Your search keyword '"Razaghian A"' showing total 3 results

1. Different Methods of Changing Piezoelectric Properties in Poly(vinylidene fluoride): A Review

Author

Mina Abasipour, Ramin Khajavi, Ali Akbar Yousefi, Mohamad Ismail Yazdanshenas, and Farhad Razaghian

Subjects

poly(vinylidene fluoride), piezoelectric, pyroelectric, β phase, energy harvesting, Polymers and polymer manufacture, TP1080-1185

Abstract

Recently, the supply of electrical energy from sustainable and renewable energies such as mechanical, thermal and solar energy has been expanded. Piezoelectric materials are one of the best alternatives for supplying electrical energy from the mechanical energy available in nature such as mechanical force, vibration and human body movements. The applications for piezoelectric energy harvester include low power electronics or wireless sensing at relatively lower power levels (nW to mW) with an aim to reduce a reliance on batteries or electrical power through cables and realize fully autonomous and self-powered systems. In fact, the piezoelectric property is the property of a special material that enables the conversion of mechanical energy into electrical energy and vice versa. Piezoelectric property was discovered in ceramics for the first time. However, because of the need to piezoelectric materials with large surfaces and high flexibility in many applications, and the relatively low price and simple manufacturing technology of polymers in comparison with ceramics, polymers are used extensively. Poly(vinylidene fluoride) (PVDF) is a semicrystalline polymer with ferroelectric and piezoelectric properties. It has five distinctive configurations. β-phase is a polar phase showing significant piezoelectricity and pyroelectricity due to the highest dipolar moment and spontaneous polarization. In this review, PVDF polymer is introduced and then the different strategies for identification and quantification of PVDF phases are summarized. Finally, various methods including stretching, high pressure, ultra-fast cooling, melt quenching, using polar solvents, poling, copolymerization, polymer blending, electrospinning and filler addition such as carbon nanotube, clay, metals and metal salts, ceramics and etc., have been discussed for β-phase enhancement.

Published

2019

2. Experimental Modeling Requirements of TLPs in Waves

Author

Amirhossein Razaghian, Mohammad Saeid Seif, and Mohammad Reza Tabeshpour

Subjects

tension leg platform, regular waves, model test, froude similitude, Naval architecture. Shipbuilding. Marine engineering, VM1-989

Abstract

Tension leg platform is a compliant structure with vertical moorings and added buoyancy force. In this paper, effective parameters on experimental modeling of TLPs have been investigat. experimental modeling with correct scale factor has been done in Sharif University of Technology marine engineering laboratory test basin. deep water simulation capability were discussed and finally the model, launched in the basin. Pretension modeling is another conceptual component that could be easily analyzed.Ultimately Sea keeping results of ISSC TLP model duo to the regular laboratory waves with different heading angles and two amplitudes were extracted. The main purpose is ISSC TLP frequency response and surge beating analysis by model testing.

Published

2015

3. Study of Mnemiopsis leidyi density and biomass in the southern Caspian Sea

Author

Roohi, Aboulghasem, Nasrollazadeh Saravi, H., Mokarami, A., Rostamian, M.T., Keyhani Sani, A., Nasrollatabar, A., Zahedi, A., Razaghian, Q.R., Khodaparast, N., Kardar Rostami, M., Elyasi, F., and Pourmand, T.M.

Subjects

Abundance, Biomass, Distribution, Mnemiopsis leidyi

Abstract

Comb jelly Mnemiopsis leidyi investigation was conducted in the southern region of the Iranian coast of the Caspian Sea during the 2010 in the seasons of spring, summer, autumn and winter at 8 transect with depths of 5, 10, 20, 50 and 100m. Sampling was done at 0–5, 0-10, 0-20, 20-50 and 50–1000 m using a 500 µ and 50 cm mouth opening area. During 2010, a total of 757 samples of comb jelly were collected by the size length of smaller than 5 mm to a maximum of 35 mm. Mean annually Mnemiopsis abundance and biomass was 11±2 ind.m3 and 0.6±0.1 g.m3 . Maximum abundance was recorded in autumn with 25.7±4.8 ind.m3 and maximum biomass was observed in summer of 1.2±0.1 g.m3 . Minimum abundance was found in spring with 2.3±0.4 ind.m3 and minimum biomass was in winter of 0.1±0.3 g.m3 . Statistical comparison showed that the density of comb jelly were not significantly different in spring and summer (P>0.05, Tukey test), and winter and summer with the same density, while having the highest density of autumn compared to other seasons which showed a significant difference (P0.05). Fluctuations of comb jelly abundance and biomass in different seasons showed that the water level of 20 m had a higher value than other layers. In the spring, more than 98 percent of the comb jelly was recorded in the upper layer (less than 20 m), and only 2 percent of the animals living in layers of 20-50 m. In the summer and autumn, about 93 percent of Mnemiopsis was found in the layers above 20 m and 7 percent of those in the lower layers (maximum 50 meters). In the winter, more comb jelly were observed in layers from 20 to 50 m (about 14 percent) and about 87 percent of them were collected in layers less than 20 meters. As a whole, the total maximum annual average abundance was recorded in the autumn of layer 0-5 m with 94.0± 33.8 ind.m3 and the highest average biomass in the 0-5 m layer of summer with 3.1±1.0 g.m3 . Frequency of group length (size) of the population M. leidyi showed that comb jellies of less than 15 mm (prior to adult) consisted of 85.8%, in which at less than 20 m, group length (size) of 15 mm included of 82-92% and at the depth of more than 50 m, these group was 8-18%. Also comb jelly adults (greater than 16 mm) in the surface layers (less than 20 m) were included of approximately 73 to 100% and below 20 m, 0-27 % of the population. Data of the 8 transect showed that the highest density and biomass of Mnemiopsis were recorded in Torkaman with 16.4± 6.5 ind.m3 , and 0.8±0.2 g.m3 , respectively. Statistical comparison of the mean abundance and biomass of comb jelly showed that there were a significant differences between Turkmen and Amirabad transect compared to other transects (P

Published

2014