|
Author(s): |
Linkun Xie, College of Wood Science and Interior Decoration, Southwest Forestry University, Kunming 650224,China
Guanben Du, College of Wood Science and Interior Decoration, Southwest Forestry University, Kunming 650224,China
Yanjun Liang, College of Wood Science and Interior Decoration, Southwest Forestry University, Kunming 650224,China
Qiping Deng, College of Wood Science and Interior Decoration, Southwest Forestry University, Kunming 650224,China
Xijuan Chai, College of Wood Science and Interior Decoration, Southwest Forestry University, Kunming 650224,China |
|
Abstract: |
The surface of low density polyethylene was modified for different treatment time by lowAbstract: The nonlinear dynamics equation is developed for suspension-type package system with the rubbertemperature O2 plasma under the condition of working pressure of 20Pa and treatment power of 30W. TheAbstract: The nonlinear dynamics equation is developed for suspension-type package system with the rubberresults of modification have been analyzed with scanned electron microscopy(SEM), atomic forceAbstract: The nonlinear dynamics equation is developed for suspension-type package system with the rubbermicroscopy(AFM), fourier transformed infrared spectroscopy(FTIR),water contact angle measurement, etc..Abstract: The nonlinear dynamics equation is developed for suspension-type package system with the rubberThe results showed that the weight loss rate of per unit area and surface roughness were improved with theAbstract: The nonlinear dynamics equation is developed for suspension-type package system with the rubberincrease of the treatment time; the water contact angles were gradually decreased in the short treatment timeAbstract: The nonlinear dynamics equation is developed for suspension-type package system with the rubberand theirs values did not cause significant change with the prolonged treatment time; the treated film surfaceAbstract: The nonlinear dynamics equation is developed for suspension-type package system with the rubberhas formed some polar species such as carbonyl, hydroxyl and carboxyl groups; the treated film peel strengthAbstract: The nonlinear dynamics equation is developed for suspension-type package system with the rubberhas greatly increased and reached the maximum 0.594 N/mm at 80s treatment time, its value compared withAbstract: The nonlinear dynamics equation is developed for suspension-type package system with the rubberuntreated increased 148%.
|