Jevgenijs Jaunslavietis


2017 - PhD student of Riga Technical University, Faculty of Material Science and Applied Chemistry

Zinātniskās intereses un kompetence

Lignin physical chemistry. Wood-polymer composites (formulations, properties, technology​).

Nozīmīgākie projekti

2019 - LS IWC Bio-economic grant - Waste biomass from wood processing wastewater as a potential for application in environmentally friendly composites (LigPolimerKM). Participant.

2014-2017 - National Research Programme, Forest and earth entrails resources: research and sustainable utilization - new products and technologies VPP-3 (ResProd) (2014.10-4/VPP-6/6). Participant.

2011-2015 - ERDF project  - Investigations of possibilities of woodworking by-products utilization, ForestCompetenceCenter (LIAA  No.L-KC-11-0004) (KC/; Participant.

2010-2013 - National Research Programme - Sustainable Use of Local Resources (Entrails of the Earth, Forest, Food and Transport) – New Products and Technologies (NatRes) (Nr. 2010.10-4/VPP-5). Participant.

Papildus informācija

2017 - PhD student of Riga Technical University​

Nozīmīgākās publikācijas

  1. Shulga G., Neiberte B., Verovkins A., Vitolina S., Jaunslavietis J., Livcha S., Betkers T. (2019). ​Aminated wood sanding dust as filler for recycled polypropylene-based composite. Cellulose Chemistry and Technology. 53(9), 945-953.
  2. Jaunslavietis J.,  Shulga, G., Ozolins,J., Neiberte, B., Verovkins,A., Vitolina,S.,  Shakels, V. (2018). The influence of mechanical and mechanochemical activation of hardwood wood waste on biocomposite properties. Key Engineering Materials 800 KEM,  200-204.
  3. Jaunslavietis, J., Shulga, G., Ozolins,J., Neiberte, B., Verovkins,A., Vitolina,S.,  Shakels, V. (2017). Surface energetic characteristics of wood-polymer composites, containing a valorised hardwood by-product. Solid State Phenomena 267 SSP, 68-75.
  4. Jaunslavietis, J., Shulga, G., Ozolins,J., Neiberte, B., Verovkins,A., Vitolina,S., Livcha, S. (2017). Effect of the acidic treatment of domestic wood residue on biocomposite wettability and moisture sorption properties.  Vide .Tehnologija. Resursi - Environment, Technology, Resources 1, 129-133.
  5. Shulga G., Neiberte B., Verovkins A., Jaunslavietis J.  , Shakels V., Vitolina S.,  Sedliačik J. (2016). Eco-friendly constituents for making wood-polymer composites. Key Engineering Materials “Selected Processes at the Wood Processing”. Vol. 688, 122-130.