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Angayarkanni Veeraputhiran Akshaya Venkatachalapathy Radha Sankararajan 《Wireless Personal Communications》2018,98(1):421-437
Wireless Personal Communications - Recent researches have pointed out that one third persons are aged 65 and above requires special health care. As the number of elderly person is increasing, home... 相似文献
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K. Byrappa G. S. Gopalakrishna V. Venkatachalapathy B. Puttraj 《Journal of Materials Science》1985,20(4):1419-1426
Na2(La, Me)Zr[PO4]3 (where Me=Co, Al, Cr) crystals have been grown by three methods: by chemical reaction; from highly concentrated phosphoric acid solutions; and by a hydrothermal technique. The advantages and disadvantages of each method to obtain these crystals have been discussed. Morphological, X-ray, chemical analysis and IR-spectral studies were performed on these crystals. 相似文献
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Saravanan Vanal Krishnan Muthumanickam Muthukaruppan Ambalam Ragavendran Venkatesan Jeyanthinath Mayandi Vishnukanthan Venkatachalapathy 《Ceramics International》2021,47(17):23693-23701
Ceramic Matrix Composites (CMCs) have many interesting properties, mainly light weight, cost efficiency, low density, high compressive strength, high hardness and durability. Hence, they emerged as a boon to the development of personnel armors in the past. The current work aims to review various new methodologies adapted for the reinforcement of Alumina (Al2O3) CMCs in recent times, including some of the interesting results obtained with respect to mechanical properties, suitability of the synthesized composites for armor applications, and the upcoming reinforcement trends. Finally, studies related to reinforcement in Al2O3 CMCs, specifically towards armor applications have been consolidated to arrive at some of the important inferences for concluding reasonably. 相似文献
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Sudharshan Phani Pardhasaradhi Vishnukanthan Venkatachalapathy Shrikant V Joshi Sundararajan Govindan 《Journal of Thermal Spray Technology》2008,17(4):551-563
Cold gas dynamic spraying (CGDS), a relatively new thermal spraying technique has drawn a lot of attention due to its inherent
capability to deposit a wide range of materials at relatively low-operating temperatures. A De Laval nozzle, used to accelerate
the powder particles, is the key component of the coating equipment. Knowledge concerning the nozzle design and effect of
process parameters is essential to understand the coating process and to enable selection of appropriate parameters for enhanced
coating properties. The present work employs a one-dimensional isentropic gas flow model in conjunction with a particle acceleration
model to calculate particle velocities. A laser illumination-based optical diagnostic system is used for validation studies
to determine the particle velocity at the nozzle exit for a wide range of process and feedstock parameters such as stagnation
temperature, stagnation pressure, powder feed rate, particle size and density. The relative influence of process and feedstock
parameters on particle velocity is presented in this work. 相似文献
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W. Lu C.W. Lee R. Venkatachalapathy J. Prakash 《Journal of Applied Electrochemistry》2000,30(10):1119-1124
The electrochemical performance of LiNi0.8Co0.2O2 cathodes in Li ion cells was investigated under static and dynamic load conditions, which prevail in electric and hybrid vehicles using constant current constant voltage and hybrid pulse power characteristic procedures.The thermal properties of this cathode were investigated using the differential scanning calorimetric and accelerated rate calorimetric techniques. The cell fabricated with a LiNi0.8Co0.2O2 cathode showed excellent power performance. The specific energy produced by the 18650 cell was 90 Wh kg–1 at 100 W kg–1 power level. 相似文献
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In recent years high-strength and high-temperature alloys are used for structural and other applications. These newer high-performance materials are inherently “more difficult to machine” and also necessitate the need for higher dimensional and geometrical accuracy. Grinding is one of the most familiar and common abrasive machining processes used for the finishing operation. Compared to other machining processes such as turning, milling, etc., the specific energy developed during grinding is very high. At a critical level of specific grinding energy, the temperature rise[1]experienced by the workpiece may be such that thermal damage is induced. Heat damage induced by the grinding process is well documented and may be categorized by temper colors that are at least unsightly and probably indicative of more serious damage, including thermal cracks, tempered zone, etc.,[2]which can lead to catastrophic failure of critical machine parts that shortens the life of products subject to cyclic loading. In this work, a new heat treatment process called “grind hardening” and a mathematical model are introduced, and this work deals with how the in-process energy in grinding can be effectively utilized to improve the surface hardness and surface texture, and also to prevent damages. An experimental study has also been carried out in grinding AISI 6150 and AISI 52100 steels with an alumina wheel, and the results are discussed. 相似文献
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Kalidoss Pandi S Venkatachalapathy S Suresh 《International Journal of Applied Ceramic Technology》2022,19(4):2236-2248
Optical and thermo-physical properties of the nanofluids play a major role in the absorption of solar energy. In the present study, photo-thermal energy conversion of low concentration Al2O3/Deionised water (DI) water and CuO/DI water nanofluids in solar thermal collector is experimentally investigated. Properties of 50,100,150, and 200 ppm concentrations of nanofluids are reported. The absorbance results in the visible range indicate that CuO nanofluid of 200 ppm concentration is nearly three times higher compared to Al2O3 nanofluid. The extinction coefficient, optical energy band gap, and photoluminescence obtained from the absorbance data are also reported. Surfactant free nanofluids are used, and the thermal conductivity measurements show a negligible enhancement for both the nanofluids. Maximum receiver temperatures of 89 and 72°C are found with CuO and Al2O3 nanofluids, respectively, for the maximum concentration. A maximum receiver efficiency of 34.89% is obtained for CuO nanofluids. 相似文献
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Strawberries pretreated with 2% ethyl oleate and 0.5% NaOH were osmotically dehydrated and their osmotic dehydration rate is compared with untreated berries. It was found that treated berries dehydrated belter compared to untreated berries. Osmotically dehydrated berries were convective and microwave dried at different power levels and results were compared with respect to drying time and rate. The rehydration ratio, texture, color and sensory values are compared with freeze dried strawberries with the same pretreatment. It was found that microwave drying was short in time and the quality parameters of the microwave dried berries were comparable to those of freeze dried berries. 相似文献