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Photocatalytic ozonation-based degradation of phenol by ZnO—TiO_(2)nanocomposites in spinning disk reactor
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作者 Xueqing Ren Jiahao Niu +5 位作者 Yan Li Lei Li Chao Zhang Qiang Guo Qiaoling Zhang Weizhou Jiao 《Chinese Journal of Chemical Engineering》 SCIE EI CAS CSCD 2024年第8期74-84,共11页
Spinning disk reactor(SDR)has emerged as a novel process intensification photocatalytic reactor,and it has higher mass transfer efficiency and photon utilization for the degradation of toxic organic pollutants by adva... Spinning disk reactor(SDR)has emerged as a novel process intensification photocatalytic reactor,and it has higher mass transfer efficiency and photon utilization for the degradation of toxic organic pollutants by advanced oxidation processes(AOPs).In this study,ZnO—TiO_(2)nanocomposites were prepared by solgel method,and coated on the disk of SDR by impregnation-pull-drying-calcination method.The performance of catalyst was characterized by X-ray diffraction,scanning electron microscope,X-ray photoelectron spectroscopy,photoluminescence and ultraviolet—visible diffuse reflectance spectroscopy.Photocatalytic ozonation in SDR was used to remove phenol,and various factors on degradation effect were studied in detail.The results showed that the rate of degradation and mineralization reached 100%and 83.4%under UV light irradiation after 50 min,compared with photocatalysis and ozonation,the removal rate increased by 69.3%and 34.7%,and mineralization rate increased by 56.7%and 62.9%,which indicated that the coupling of photocatalysis and ozonation had a synergistic effect.The radical capture experiments demonstrated that the active species such as photogenerated holes(h^(+)),hydroxyl radicals(·OH),superoxide radical(·O_(2)-)were responsible for phenol degradation,and·OH played a leading role in the degradation process,while h+and·O_(2)^(-)played a non-leading role. 展开更多
关键词 spinning disk reactor Photocatalytic ozonation ZnO-TiO_(2)nanocomposites Advanced oxidation processes
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Effects of Spinning Process on Intergranular Corrosion Behavior of 5A06 Aluminum Alloy 被引量:1
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作者 张谦君 付永康 +4 位作者 ZHAO Wenlong 李青 ZHANG Rulin GUO Yong LI Rongbin 《Journal of Wuhan University of Technology(Materials Science)》 SCIE EI CAS CSCD 2023年第1期231-236,共6页
Aluminum alloy tubes were prepared by tube spinning.The intergranular and electrochemical corrosion tests were used to investigate the intergranular corrosion behavior of the 5A06 aluminum alloy blank sample and the s... Aluminum alloy tubes were prepared by tube spinning.The intergranular and electrochemical corrosion tests were used to investigate the intergranular corrosion behavior of the 5A06 aluminum alloy blank sample and the spinning sample.Results showed that the intergranular corrosion resistance of the spinning sample was higher than that of the blank sample.In addition,the electrochemical corrosion resistance of the spinning sample was higher than that of the blank sample.The EDS maps indicated a uniform element distribution pattern of aluminum and magnesium.Moreover,the phase composition and lattice constant of the samples were obtained by XRD analysis.The differences in microstructure between the aluminum alloy subjected to the spinning process and the untreated aluminum alloy were determined by EBSD.The differences were mainly attributed to the complex interactions among grain size,dislocations and grain boundaries. 展开更多
关键词 spinning process 5A06 aluminum alloy intergranular corrosion EBSD
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Study on Licker-In and Flat Speeds of Carding Machine and Its Effects on Quality of Cotton Spinning Process 被引量:1
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作者 Md. Mominul Motin Ayub Nabi Khan Md. Obaidur Rahman 《Journal of Textile Science and Technology》 2023年第3期198-214,共17页
