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Yanmei Feng,Zhiqiang Wang,Yunfeng Yang,Xiang-Feng Wu,Xiaodong Gong,Yajian Liu,Yufei Li,Zuo-Lin Cao,Chao Wang,Xin Tong 성균관대학교(자연과학캠퍼스) 성균나노과학기술원 2018 NANO Vol.13 No.7
The Ag2SO3/NaNbO3 hybrids have been fabricated via a facile method at room temperature. Several methods such as X-ray diffraction, UV-Vis diffuse reflectance spectroscopy, scanning electron microscopy, electrochemical impedance spectroscopy and X-ray photoelectron spectroscopy were used to characterize the samples. Moreover, the photocatalytic activity of the samples was assessed by degradation of rhodamine B and methyl orange under the visible light illumination. Experimental results indicated the photocatalytic degradation efficiency of the as-fabricated hybrids was first increased and then decreased with increasing the dosage of NaNbO3. When the molar ratio of Ag2SO3 to NaNbO3 was 1:0.7, the as-fabricated composites had the best photodegradation efficiency of 96.4% in 30 min for rhodamine B and 97.1% in 60 min for methyl orange, respectively. These were obviously higher than that of pure samples. Furthermore, Ag2SO3 was conjugated with NaNbO3 via chemical-bonds rather than physical contact. In addition, the possible photocatalytic degradation mechanism was also provided and the main roles during the process of photocatalytic degradation were played by holes.
Yanmei Gao,Liang Fan,Weipeng Yang,Lu Shi,Dan Zhou,Ming Wang 국제구조공학회 2022 Steel and Composite Structures, An International J Vol.45 No.3
The mechanical behaviors of the prefabricated steel-concrete composite beams are usually affected by the strength and the number of shear studs. Furthermore, the discrete degree of the arrangement for shear stud clusters, being defined as the clustering degree of shear stud λ in this paper, is an important factor for the mechanical properties of composite beams, even if the shear connection degree is unchanged. This paper uses an experimental and calculation method to investigate the influence of λ on the mechanical behavior of the composite beam. Five specimens (with different λ but having the same shear connection degree) of prefabricated composite beams are designed to study the ultimate supporting capacity, deformation, slip and shearing stiffness of composite beams. Experimental results are compared with the conventional slip calculation method (based on the influence of λ) of prefabricated composite beams. The results showed that the stiffness in the elastoplastic stage is reduced when λ is greater than 0.333, while the supporting capacity of beams has little affected by the change in λ. The slip distribution along the beam length tends to be zig-zagged due to the clustering of studs, and the slip difference increases with the increase of λ.
Yanmei Liu,Yunna Sun,Yan Wang,Guifu Ding,Bin Sun,Xiaolin Zhao 대한금속·재료학회 2017 ELECTRONIC MATERIALS LETTERS Vol.13 No.1
A complex reinforced polymer interposer comprised with conductive Nicylinders, ordered Ni grid and SiC nano-whiskers/Polyimide (PI)composite was proposed. The conductive Ni cylinders distributing in themiddle of each Ni grid unite designed as the supporting structure wereused as electric connecting component for the interposer and wereinsulated by the SiC nano-whiskers/PI composite. The comprehensiveproperties of the complex reinforced polymer interposer were improvedby a complex reinforced mechanism: the improved thermal conductivityand mechanical strength by the Ni supporting structure and the reducedmetal/polymer interfacial mismatch due to the SiC nano-whiskers/PIcomposite with the optimized mixture ratio. The above complexreinforced polymer interposer and a traditional reinforced polymerinterposer only with Ni grid were fabricated using micro-machiningtechnology for comparative analysis. The comprehensive properties ofthese two polymer interposers were analyzed respectively. Comparedwith the traditional design, the comprehensive properties of the proposedcomplex reinforced polymer interposer were improved further, such as,21.3% increase for the Young modulus, 10.1% decrease for thecoefficient of thermal expansion (CTE) and 54.9% increase for thethermal conductivity. Such complex reinforced mechanism based on themetal ordered grid and random nano-whiskers has potential to expandthe applications of the polymer interposer.
