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RISS 인기검색어
- 검색키워드
- 저자 : Lv Xiao-lian (검색결과 4 건)
- 무료
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Design and Study on Dynamic Measuring System for Field Surface Roughness
Lv Xiao-rong,Lv Xiao-lian,Zhang Li-hua 보안공학연구지원센터 2016 International Journal of Signal Processing, Image Vol.9 No.1
In order to explore the adaptability and relationship of planter to field surface roughness, dynamic simulated testing was carried out on working performance of the designed direct seeding machine in field. The designed dynamic testing system of field surface roughness is composed of the roughness test devices, two angular displacement sensors, data acquisition card and computer, etc.. Through field test, the two types of field surface roughness were detected on the original field surface roughness formed by the working chassis and the field surface roughness formed after planters work. The signals during testing were analyzed in time-domain and frequency-domain by using Matlab software. The transfer functions of the system were established, and the dynamic characteristics of the system were analyzed. The results show that, the system is a linear one with the typical first order feature. The dynamic characteristics of the systems such as response speed, frequency bandwidth and thickness of covering soil and other performance indicators are able to meet the requirements of agricultural technology. The studied results provide a new method to explore the adaptability of the planter for field surface roughness, and provide technical references to study the overburden soil performance of the planter.
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Preparation of ZnO Nanoparticles by Combustion Method and Their Gas Sensing Properties
Xiao-xue Lian,Yan Li,Tan Lv,Yun-ling Zou,Dongmin An,Nan Zhang 대한금속·재료학회 2016 ELECTRONIC MATERIALS LETTERS Vol.12 No.1
In this study, ZnO nanoparticles were fabricated using a simpleand novel combustion method without calcination. The sensormaterial was structurally and morphologically characterizedusing simultaneous differential scanning calorimetry (DSC),thermogravimetric analysis (TGA), x-ray diffraction (XRD),scanning electron microscopy (SEM), Brunauer-Emmett-Teller(BET), and transmission electron microscopy (TEM). Thesample containing 3 mol tartaric acid (ZTC-3) exhibitedexcellent ethanol sensing properties at the optimum temperatureof 330°C. The relationships among the gas response, temperature,response time (recovery time), concentration, and gas specieswere investigated. The ZTC-3 exhibited response and recoverytimes of 7 and 38 s to 100 ppm ethanol, as well as excellentresponse and good selectivity to ethanol gas. Such a ZnOnanoparticle structure could be potentially use for fabricatingethanol sensors.
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Yan Li,Tan Lv,Fang-Xian Zhao,Xiao-xue Lian,Yun-ling Zou,Qiong Wang 대한금속·재료학회 2016 ELECTRONIC MATERIALS LETTERS Vol.12 No.3
Loading noble metal and exploring suitable morphology to achieveexcellent gas-sensing performance is very crucial for the fabrication ofgas sensors. We have successfully synthesized Au-loaded ZnO (Au/ZnO) nanospindles (NSs) through a really facile procedure involving aprecipitation and subsequent microwave irradiation. The as-preparedproducts have been characterized by X-ray diffraction (XRD), scanningelectron microscope (SEM). The formation and gas-sensing mechanismof Au/ZnO NSs were discussed. The SEM micrographs revealed aninteresting morphological evolution of the Au/ZnO NSs with Auloadingcontent ranging from 0 at. % to 7 at. %. The nanostructures wereemployed for gas-sensing measurement toward various gases. Itindicated that the Au/ZnO NSs based sensor showed a highly enhancedresponse (226.81) to 400 ppm acetone gas at a relatively low workingtemperature (270°C), and exhibited a fast response (1 s) and recoveryspeed (10 s). The highly enhanced acetone gas sensitivity of Au/ZnONSs based sensor could be attributed to its enhanced polarity owing tothe peculiar morphology, Schottcky barriers, as well as catalytic effect ofAu NPs.
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Yan Li,Min Liu,Tan Lv,Qiong Wang,Yun-ling Zou,Xiao-xue Lian,Hong-peng Liu 대한금속·재료학회 2015 ELECTRONIC MATERIALS LETTERS Vol.11 No.6
Al, Pd co-doped ZnO nanoparticles (NPs) synthesized using a solution combustion method and subsequent annealing process under various atmospheres, including air, nitrogen, and hydrogen, were characterized using x-ray diffraction, energy-dispersive x-ray spectroscopy, fieldemission scanning electron microscopy, transmission electron microscopy, and photoluminescence spectroscopy. The gas-sensing properties of the sensors based on the NPs were also examined. The results indicated that the Al, Pd co-doped ZnO NPs, with an average crystallite size of 10 nm, exhibited enhanced gas-sensing performance compared with that of pure ZnO and Al-doped ZnO. The response of the Al, Pd co-doped ZnO NPs annealed in N2 to ethanol (49.22) was nearly 5.7 times higher than that to acetone (8.61) and approximately 20 - 27 times higher than that to benzene (2.38), carbon monoxide (2.23), and methane (1.78), which demonstrates their excellent selectivity to ethanol versus other gases. This high ethanol response can be attributed to the combined effects of the small size, Schottky barrier, lattice defects, and catalysis.
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