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1 – 10 of over 1000Rupeshkumar V. Ramani, Bharat M. Ramani, Anjana D. Saparia, Nikesh A. Shah, Pinank Kacha and J.H. Markna
In the twenty-first century, the use of fossil fuels has increased drastically because the necessity of energy is increasing day by day which affects the world’s economy. The…
Abstract
Purpose
In the twenty-first century, the use of fossil fuels has increased drastically because the necessity of energy is increasing day by day which affects the world’s economy. The solar energy (photo-thermal energy conversion) system is the most economical and eco-friendly alternative source. To increase the use of domestic as well as commercialization purpose, the authors have reviewed this paper on the solar water heater along with its structural mechanism for energy enhancement and to create easier stair steps for climbing on the green world dream.
Design/methodology/approach
In this study, nanotechnology has remarkably built its own use for extending thermal efficiency by using some gradual experiments. It is a phenomenon, like nanofluid (as a working fluid for a direct solar collector), nanocoating (on the surface of a solar-evacuated tube by using the chemical vapor deposition/physical vacuum deposition/sol–gel technique) and nanorod-based solar collector tube.
Findings
This invention gives greater efficiency rather than the conventional systems, but also this advancement is not too much supported in a low- temperature environment also, we can consider the poor light absorption characteristics of the pure water (Bencic, et al., 2000).
Originality/value
The basic idea and understanding of this phenomenon to improve solar collecting performance for obtaining a high working-fluid temperature are discussed in this paper.
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Polymeric materials have gained a wide theoretical interest and practical application in sensor technology. They can be used for very different purposes and may offer unique…
Abstract
Polymeric materials have gained a wide theoretical interest and practical application in sensor technology. They can be used for very different purposes and may offer unique possibilities. The paper gives a broad summary about the sensor structures and sensing polymer films used in a wide variety of sensors. Finally, the present status and perspectives as well as the advantages of specific polymer based sensors are summarised.
Periods spent in various industries are essential in all applied science courses, and enable the student to keep his academic studies, especially experimentation, in perspective…
Abstract
Periods spent in various industries are essential in all applied science courses, and enable the student to keep his academic studies, especially experimentation, in perspective. The type of sandwich course consisting of six‐monthly periods spent alternately in college and industry for three years followed by a final year completely in college provides the wisest combination of industrial training and academic studies. This sandwich course is a headache for administrators but offers the students a very wide range of experience; the scheme also permits two end‐on streams per year to be accommodated by our universities, so enabling existing academic facilities to be used more efficiently, as well as producing an even demand on industrial training facilities (Probert, 1964).
Zhenbo Qin, Jiale Li, Yiwen Zhang, Zhong Wu and Wenbin Hu
The purpose of this paper is to improve the corrosion resistance of stainless-steel bipolar plate by magnetron sputtering.
Abstract
Purpose
The purpose of this paper is to improve the corrosion resistance of stainless-steel bipolar plate by magnetron sputtering.
Design/methodology/approach
TiC/amorphous carbon composite film was deposited by magnetron sputter at four different temperature of 25°C, 200°C, 300°C and 400°C. The morphology, composition and structure of the film were characterized by scanning electron microscopy, atomic force microscopy and X-ray photoelectron spectroscopy. And its corrosion behavior was analyzed through electrochemical impedance spectroscopy, potentiodynamic and potentiostatic polarization tests.
Findings
A compact TiC/amorphous carbon film was prepared by magnetron sputtering on 316L stainless steel, and the particles of the film were refined with the increase in sputtering temperature. High temperature promoted the formation of TiC and C–C sp2 hybrid carbon, but excessively high temperature caused the oxidation of Ti and a significant decrease in sp2 hybrid carbon. The corrosion resistance of the film increased with the temperature, and the corrosion current density polarization at 0.86 V and 1.8 V for TiC/a–C film prepared at 400 °C is only 1.2% and 43.2% of stainless steel, respectively.
Originality/value
The corrosion resistance of amorphous carbon films was improved by the doping of Ti carbide, and the appropriate sputtering temperature was obtained.
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Sheng Chang, Daniel Attinger, Fu‐Pen Chiang, Yong Zhao and Ranjana C. Patel
Resin jetting with piezo print‐heads is in increasing use, and in the rapid prototyping industry, the merging quality between adjacent droplets will determine the mechanical…
Abstract
Resin jetting with piezo print‐heads is in increasing use, and in the rapid prototyping industry, the merging quality between adjacent droplets will determine the mechanical properties and reliability of the products. Therefore, it is essential to find an experimental technique to ensure seamless inter‐droplet merging. Speckle interferometry with electron microscopy (SIEM) is a micro‐mechanics measurement technique that has a spatial resolution approaching a few nanometers. In this paper, SIEM is successfully applied to measure the ultimate tensile stress and tensile modulus of jetted, UV‐cured cationic resin microsamples. Results show that the microsamples exhibit similar properties to the bulk material properties and that jetting two layers on top of each other is not detrimental to the material properties.
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Hot‐dipped metallic coatings are of fundamental importance to the corrosion technologist because, in many applications, they are the cheapest and most durable finish. In this…
Abstract
Hot‐dipped metallic coatings are of fundamental importance to the corrosion technologist because, in many applications, they are the cheapest and most durable finish. In this article, the properties, preparation and uses of the metal coatings are compared and contrasted.
