Main work
Prof. Chang Liang has hosted and undertaken more than ten research projects, including Sub projects of the National Key Research and Development Program, National Forestry and Grassland Science and Technology Achievement Promotion Project, and major projects funded by the Chinese Academy of Forestry.
He has published more than 20 papers as the first author or corresponding author in various academic journals, of which 10 were included in SCI. He has authorized 4 national invention patents as the first complete person, and lead the issuance of two forestry industry standards. As the main executor, completed 7 new technology evaluations and 3 new product evaluations; Received 6 awards including Liang Xi Forestry Science and Technology Award, Beijing Science and Technology Award, and China Forestry Industry Innovation Award.
Prof. Chang Liang proposed and developed a complete set of preparation technology for high-strength formaldehyde free thermoplastic resin veneer composite materials. And achieved technological transformation of thermoplastic resin veneer composite materials in 6 enterprises in Beijing, Anhui, Henan, Fujian, Guangdong, Guangxi, and other places, realizing industrial production of thermoplastic resin plywood and solid wood composite flooring, and realizing their application in typical enterprises in the fields of home decoration and transportation.
He has explored the safety issues of the application of isocyanate adhesive systematically in the field of wood-based panels, proposed new technologies for preparing isocyanate ultra-thin fiberboard and optimized preparation scheme for isocyanate particleboard, effectively promoting the development of isocyanate formaldehyde free wood-based panel industry.
Key research projects
Sub project of National Key Research and Development Program, Key technologies for large-scale continuous flat pressing of plywood, 2023.12-2028.11
Sub project of National Key Research and Development Program, Research on the Influence of hot pressing process on the Properties of Ultra thin Fiberboard, 2021.12-2026.11
Key projects funded by the Chinese Academy of Forestry, Novel environmentally friendly and flame-retardant wood composite plywood manufacturing technology for high-speed trains, 2021.01-2025.12
Forestry industry standard projects, Polypropylene decorative film for wood-based panels, 2021.07-2022.12
Horizontal Enterprise Project, Research on the residual testing method and combustion product analysis of pMDI in the preparation of wood-based panels using polyurethane adhesive, 2021.03-2022.03
Forest and Grass Science and Technology Achievement Promotion Project, Promotion and demonstration of manufacturing technology for environmentally friendly thermoplastic resin veneer composite materials, 2020.01-2022.12
Forestry industry standard projects,Non-formaldehyde thermoplastic resin plywood, 2019.01-2020.12
Awards & achievements
On site survey technology and application of wooden components in ancient architecture, 2021-09, Second Prize of Liang Xi Forestry Science and Technology Award Science and Technology Progress Award, ranked 10th.
Environmental safety wood plastic composite wood-based panel and engineering material manufacturing technology, 2014-01, Third Prize of Beijing Science and Technology Award, ranked 3rd.
Environmental safety wood plastic composite wood-based panel and engineering material manufacturing technology, 2011-12, Second Prize of Liang Xi Forestry Science and Technology Award, ranked 3rd.
Published articles & books
Xueqi chen, Jie Zhang, Lei zhang, Qiheng Tang, Yongping Chen, Wenjing Guo, Liang Chang*.In-situ controllable synthesis of carbon dots for patterned fluorescent wood films rapid fabrication strategy[J]. Aggregate, 2024, e519.
Lao Wanli, Chang Liang*. Greenhouse gas footprint assessment of wood-based panel production in China[J]. Journal of Cleaner Production, 2023, (389): 136064.
Lao Wanli, Chang Liang*. Comparative life cycle assessment of medium density fiberboard and particleboard: A case study in China[J]. Industrial Crops & Products, 2023, 205: 117443.
Chang Liang*, Wang Yuanwu, Luo Shupin, et al. Synthesis of a novel waterborne diethanolamine-modified lignin/polyurethane emulsion and its application as an adhesive for polypropylene decorative film on wood-based panels[J]. Polymer Engineering and Science, 2023, 63(5): 1588.
Chang Liang*, Wang Yuanwu, Chen Xueqi, et al. Effect of Grafting Conditions on the Interfacial Properties of Silane Modified Wood Veneer/PE Film Plywood[J]. Polymers, 2023, 15: 2957.
Chang Liang*, Luo Shupin, Gao Li, et al. Composite waterborne polyurethane reinforced with silane modified lignin as an adhesive between polypropylene decorative films and wood-based panels[J]. Polymer engineering and science, 2022, 62(6): 1950-1958.
Liang Chang, Qiheng Tang, Li Gao, Lu Fang, Zheng Wang, Wenjing Guo*. Fabrication and characterization of HDPE resins as adhesives in plywood[J]. European Journal of Wood And Products,2018,76:325-335.
Other results
Chang Liang, Wang Zheng. A production method for hot pressing and cold pressing conversion of artificial boards and equipment for implementing this method: 200910241442.4[P]. 2012-05-09. First inventor.
Chang Liang, Wang Zheng, Guo Wenjing, et al. A formaldehyde free plywood and its preparation method: 201310080167.9[P]. 2015-12-09. First inventor.
Chang Liang, Guo Wenjing, Chen Yongping, et al. A continuous assembly equipment for thermoplastic resin plywood:201510716344.7[P]. 2018-01-09. First inventor.
Chang Liang, Wang Zheng, Guo Wenjing, et al. Achievement recognition: Key technology for preparing poplar thermoplastic resin veneer composite materials, 2015, National Forestry Administration, First main completion person.
Wu Fangjing, Tu Song, Chang Liang, et al. New product: Formaldehyde free ultra-thin high-density fiberboard, Lin Chan Xie Jian Zi (2023) No. 2. Third main completion person.
Li Ao, Qin Qionglin, Su Ke, et al. New product: Continuous flat pressed isocyanate formaldehyde free plywood, Lin Chan Xie Jian Zi (2022) No. 20. Fourth main completion person.