Spinning has a significant influence on all textile processes. Combinations of all the capital equipment display the process’ critical condition. By transforming unprocessed fibers into carded sliver and yarn, the ca... Spinning has a significant influence on all textile processes. Combinations of all the capital equipment display the process’ critical condition. By transforming unprocessed fibers into carded sliver and yarn, the carding machine serves a critical role in the textile industry. The carding machine’s licker-in and flat speeds are crucial operational factors that have a big influence on the finished goods’ quality. The purpose of this study is to examine the link between licker-in and flat speeds and how they affect the yarn and carded sliver quality. A thorough experimental examination on a carding machine was carried out to accomplish this. The carded sliver and yarn produced after experimenting with different licker-in and flat speed combinations were assessed for important quality factors including evenness, strength, and flaws. To account for changes in material qualities and machine settings, the study also took into consideration the impact of various fiber kinds and processing circumstances. The findings of the investigation showed a direct relationship between the quality of the carded sliver and yarn and the licker-in and flat speeds. Within a limited range, greater licker-in speeds were shown to increase carding efficiency and decrease fiber tangling. On the other hand, extremely high speeds led to more fiber breakage and neps. Higher flat speeds, on the other hand, helped to enhance fiber alignment, which increased the evenness and strength of the carded sliver and yarn. Additionally, it was discovered that the ideal blend of licker-in and flat rates varied based on the fiber type and processing circumstances. When being carded, various fibers displayed distinctive behaviors that necessitated adjusting the operating settings in order to provide the necessary quality results. The study also determined the crucial speed ratios between the licker-in and flat speeds that reduced fiber breakage and increased the caliber of the finished goods. The results of this study offer useful information for textile producers and process engineers to improve the quality of carded sliver and yarn while maximizing the performance of carding machines. Operators may choose machine settings and parameter adjustments wisely by knowing the impacts of licker-in and flat speeds, which will increase textile industry efficiency, productivity, and product quality. 展开更多
关键词 spinning process Carding Machine Yarn Count FLAT Licker-In Sliver Hank
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Study on Licker-In and Flat Speeds of Carding Machine and Its Effects on Quality of Cotton Spinning Process
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作者 Md. Mominul Motin Ayub Nabi Khan Md. Obaidur Rahman 《Journal of Flow Control, Measurement & Visualization》 2023年第3期198-214,共17页
Spinning has a significant influence on all textile processes. Combinations of all the capital equipment display the process’ critical condition. By transforming unprocessed fibers into carded sliver and yarn, the ca... Spinning has a significant influence on all textile processes. Combinations of all the capital equipment display the process’ critical condition. By transforming unprocessed fibers into carded sliver and yarn, the carding machine serves a critical role in the textile industry. The carding machine’s licker-in and flat speeds are crucial operational factors that have a big influence on the finished goods’ quality. The purpose of this study is to examine the link between licker-in and flat speeds and how they affect the yarn and carded sliver quality. A thorough experimental examination on a carding machine was carried out to accomplish this. The carded sliver and yarn produced after experimenting with different licker-in and flat speed combinations were assessed for important quality factors including evenness, strength, and flaws. To account for changes in material qualities and machine settings, the study also took into consideration the impact of various fiber kinds and processing circumstances. The findings of the investigation showed a direct relationship between the quality of the carded sliver and yarn and the licker-in and flat speeds. Within a limited range, greater licker-in speeds were shown to increase carding efficiency and decrease fiber tangling. On the other hand, extremely high speeds led to more fiber breakage and neps. Higher flat speeds, on the other hand, helped to enhance fiber alignment, which increased the evenness and strength of the carded sliver and yarn. Additionally, it was discovered that the ideal blend of licker-in and flat rates varied based on the fiber type and processing circumstances. When being carded, various fibers