson, T. , Pettersson, G. , Norgren, S. , Svedberg, A. , Höglund, H. & Engstrand, P. (2019). Improving paper wet-strength by means hot-pressing and increased lignin content in pulp fibers. I Paper Conference and Trade Show, PaperCon 2019.. S. 704--713.

Samuelsson, T. , Pettersson, G. , Norgren, S. , Svedberg, A. , Höglund, H. & Engstrand, P. (2018). Development of strong and water resistant packaging materials from high yield pulps – fundamental aspects. I IMPC 2018. Trondheim, Norway :

Nordin, T. , Svedberg, A. , Norgren, S. , Pettersson, G. & Engstrand, P. (2018). Industrially Relevant In-situ Production Of High Yield Pulp Based Nanocellulose Materials Optimized To Improve Strength In Packaging And Printing Papers : A Comparison Between CMC And MFC As The Anionic Component In Layer-by-Layer Technology. I IMPC 2018. Trondheim, Norway :

Pettersson, G. , Höglund, H. , Norgren, S. , Engstrand, P. , Peng, F. , Granfeldt, T. , Bergström, J. & Joelsson, T. (2018). Upgrading the strength properties of sheets from hardwood high yield pulps. I Pan Pacific Fibre Value Chain Conference 2018, Proceedings.. S. 142--147.

Pettersson, G. , Norgren, S. , Höglund, H. & Engstrand, P. (2016). Low energy CTMP in strong and bulky paperboard plies. I Paper Conference and Trade Show, PaperCon 2016.. S. 556--564.

Osong, S. H. , Norgren, S. , Pettersson, G. , Engstrand, P. , Còrdova, A. , Afewerki, S. & Alimohammadzadeh, R. (2016). Processing of nanocellulose and applications relating to CTMP-based paperboard and foams. I International Mechanical Pulping Conference 2016, IMPC 2016.. S. 87--93.

Pettersson, G. , Norgren, S. & Höglund, H. (2016). Strong paper from spruce CTMP. I International Mechanical Pulping Conference 2016, IMPC 2016.. S. 229--233.

Norgren, S. , Pettersson, G. & Höglund, H. (2014). High strength papers from high yield pulps. I International Mechanical Pulping Conference, IMPC 2014. (International Mechanical Pulping Conference, IMPC 2014)

Pettersson, G. , Höglund, H. , Sjöberg, J. C. , Peng, F. , Bergström, J. , Solberg, D. , Norgren, S. , Hallgren, H. & et al. (2014). Strong and bulky paperboard plies from low energy CTMP. I International Mechanical Pulping Conference, IMPC 2014.

Manuskript

Pettersson, G. , Höglund, H. & Wågberg, L. Formation of polyelectrolyte multilayers of polyvinylamine/CMC and cationic starch/CMC on birch CTMP and their influence on paper strength.

Henshaw Osong, S. , Norgren, S. , Pettersson, G. & Engstrand, P. The use of cationic starch and microfibrillated cellulose to improve strength properties of CTMP-based paperboard.  

Patent

Höglund, H. , Pettersson, G. , Norgren, S. & Engstrand, P. (2018). A paper or paperboard product comprising at least one ply containing high yield pulp and its production method .

Sidan uppdaterades 2024-09-13