Liang Shanqing

Prof.  Liang Shanqing

Organization: Research Institute of Wood Industry, Chinese Academy of Forestry

Research category: Wood Science and Technology

Research field: Wood-based functional composite

E-mail: liangsq@caf.ac.cn

Main work

Prof. Liang Shanqing works on research direction of the preparation and application of wood-based functional composite, focusing on the basic theory and application technology of functional wood-based panel, electric heating wood composite, and functional wood packaging composite. He is currently a member of Chinese Forestry Society, the Deputy secretary general of Wood Industry Branch of Chinese Forestry Society, and the secretary general for Green Wood Packaging National Innovation Alliance of National Forestry and Grassland Administration. As the project Leader, undertook National Natural Science Foundation of China, Forestry Professional Standard Project, General fund project of Chinese Academy of Forestry and other projects. Current, 37 papers were published by the first author or corresponding author in Industrial Crops & Products, ACS Applied Energy Materials, Journal of Materials Research & Technology, Scientia Silvae Sinicae and other academic journals, which 15 papers were indexed by SCI. Co-authored two monographs and a total of 430 thousand words, undertake or participate 6 publishing standards, as the main completion person obtained 4 identification results, completed 7 technical conversions.

Key research projects

  • Microstructure mechanics and electrothermal effect failure evolution of wooden electrothermal composite under coupling effects of electric- moisture-thermal, National natural science foundation of China, Project Leader, 2021.01-2024.12.

  • Preparation and application technology of puffed decorative composite, National key research and development program of China, Project participant, 2022.11-2027.10.

  • Technical specification of raw materials saving and pollutants discharge reduction in particleboard production, forestry professional standard project, Project Leader, 2019.01-2020.12.

  • Uniform and efficient heating technology of electrothermal engineered wood flooring and its performance adjustment, General fund project of Chinese Academy of Forestry, Project Leader, 2016.05-2019.04.

  • Research on common technical standards of new and special wood deep processing, National Natural Science Foundation of China, Project participant, 2016.07-2019.12.

Awards & achievements

  • The production technology and application of smoke suppression and flame retardant medium (high) density fiberboard, Liang Xi Forestry Science and Technology Second Prize, 2016, ranked third.

Published articles & books

  • Xin Tao, Dongxue Tian, Shanqing Liang*, et al. 2023. Construction of multifunctional surface to fabricate wood-derived cellulose electrothermal composites with flame retardant and hydrophobic performance for harsh operating conditions. Industrial Crops and Products, 202:117079.

  • Xin Tao, Dongxue Tian, Shanqing Liang*, et al. 2023. Facile strategy for preparing puffed wood-based metal composites with low density and enhanced thermal conduction via high-intensity microwave puffing pretreatment. Industrial Crops and Products, 194: 116388.

  • Xin Tao, Dongxue Tian, Shanqing Liang*, et al. 2023. Effects of wet treatment on bonding strength and electrothermal performance of electrothermal plywood bonded with emulsion polymer-isocyanate adhesive. Polymer Composites, 44(2):1331-1342.

  • Xin Tao, Dongxue Tian, Shanqing Liang*, et al. 2022. Research progress on the preparation of flexible and green cellulose-based electrothermal composites for joule heating applications. ACS Applied Energy Materials, 5(11):13096–13112.

  • Shanqing Liang, Huichong Wang, Xin Tao. 2022. Effects of multiwalled carbon nanotubes and reduced graphene oxide of different proportions on the electrothermal properties of cationic cellulose nanofibril-based composites. Journal of Materials Research & Technology, 17: 2388-2399.

  • Shanqing Liang, Xin Tao, Shanming Li, et al. 2022. Research progress on preparation and aging resistance of carbon-based wood electrothermal composites. Acta Materiae Compositae Sinica, 39(4): 1469-1485.

  • Shanqing Liang, Huicong Wang, Xin Tao. 2021. Conductive biomass films containing graphene oxide and cationic cellulose nanofibers for electric-heating applications. Nanomaterials, 11(5):1187.

  • Shanqing Liang, Huicong Wang, Xin Tao. 2021. Multiwalled carbon nanotube/cationic cellulose nanofibril electrothermal films: mechanical, electrical, electrothermal, and cycling performances. Wood Science & Technology, 55(6): 1711-1723.

  • Yuan Chai, Shanqing Liang*, Yongdong Zhou, et al. 2020. Low-melting-point alloy integration into puffed wood for improving mechanical and thermal properties of wood–metal functional composites. Wood Science & Technology, 54(3):637-649.

Other results

  • Liang Shanqing, Chai Yuan, Fu Feng. A preparation method of wood composite materials with controllable thermal conductivity:  201810482173.X. 2020.

  • Liang Shanqing, Chang Liang, Jin Juwan, et al. Technical specification of raw materials saving and pollutants discharge reduction in particleboard production : LY / T 1979-2022. Beijing: Standard Press of China, 2022.

  • Liang Shanqing, Fu Feng, Lv Bin, et al. Electric heating wood based flooring with built-in electrothermal layer: LY/T 3192-2020. Beijing: Standard Press of China, 2020.