displayed distinctive behaviors that necessitated adjusting the operating settings in order to provide the necessary quality results. The study also determined the crucial speed ratios between the licker-in and flat speeds that reduced fiber breakage and increased the caliber of the finished goods. The results of this study offer useful information for textile producers and process engineers to improve the quality of carded sliver and yarn while maximizing the performance of carding machines. Operators may choose machine settings and parameter adjustments wisely by knowing the impacts of licker-in and flat speeds, which will increase textile industry efficiency, productivity, and product quality. 展开更多
关键词 spinning process Carding Machine Yarn Count FLAT Licker-In Sliver Hank
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Optimization of Processing Parameters of Power Spinning for Bushing Based on Neural Network and Genetic Algorithms 被引量:3
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作者 Junsheng Zhao Yuantong Gu Zhigang Feng 《Journal of Beijing Institute of Technology》 EI CAS 2019年第3期606-616,共11页
A neural network model of key process parameters and forming quality is developed based on training samples which are obtained from the orthogonal experiment and the finite element numerical simulation. Optimization o... A neural network model of key process parameters and forming quality is developed based on training samples which are obtained from the orthogonal experiment and the finite element numerical simulation. Optimization of the process parameters is conducted using the genetic algorithm (GA). The experimental results have shown that a surface model of the neural network can describe the nonlinear implicit relationship between the parameters of the power spinning process:the wall margin and amount of expansion. It has been found that the process of determining spinning technological parameters can be accelerated using the optimization method developed based on the BP neural network and the genetic algorithm used for the process parameters of power spinning formation. It is undoubtedly beneficial towards engineering applications. 展开更多
关键词 power spinning process parameters optimization BP NEURAL network GENETIC algorithms (GA) response surface methodology (RSM)
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Finite element simulation and microstructure of two-pass inner spinning process of curved-generatrix cone cylindrical parts with annealing/quenching 被引量:2
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作者 HAO Zeng-liang YANG Zhe-yi) +3 位作者 WEI Wei LIU Lei LUO Jun-ting LIU Jin-heng 《Journal of Central South University》 SCIE EI CAS CSCD 2019年第12期3305-3314,共10页
A two-pass annealing/quenching internal spinning process with small-end rotations is proposed to form a curved generatrix conical thin-walled shell.That is,annealing at 360°C for 2 h followed by the 1st pass spin... A two-pass annealing/quenching internal spinning process with small-end rotations is proposed to form a curved generatrix conical thin-walled shell.That is,annealing at 360°C for 2 h followed by the 1st pass spinning,and finally quenching in ice water after holding for 1 h at 498°C followed by the 2nd pass spinning.ABAQUS finite element software is used to simulate the internal spinning process of the products formed under different forming parameters.The distribution laws of spinning force,the stress and strain under different forming processes were compared and analyzed.The mechanical properties and microstructure of the products are subsequently analyzed.The results show that the strain and the residual stress in the skin area of the formed products under two-pass spinning process more uniform,and the hardness and the mechanical performance are improved.The microstructure of the products formed with the 0.15 mm thickness reduction at the 2nd pass is excellent.And the second phase grain size distributed uniformly in the range of 36μm.Whereas,the second phase particles are broken seriously and the size distribution inhomogeneity is increased when the thickness reduction in the skin area is greater than 0.20 mm at the 2nd pass spinning process. 展开更多
关键词 curved generatrix conical internal spinning process annealing/quenching small-end rotations finite element simulation
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Evolution of microstructure and mechanical properties of A356 aluminium alloy processed by hot spinning process 被引量:9
