http://chineseinput.net/에서 pinyin(병음)방식으로 중국어를 변환할 수 있습니다.
변환된 중국어를 복사하여 사용하시면 됩니다.
Mehrdad Khamforoush,Tayyebeh Asgari,Tahmasb Hatami,Farzad Dabirian 한국화학공학회 2014 Korean Journal of Chemical Engineering Vol.31 No.9
We studied the capability of electrocentrifuge-spinning (ECS) method for generating highly aligned nano-fiber. First, the degree of nanofiber alignment (DNA) produced by ECS was compared with that of rotating drum (RD)method and ECS superiority was demonstrated. Then central composite design (CCD) and response surface methodol-ogy (RSM) was used for optimization of operating conditions. The critical factors selected for the examination werevoltage, polymer concentration, collector diameter and spinneret rotational speed. To design the required experimentsat the settings of independent parameters, RSM was applied. A total of 30 experiments were accomplished towardsthe construction of a quadratic model for target variable. Using this quadratic model, the influence of aforementionedvariables was discussed on DNA. The best operating condition for attaining the maximum value of DNA was the appliedvoltage of 20.19 kV, polymer concentration of 17.44 wt%, collector diameter of 40.76 cm, and rotational speed of 2680.10rpm.
Zahra Ahmadi,Seyed Abdolkarim Hosseini Ravandi,Fatemeh Haghighat,Farzad Dabirian 한국섬유공학회 2020 Fibers and polymers Vol.21 No.6
The current research presents the optimization of the parameters involved in the production of polyacrylonitrile(PAN) nanofibers via the needleless electrospinning system. The experiments were designed using the Taguchi method toinvestigate the morphological, physical, and mechanical properties of the nanofibers. The single-wall carbon nanotubes(CNT) were used in order to improve the mechanical properties of the electrospun nanofibers. The diameter of the PANnanofibers in the needleless system was less than 300 nm, which was smaller than that in the conventional system. The resultsshowed that the concentration had the greatest impact on the fiber diameter than other parameters in both PAN and PAN/CNTnanofibers. The specific stress of the nanofibers produced by the needleless electrospinning system was lower than thatcreated by the conventional electrospinning system. Addition of The CNT caused to improve the specific stress of the PAN/CNT nanofibers compared with the PAN nanofibers. However, excessive amounts of CNT had a negative effect on theelongation and modulus because of the aggregation of CNT inside the nanofibers. The X-ray diffraction analysis was used tostudy the crystalline behavior of the PAN nanofibers produced via the needleless electrospinning system. The results showedthat the PAN nanofibers had amorphous structure compared with the conventional PAN nanofibers.