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Rheological properties of some thermotropic liquid crystalline polymers
Fan, Yurun,Dai, Shaocong,Tanner, Roger I. The Korean Society of Rheology 2003 Korea-Australia rheology journal Vol.15 No.3
Rheometry testing and the DSC measurement of five thermotropic liquid crystalline polymers (TLCP) have been carried out. The dynamic viscosities of the five TLCPs show a typical shear-thinning behaviour obeying the power-law with the power indices from 0.2 to 0.3. When these TLCPs are heated above the melting temperatures determined by the DSC measurements, the dynamic viscosities first rapidly decrease by 2~3 orders of magnitude then level off, finally increase gradually with the further increasing of temperature. The steady shearing exhibited the same behaviour as the dynamic shearing, but serious edge fracture of material slippage out of the plates occurred. The abnormal temperature dependence of the viscosities can be explained by the nematic-isotropic transition. By using the concept of activation energy, we propose a simple model which can fit the shear-thinning behaviour quite well and predict qualitatively correct temperature effects.
On the compressibility of bread dough
Wang, Chunguang,Dai, Shaocong,Tanner, Roger I. The Korean Society of Rheology 2006 Korea-Australia rheology journal Vol.18 No.3
Few investigations of bread dough compressibility have been reported in the literature, despite the fact that high compression stresses are often reached in processing. Here we report some experiments on the compressibility of an Australian wheat bread dough under compressive stresses up to 5 MPa, and show that the results are consistent with a mathematical model of bread dough containing entrained air. The implications for tensile testing are also considered.
On the compressibility of bread dough
Roger I. Tanner,Shaocong Dai,Chunguang Wang 한국유변학회 2006 Korea-Australia rheology journal Vol.18 No.3
Few investigations of bread dough compressibility have been reported in the literature, despite the fact that high compression stresses are often reached in processing. Here we report some experiments on the compressibility of an Australian wheat bread dough under compressive stresses up to 5 MPa, and show that the results are consistent with a mathematical model of bread dough containing entrained air. The implications for tensile testing are also considered.
Method for Network Traffic Generation Based on User Behavior of Streaming Media
Shuai Zeng,Zhongying Wang,Guofeng Zhao,Shaocong Gai,Jie Duan,Yi Zhang 보안공학연구지원센터 2016 International Journal of Future Generation Communi Vol.9 No.12
Existing traffic generation methods generate traffic by the flow generator structured and then sent data packets, which had two problems, one is that the traffic generated is not enough authenticity, the other one is that the rate of flow is not high. For coping with the method for network traffic generation based on user behavior of streaming media and streaming media server was presented. The test results show that comparing with D-ITG, the size of traffic produced by this method has been obviously improved, and its principle indicates that the flow is highly authentic. The proposed method breaks through the traditional thinking of traffic generator sends packet by itself, which decreases the difficulty of the realization of the traffic generator and has good reference value for the researches and development of traffic generator.
Xin Ni,Yuan Liang,Quanzi Pan,Hengjie Guo,Kai Chen,Bo Zhang,Shaocong Ni,Bin Sheng,Zeda Meng,Shouqing Liu,오원춘 한국재료학회 2023 한국재료학회지 Vol.33 No.11
Single-atom Pd clusters anchored on t-BaTiO3 material was synthesized using hydrothermal and ultrasonic methods for the effective piezoelectric catalytic degradation of pollutants using vibration energy. XRD patterns of BaTiO3 loaded with monoatomic Pd were obtained before and after calcining, and showed typical cubic-phase BTO. TEM and HAADF-STEM images indicated single-atom Pd clusters were successfully introduced into the BaTiO3. The piezoelectric current density of the prepared Pd-BaTiO3 binary composite was significantly higher than that of the pristine BaTiO3. Under mechanical vibration, the nanomaterial exhibited a tetracycline decomposition rate of ~95 % within 7 h, which is much higher than the degradation rate of 56.7 % observed with pure BaTiO3. Many of the piezo-induced electrons escaped to the Pd-doped BaTiO3 interface because of Pd’s excellent conductivity. Single-atom Pd clusters help promote the separation of the piezo-induced electrons, thereby achieving synergistic catalysis. This work demonstrates the feasibility of combining ultrasonic technology with the piezoelectric effect and provides a promising strategy for the development of ultrasonic and piezoelectric materials.