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作者 Xiao-yan Wu Hua-rui Zhang +2 位作者 Huan-liang Chen Li-na Jia Hu Zhang 《China Foundry》 SCIE 2017年第2期138-144,共7页
The evolution of microstructure and mechanical properties of A356 aluminum alloy subjected to hot spinning process has been investigated. The results indicated that the deformation process homogenized microstructure a... The evolution of microstructure and mechanical properties of A356 aluminum alloy subjected to hot spinning process has been investigated. The results indicated that the deformation process homogenized microstructure and improved mechanical properties of the A356 aluminum alloy. During the hot spinning process, eutectic Si particles and Fe-rich phases were fragmented, and porosities were eliminated. In addition, recrystallization of Al matrix and precipitation of Al Si Ti phases occurred. The mechanical property testing results indicated that there was a significant increase of ductility and a decrease of average microhardness in deformed alloy over die-cast alloy. This is attributed to uniform distribution of finer spherical eutectic Si particles, the elimination of casting defects and to the recrystallized finer grain structure. 展开更多
关键词 hot spinning process A356 aluminum alloy microstructure mechanical properties
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Modeling and Investigation of the Wall Thickness Changes and Process Time in Thermo-Mechanical Tube Spinning Process Using Design of Experiments 被引量:1
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作者 Ahmad reza Fazeli Nahrekhalaji Majid Ghoreishi Ebrahim Sharifi Tashnizi 《Engineering(科研)》 2010年第3期141-148,共8页
Tube spinning technology is one of the effective methods of manufacturing large diameter thin-walled shapes. In this research, effects of major parameters of thermo mechanical tube spinning process such as preform'... Tube spinning technology is one of the effective methods of manufacturing large diameter thin-walled shapes. In this research, effects of major parameters of thermo mechanical tube spinning process such as preform's thickness, percentage of thickness reduction, mandrel rotational speed, feed rate, solution treatment time and aging treatment time on the wall thickness changes and process time in thermo-mechanical tube spinning process for fabrication of 2024 aluminum spun tubes using design of experiments (DOE), are studied. The statistical results are verified through some experiments. Results of experimental evaluation are analyzed by variance analysis and mathematic models are obtained. Finally using these models, input parameters for optimum production are achieved. 展开更多
关键词 TUBE spinning process Time WALL Thickness CHANGES Analysis of Variance (ANOVA) Regression Interaction Effect
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STRUCTURE EVOLUTION OF POLYMER CHAINS FOR NECKING FORMATION IN HIGH-SPEED FIBER SPINNING PROCESS
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作者 Hong Zheng Wei Yu Hong-bin Zhang and Chi-xing Zhou Department of Polymer Materials Science & Engineering,Shanghai Jiao Tong University,Shanghai 200240,China 《Chinese Journal of Polymer Science》 SCIE CAS CSCD 2006年第1期1-11,共11页
Finite element method is used to simulate the high-speed melt spinning process, based on the equation system proposed by Doufas et al. Calculation predicts a neck-like deformation, as well as the related profiles of v... Finite element method is used to simulate the high-speed melt spinning process, based on the equation system proposed by Doufas et al. Calculation predicts a neck-like deformation, as well as the related profiles of velocity, diameter, temperature, chain orientation, and crystallinity in the fiber spinning process. Considering combined effects on the process such as flow-induced crystallization, viscoelasticity, filament cooling, air drag, inertia, surface tension and gravity, the simulated material flow behaviors are consistent with those observed for semi-crystalline polymers under various spinning conditions, The structure change of polymer coils in the necking region described by the evolution of conformation tensor is also investigated. Based on the relaxation mechanism of macromolecules in flow field different types of morphology change of polymer chains before and in the neck are proposed, giving a complete prospect of structure evolution and crystallization of semi-crystalline polymer in the high speed fiber spinning process. 展开更多