The study of the properties of metallic surfaces has been given much attention in recent years. Such general subjects as corrosion, thermal oxidation and friction have been…
Abstract
The study of the properties of metallic surfaces has been given much attention in recent years. Such general subjects as corrosion, thermal oxidation and friction have been investigated in detail by specialised organisations throughout the world. As a result, a good deal is known about the factors controlling the nature and effects of corrosion and other surface properties, but, due to the complexity of the problems, specific solutions only affecting well‐defined cases have been advanced by the theoretical workers. Much of the practical research is left to the technologists in various branches of surface treatments
Bassam Abdallah, M. Kakhia and W. Alsadat
TiN and TiAlVN films have been prepared by DC magnetron sputtering technique at room temperature. TiN target has been used to deposit TiN thin film under pure argon (100 percent…
Abstract
Purpose
TiN and TiAlVN films have been prepared by DC magnetron sputtering technique at room temperature. TiN target has been used to deposit TiN thin film under pure argon (100 percent Ar) gas. Additionally, Ti6Al4V alloy target has been used to deposit TiAlVN under nitrogen and argon gas (50 percent Ar and 50 percent N2). In this paper, two substrate types have been used: stainless steel 304 and Si(100). This analysis has confirmed that the nitride films, (TiN/Si) and TiAlVN in both cases, have been produced. Energy Depressive X-ray Spectroscopy (EDX) measurement confirmed that the TiN/Si was stoichiometry, where the N/Ti ratio was about 1 with low oxygen contamination. The results obtained have indicated that the TiAlVN has more resistance to corrosion than TiN film in 3.5 percent NaCl at 25°C (seawater). Both films, TiAlVN/SS304 and TiN/SS304, have shown improved corrosion resistance compared with virgin 304 substrate. Microhardness was carried out using Vickers method; the microhardness values for TiN/SS304 and TiAlVN/SS304 were approximately 7.5 GPa and 25.3 GPa, respectively. The paper aims to discuss these issues.
Design/methodology/approach
The films were prepared by a DC magnetron sputtering system starting from high pure (99.99 percent) Ti6Al4V target (Al 6wt%, V 4wt% and balance Ti) in plasma discharge argon/nitrogen (50 percent Ar and 50 percent N2) for deposition of TiAlVN film. Pure TiN target (99.99 percent) was used for preparation of TiN film in pure argon plasma. The diameter of target was 50 mm and the power applied for preparation of the two films was 100 W. A cylindrical high-vacuum chamber (Figure 2) made of stainless steel 316, with height 363 mm diameter, was fabricated locally. Scanning electron microscope images have been used to discover the films morphology. The composition of the films has been determined by EDX technique for films deposited on Si substrate. The electrochemical corrosion test was carried out using conventional three-electrode cell of 300 ml capacity by using Voltalab PGZ 301 system (France) using Tafel extrapolation method and electrochemical impedance spectroscopy techniques.
Findings
TiN and TiAlVN films have been prepared by DC magnetron sputtering technique without heating of the substrates holder. The effects of the composition of nitride films on mechanical and corrosion properties were investigated. The composition of the films has been determined by EDX technique. The effect of using titanium alloy (Ti with Al and V) on the composition and crystalline quality has been investigated. The microhardness is strongly dependent on the addition of the Al and V elements, and it consequently improves mechanical proprieties. The microhardness values for TiN/SS304 were approximately 7.5 GPa and 25.3 GPa for TiAlVN/SS304. They indicate that prepared films prevent the aggressive action of corrosion media.
Originality/value
TiN and TiAlVN films have been prepared by DC magnetron sputtering method at room temperature. Titanium nitride film, especially TiAlVN, is an effective method to improve the corrosion resistance of SS304. TiAlVN film has exhibited enhanced corrosion resistance and higher microhardness. Independent time-of-flight elastic recoil detection analysis has been used to determine the composition of the film.
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A wide field of applications for vacuum coatings has been opened up by the development of techniques for producing thicker protective coatings and, in some cases, aluminium…
Abstract
A wide field of applications for vacuum coatings has been opened up by the development of techniques for producing thicker protective coatings and, in some cases, aluminium coatings may replace nickel‐chromium plating. The coating process and basic equipment are discussed herein and an account given of the properties and applications of commercially produced aluminium and cadmium coatings.
Pushkar Prakash Kamble, Subodh Chavan, Rajendra Hodgir, Gopal Gote and K.P. Karunakaran
Multi-jet deposition of the materials is a matured technology used for graphic printing and 3 D printing for a wide range of materials. The multi-jet technology is fine-tuned for…
Abstract
Purpose
Multi-jet deposition of the materials is a matured technology used for graphic printing and 3 D printing for a wide range of materials. The multi-jet technology is fine-tuned for liquids with a specific range of viscosity and surface tension. However, the use of multi-jet for low viscosity fluids like water is not very popular. This paper aims to demonstrate the technique, particularly for the water-ice 3 D printing. 3 D printed ice parts can be used as patterns for investment casting, templates for microfluidic channel fabrication, support material for polymer 3 D printing, etc.
Design/methodology/approach
Multi-jet ice 3 D printing is a novel technique for producing ice parts by selective deposition and freezing water layers. The paper confers the design, embodiment and integration of various subsystems of multi-jet ice 3 D printer. The outcomes of the machine trials are reported as case studies with elaborate details.
Findings
The prismatic geometries are realized by ice 3 D printing. The accuracy of 0.1 mm is found in the build direction. The part height tends to increase due to volumetric expansion during the phase change.
Originality/value
The present paper gives a novel architecture of the ice 3 D printer that produces the ice parts with good accuracy. The potential applications of the process are deliberated in this paper.
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