摘要
分析了亚纳米级超细木粉的应用前景,将电主轴技术应用到亚纳米级超细木粉裂解粉碎机中。利用高速铣刀和定刀的剪切作用,依靠特殊结构构成的楔形结构形成高压动压效应,设计了一台能够制备亚纳米级超细木粉的裂解粉碎机。试验结果表明该裂解粉碎机形成的木粉粒度已经达到了2400目,从而得到了一种新的亚纳米级超细木粉加工方法。
Application prospect of the sub-nanometer cellulosine was analyzed, the electric spindle technology was applied to the sehizolysis crusher of sub-nanometer cellulosine. A sehizolysis crusher of sub-nanometer cellulosine was designed, which is based on the shearing action between high-speed milling cutter and stationary cutter, and the dynamic pressure effect of high pressure formed by the special wedge structure. The experimental results show that the size of cellulosine processed by the sehizolysis crusher reaches 2400 mu. A new processing method of sub-nanometer cellulosine was obtained.
出处
《机床与液压》
北大核心
2010年第1期51-53,43,共4页
Machine Tool & Hydraulics
基金
黑龙江省自然科学基金资助项目(C2004-13)
黑龙江科技学院青年基金资助项目(08-9)
关键词
电主轴
亚纳米级超细木粉
动静平衡
动压效应
Electric spindle
Superfine cellulosine of sub-nanometer
Static and dynamic equilibrium
Dynamic pressure effect