关键词 Semi-crystalline Polymer CRYSTALLIZATION High-speed Fiber spinning process CONFORMATION Finite Element Method (FEM).
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Effects of melt spinning process parameters and wheel surface quality on production of 6060 aluminum alloy powders and ribbons
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作者 SultanÖZTÜRK Sefa Emre SÜNBÜL KürşatİCİN 《Transactions of Nonferrous Metals Society of China》 SCIE EI CAS CSCD 2020年第5期1169-1182,共14页
The aim of this study is to investigate the surface quality of the melt spinning wheel, which was changed from smooth type to textured structure, to atomize liquid metal to form powders. The effects of melt spinning p... The aim of this study is to investigate the surface quality of the melt spinning wheel, which was changed from smooth type to textured structure, to atomize liquid metal to form powders. The effects of melt spinning process parameters like wheel speed, gas ejection pressure, molten metal temperature, nozzle–wheel gap and wheel surface quality on the morphological and microstructural features of 6060 aluminum alloy powders and ribbons were investigated. It was observed that ribbon type material was obtained with the smooth wheel and the powder was produced with textured type. The sizes of produced ribbons with smooth surface wheel varied in the range of 30-170 μm in thickness, 4-8 mm in width, and 0.5-1 m in length. The average powder size of the powders manufactured using the textured wheel was in the range of 161-274 μm, depending on the process parameters.Increasing the wheel speed, melt temperature and decreasing gas ejection pressure, nozzle-wheel gap resulted in the decrease of both ribbon thickness and powder size. The microstructures of the powders and ribbons were the equiaxed cellular type, and the average grain sizes diminished with decreasing the ribbon thickness and powder size. The maximum cooling rates were 2.00×10^5 and 1.26×10^4 K/s for the ribbon with thickness of 30 μm and for the powder with size of 87 μm, respectively. 展开更多
关键词 melt spinning method 6060 aluminum alloy process parameters textured wheel
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Study on the Rotor Spinning Processing of Spun Silk/Cashmere Blended Yarn
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作者 英迪 汪军 +1 位作者 奚琼 梁金茹 《Journal of Donghua University(English Edition)》 EI CAS 2007年第6期796-800,共5页
This paper studies rotor spinning blended yam produced of spun silk and cashmere. Nine samples were spun, from three different opening rollers and different navels. According to the Uster test results of yam quality p... This paper studies rotor spinning blended yam produced of spun silk and cashmere. Nine samples were spun, from three different opening rollers and different navels. According to the Uster test results of yam quality properties, optimum selection is done by using analysis method of combining fuzzy decision-making and fuzzy pattern classification. Experimental plan is designed based on universal rotated experimental design, and the method of confined optimization is used to optimize the speed of opening roller, the speed of rotor and twist factor, according to the results of yam quality test by Uster. 展开更多
关键词 rotor spinning spun silk/cashmere blended yarn optimum selection process optimization
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基于小波-Contourlet变换的Cycle spinning硬阈值图像去噪方法 被引量:4
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作者 任洪娥 王海丰 赵鹏 《光学技术》 CAS CSCD 北大核心 2008年第6期854-857,861,共5页
综合考虑小波变换的特点以及Contourlet变换对二维光滑图像有很好的近似特性和对曲线有更好的"稀疏"表示的特点,提出了一种基于小波-Contorlet变换的图像硬阈值去噪方法,并用Cycle spinning去除图像中小波-Con- tourlet变换... 综合考虑小波变换的特点以及Contourlet变换对二维光滑图像有很好的近似特性和对曲线有更好的"稀疏"表示的特点,提出了一种基于小波-Contorlet变换的图像硬阈值去噪方法,并用Cycle spinning去除图像中小波-Con- tourlet变换平移变异性而产生的伪吉布斯现象。实验结果表明:该方法与采用Cycle spinning的小波和Contourlet去嗓算法相比,PSNR分别提高了0.4~1.6和0.2~1.0。与其它去噪算法相比,这种方法能有效地去除图像中的噪声,具有更高的PSNR值,能更好地保留图像的纹理和细节。 展开更多
关键词 信息光学 图像处理 图像去噪 小波-CONTOURLET变换 Cycle spinning
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结合波原子和Cycle Spinning的图像去噪 被引量:2
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作者 宋宜美 宋国乡 《西安电子科技大学学报》 EI CAS CSCD 北大核心 2010年第2期300-304,共5页
