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作 者:Xiaoneng Chen Fuqiang He Fajiang Chen Yuan Dai
机构地区:[1]School of Mechanical Engineering,Guizhou University,Guiyang,550025,China [2]Guizhou Jingmu Building Materials Co.,Guiyang,550025,China
出 处:《Particuology》2024年第11期294-304,共11页颗粒学报(英文版)
基 金:supported by Guizhou Jingmu Building Materials Co.Projects(grant No.K22-0108-007).
摘 要:In the industry of production of high-density fiberboards without adhesive,applying vibration to the particle packing system before pressing and molding is an effective way to improve the uniformity of particle packing and reduce porosity.In this work,physical experiments combined with numerical simulations are used to systematically investigate the packing structure behavior of wood powder particles under different vibration conditions.Macroscopic and microscopic properties such as porosity,coordination number,radial distribution function,and contacts are characterized and analyzed.The results indicate that when the vibration frequency is 72 Hz and the vibration amplitude is 1 mm,the porosity of wood powder particles closely packed is minimized.The results of the Discrete Element Method show that the distribution of the coordination number is approximately normal.As the vibration conditions change,the packing structure becomes tighter,but the main peak of the radial distribution function becomes blurred or even disappears.Vibration does not significantly change the type of contact in the packing structure.The conclusions can provide more comprehensive vibration conditions and microscopic theories for the uniform spreading of wood powder particles before pressing,ensuring that the finished panels have excellent mechanical and physical properties.
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