Yanmei Jia,Hongwu Jiang,Yan Wang,Zhimei Liu,Peng Liang 한국섬유공학회 2022 Fibers and polymers Vol.23 No.10
The integration of agricultural by-products and natural fibers is increasingly welcomed for sustainablemanufacturing of functional textiles. This study presents a facile strategy for fabricating bio-based coloristic and ultraviolet(UV) protective cellulosic fabric pre-cationized with a chitosan derivative - hydroxypropyltrimethyl ammonium chloridechitosan (HACC) followed by simultaneous coloration and finishing using chestnut shell extract (CSE). Results revealed thatHACC significantly enhanced the CSE adsorption quantity on cellulose fibers due to the increased number of cationicbinding sites. Both cotton and viscose showed a good building up property indicating their potential for dark shade dyeing. Cotton displayed higher CSE adsorption improvement than viscose due to the higher adsorption quantity of HACC duringpre-cationization. The washing and rubbing fastness was rated as mediate to high level, which was contributed by theelectrostatic interactions between the cationized cellulose fiber and anionic CSE. Importantly, the ultraviolet protective factor(UPF) of treated cellulosic reached over 40 and well retained over 70 % after 10 repeated washings. In summary, thefabrication strategy for coloristic and functional cellulosic fabrics using two natural products introduced in this research,contributes to sustainable manufacturing of textile.
Yinhui Wang,Yanmei Gao,Zhixiang Zhou,Dong Liu 국제구조공학회 2016 Steel and Composite Structures, An International J Vol.21 No.5
To avoid the cracks of cast-in-place concrete in shear pockets and seams in the traditional composite beam with precast decks, this paper proposed a new type of prefabricated steel truss-concrete composite beam (ab. PSTC beam) with pre-embedded shear studs (ab. PSS connector). To study the initial cracking load of concrete deck, the development and distribution laws of the cracks, 3 PSTC beams were tested under hogging moment. And the crack behavior of the deck was compared with traditional precast composite beam, which was assembled by shear pockets and cast-in-place joints. Results show that: (i) the initial crack appears on the deck, thus avoid the appearance of the cracks in the traditional shear pockets; (ii) the crack of the seam appears later than that of the deck, which verifies the reliability of epoxy cement mortar seam, thus solves the complex structure and easily crack behavior of the traditional cast-in-place joints; (iii) the development and the distribution laws of the cracks in PSTC beam are different from the conventional composite beam. Therefore, in the deduction of crack calculation theory, all the above factors should be considered.
Yuan Liu,Yanmei Liao,Yintao Long,Yuxiang Qian,Shengqiang Nie,Yi Wang,Jia Zeng,Chunmei Zhang,Linbo Tian,Jun Luo 한국고분자학회 2022 폴리머 Vol.46 No.3
It is a considerable challenge for expanding the applications of self-healing polyurethane because of the dilemma in balancing its mechanical and self-healing properties. Herein, a series of self-healing polyurethane systems (PUT-x) with short-range ordered rigid aromatic structures were synthesized by simply adjusting two kinds of diisocyanates, and by ingenious addition of aromatic chain extender. We hope to regulate the π-π interactions and further to manipulate the properties of obtained polyurethanes via adjusting the amount of the benzene rings in the molecular chains of the PUT-x systems. The PUT-5 with decent self-healing ability, optimal mechanical properties, acceptable thermal stability and favorable transparency was selected to incorporate liquid metal and fluorescent powder to fabricate conductive wire and anti-counterfeiting film. Significantly, the liquid metal could be recycled from the conductive wire conveniently without using strong acids or strong bases. Moreover, PUT-5 exemplarily withstood long-term soaking in normal saline, and no deformation could be identified.
Analysis of Signal Integrity for High Precision Digital-to-Analog Conversion Circuit
Jing Dai,Yanmei Wang 보안공학연구지원센터 2016 International Journal of Future Generation Communi Vol.9 No.5
In order to improve the accuracy of the digital to analog conversion (DAC), the reflection and crosstalk problems of the signal transmission process were studied in this paper. The Hyperlynx software was used for the simulation study of reflection and crosstalk problems of the master clock signal in the DAC circuit. Source end cascading termination resistor and remote end termination resistor and capacitor (RC) methods were adopted to weaken the reflected signal. The problem of signal crosstalk was solved by the remote end cascading termination resistor method. The experiments results showed that the reflection peak could be eliminated when the value of the source end cascading termination resistor was 100Ω. The reflection peak could be eliminated when the value of remote end termination resistors was 100Ω and the capacitance was 300pF. Terminating 100Ω resistor, shortening the length of the transmission line and decreasing the distance of the adjacent network could weaken crosstalk phenomenon. In high precision digital to analog conversion circuit, the source end cascading termination resistor and the remote RC termination were adopted to solve the problems of signal reflection. The methods of optimizing wiring and the cascading termination resistor weakened the signal crosstalk phenomenon. They also improved signal integrity and ADC accuracy of the signal during transmission.