结合波原子变换和Cycle Spinning的优点,提出一种新的图像去噪算法.由于波原子变换缺乏平移不变性,直接进行系数阈值去噪会在去噪图像边缘产生伪吉普斯现象,导致图像的失真.该算法引入Cycle Spinning技术有效抑制这种视觉失真,对原始含... 结合波原子变换和Cycle Spinning的优点,提出一种新的图像去噪算法.由于波原子变换缺乏平移不变性,直接进行系数阈值去噪会在去噪图像边缘产生伪吉普斯现象,导致图像的失真.该算法引入Cycle Spinning技术有效抑制这种视觉失真,对原始含噪图像进行波原子硬阈值去噪.实验结果表明,与单一波原子变换、小波Cycle Spinning方法相比,新算法能够在去除噪声的同时保留边缘,有效抑制了传统去噪方法的伪吉普斯现象,视觉效果也能得到较好的改善.对强噪声级的图像,这种优势更为明显. 展开更多
关键词 图像处理 去噪 小波变换 波原子 平移不变性 循环平移
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Surfacelet联合多向Cycle Spinning的图像去噪方法 被引量:1
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作者 曹家年 汤春瑞 刘丹丹 《哈尔滨工程大学学报》 EI CAS CSCD 北大核心 2009年第8期952-956,共5页
为了有效地保留去噪后图像的细节和纹理,综合利用Surfacelet变换和Cycle Spinning,提出一种新的图像去噪方法.Surfacelet具有良好的多维信号处理能力,但是Surfacelet不适宜直接处理二维图像,该文把多幅加噪图像分别进行多个方向的Cycle ... 为了有效地保留去噪后图像的细节和纹理,综合利用Surfacelet变换和Cycle Spinning,提出一种新的图像去噪方法.Surfacelet具有良好的多维信号处理能力,但是Surfacelet不适宜直接处理二维图像,该文把多幅加噪图像分别进行多个方向的Cycle Spinning并压成图像序列,生成后的多个序列合成一个图像序列,进行Surfacelet变换后,对其系数硬阈值去噪.实验结果显示,去噪后图像无Wavelet的伪吉布斯现象以及Contourlet的划痕效果,该方法能明显改善图像视觉效果,显著提高图像的PSNR值. 展开更多
关键词 Surfacelet变换 图像处理 CYCLE spinning CONTOURLET变换
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Contourlet transform for image fusion using cycle spinning 被引量:10
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作者 Kun Liu Lei Guo Jingsong Chen 《Journal of Systems Engineering and Electronics》 SCIE EI CSCD 2011年第2期353-357,共5页
A new method for image fusion based on Contourlet transform and cycle spinning is proposed. Contourlet transform is a flexible multiresolution, local and directional image expansion, also provids a sparse representati... A new method for image fusion based on Contourlet transform and cycle spinning is proposed. Contourlet transform is a flexible multiresolution, local and directional image expansion, also provids a sparse representation for two-dimensional piece-wise smooth signals resembling images. Due to lack of translation invariance property in Contourlet transform, the conventional image fusion algorithm based on Contourlet transform introduces many artifacts. According to the theory of cycle spinning applied to image denoising, an invariance transform can reduce the artifacts through a series of processing efficiently. So the technology of cycle spinning is introduced to develop the translation invariant Contourlet fusion algorithm. This method can effectively eliminate the Gibbs-like phenomenon, extract the characteristics of original images, and preserve more important information. Experimental results show the simplicity and effectiveness of the method and its advantages over the conventional approaches. 展开更多
关键词 image processing image fusion Contourlet transform cycle spinning.
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THE PRACTICE OF ACRYLIC SIROSPUN YARN ON THE SEMI WORSTED SPINNING FRAME
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作者 魏幼平 《Journal of China Textile University(English Edition)》 EI CAS 1993年第4期71-80,共10页
The technique of sirospun process is applied on a modified semi-worsted balloonless spinningframe to investigate the effect of spindle-speed,yarn-twist and strand-spacing on yarn properties.Yarn breaking strength,brea... The technique of sirospun process is applied on a modified semi-worsted balloonless spinningframe to investigate the effect of spindle-speed,yarn-twist and strand-spacing on yarn properties.Yarn breaking strength,breaking extension,evenness and imperfection are examined on the basisof CCD experimental design.Yarn hairiness is particularly concerned,being found that all spinningparameters tested have significant effects on hairiness and that the minimum number of hairs oc-curs at the strand-spacing of 14.4 mm.Compared to conventional single spun yarn,experimentshave revealed the greatest advantage of using sirospun process is that all sirospun yarns have muchless hairiness.A new sirospun yarn fault,so called“loop”,has also been examined.The most likely cause forthis yarn fault is the strand-tension unbalance between the two strands when low tension spinningis applied.Further analysis and some initial tests have been carried out in the hope of overcomingthis loop fault which is an important obstacle to the application of balloonless spinning. 展开更多
关键词 ring FRAME balloonless spinning SIROSPUN process strand-spacing YARN hairness YARN loop
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The Spinning Period of a Free Electron and the Periods of Spin and Orbital Motions of Electron in Atomic States
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作者 Ziya Saglam Mesude Saglam +1 位作者 S. Burcin Bayram Tim Horton 《Journal of Modern Physics》 2015年第15期2239-2243,共5页
The spinning period for a free electron and the periods of spin and orbital motion of the electron in an atomic state have been calculated. We have shown that for a free electron the spinning period is: (Ts)free=1.9&#... The spinning period for a free electron and the periods of spin and orbital motion of the electron in an atomic state have been calculated. We have shown that for a free electron the spinning period is: (Ts)free=1.9×10-20s. But in the atomic case we show that, both the spin and the orbital periods depend on the quantum numbers n, ml, ms and the effective Landé-g factor, g* which is a function of the quantum number l of the atomic state given in Dirac notation. We have also calculated these periods for the ground state and some excited states—hydrogen and hydrogen-like atoms. For atomic states the approximate values of spinning period are and the related orbital periods are: (T0)atomic=(10-16-10-15)s. Therefore atto-second processes which are related to the pulse of 10-18 s will filter the orbital motion of the electron but will be long enough to detect the details of the spin motion, such as flip-flops. 展开更多
关键词 ELECTRON spin Landé-g Factor Magnetic Top Model spinning PERIOD Atto-Seconds processes
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Study on Spinning and Properties of PLA Yarn
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作者 王鑫 于湖生 《科技信息》 2012年第11期283-284,共2页
The essay recommends the various properties of polylactic-acid yarns in order to know them in a new step.Designing the process and spunning of the PLA yarn,analyzing the points of the processes.The PLA yarn is process... The essay recommends the various properties of polylactic-acid yarns in order to know them in a new step.Designing the process and spunning of the PLA yarn,analyzing the points of the processes.The PLA yarn is processed with different methods.The properties such as the strength and elongation,the frictional resistance are analyzed.The relationship between the strength and the twist factor was determined.So the basic properties of the PLA yarn is determined.Through the comparison of various parameters,a thorough understanding of the basic properties of PLA yarn,thereby determining the best PLA yarn production and use conditions,and for the PLA yarn production and provide technical support. 展开更多
关键词 服装行业 纺织服装 纺织材料 纺织品
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MODEL MEASUREMENT AND ANALYSIS OF ROTOR BEARING SYSTEM OF OE-SPINNING
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作者 陈瑞琪 李谦 《Journal of Donghua University(English Edition)》 EI CAS 1989年第Z1期46-54,共9页
This paper describes a CAD compatible software which can conduct model measurementand analysis on a dedicated computer system.This system which can provide modal testing andanalysis capability is also demonstrated bri... This paper describes a CAD compatible software which can conduct model measurementand analysis on a dedicated computer system.This system which can provide modal testing andanalysis capability is also demonstrated briefly.It addresses four main tasks:(1)modal testingand data acquisition,(2)data analysis and correlation,(3)output of modal analysis results,(4)predictions of modal parameters using Structural Dynamic Modification (SDM)software. 展开更多
关键词 structural dynamics data ACQUISITION singnal processing MODAL analysis ROTOR BEARING assembly OE-spinning
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静电纺丝技术制备ETPE基多元含能复合纤维
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作者 王慧 金晓明 +6 位作者 章支梦 郑天宇 魏娇 王宇航 高浩峰 姜炜 张光普 《火炸药学报》 EI CAS CSCD 北大核心 2024年第4期334-343,共10页
为了探索ETPE基多元含能复合纤维的静电纺丝制备工艺,以聚叠氮缩水甘油醚基热塑性弹性体(GAP-ETPE)为聚合物黏合剂,CL-20、纳米铝粉(n-Al)作为高能组分,采用静电纺丝技术制备了GAP-ETPE基超细含能复合纤维,并对溶剂、前驱液质量分数、... 为了探索ETPE基多元含能复合纤维的静电纺丝制备工艺,以聚叠氮缩水甘油醚基热塑性弹性体(GAP-ETPE)为聚合物黏合剂,CL-20、纳米铝粉(n-Al)作为高能组分,采用静电纺丝技术制备了GAP-ETPE基超细含能复合纤维,并对溶剂、前驱液质量分数、固相组分配比等关键工艺参数进行了优化;采用扫描电子显微镜(SEM)和透射电子显微镜(TEM)对产物形貌进行了表征,采用DSC法分析了复合纤维的热分解性能;测试了复合纤维的机械感度。结果表明,GAP-ETPE基含能复合纤维静电纺丝制备最佳溶剂为丙酮,产物成丝均匀、表面光滑;在GAP-ETPE/CL-20质量比为3∶7、前驱液质量分数为50%时,二元超细含能复合纤维(CL_(x)-ETPE_(y)-Z)的成丝效果最优,平均直径约为2480nm;在铝粉质量分数为10%、前驱液质量分数为50%时,三元超细含能复合纤维(CL-Al_(m)-ETPE-Z)的成丝效果最优,平均直径约为930nm;相比于CL-20,CL_(7)-ETPE_(3)-50含能复合纤维热分解峰值温度提前了29℃,加入n-Al之后热分解峰值温度提前了32℃,且优于物理共混物(PM);与CL-20的感度(P=100%、H_(50)=17cm)相比,GAP-ETPE/CL-20和GAP-ETPE/CL-20/Al含能复合纤维的摩擦感度(32%和48%)和撞击感度(29cm和43cm)均大幅降低,且低于同配方的物理共混物。 展开更多
关键词 材料科学 含能复合纤维 制备工艺 静电纺丝 GAP-ETPE CL-20 n-Al
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