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Online since: December 2024
Authors: Samir Karimov, Elshad Abdullayev, Muslum Gurbanov, Lala Gasimzada
Materials and Methods
In this study, we employed similar experimental methods to those detailed in our previously published work [18], with modifications appropriate to the current experimental setup.
Zheng, Hexachlorobutadiene emissions from typical chemical plants, Frontiers of Environmental Science & Engineering, 15(4) (2020)
Ni, Co-destruction of organic pollutants in municipal solid waste leachate and dioxins in fly ash under supercritical water using H2O2 as oxidant, Journal of Hazardous Materials, 248–249 (2013) 177–184
Sawai, Chain dechlorination of organic chlorinated compounds in alcohol solutions by 60Co γ-rays, (II), Journal of Nuclear Science and Technology, 14(10) (1977) 731–736
Sun, Innovation technique of radiation for the treatment of 4-chlorophenol as a model of POPs in wastewater, Nuclear Instruments and Methods in Physics Research Section B Beam Interactions with Materials and Atoms, 236(1–4) (2005) 266–271
Zheng, Hexachlorobutadiene emissions from typical chemical plants, Frontiers of Environmental Science & Engineering, 15(4) (2020)
Ni, Co-destruction of organic pollutants in municipal solid waste leachate and dioxins in fly ash under supercritical water using H2O2 as oxidant, Journal of Hazardous Materials, 248–249 (2013) 177–184
Sawai, Chain dechlorination of organic chlorinated compounds in alcohol solutions by 60Co γ-rays, (II), Journal of Nuclear Science and Technology, 14(10) (1977) 731–736
Sun, Innovation technique of radiation for the treatment of 4-chlorophenol as a model of POPs in wastewater, Nuclear Instruments and Methods in Physics Research Section B Beam Interactions with Materials and Atoms, 236(1–4) (2005) 266–271
Online since: July 2014
Authors: Siddharth Lokachari, S. Ponnuvel, T.V. Moorthy
Abrasive nature of the reinforcements in the composite materials makes the machining more complex than the conventional materials.
Krishnamurthy: Effect of point geometry and their influence on thrust and delamination in drilling of polymeric composites, Journal of Materials processing Technology, Vol. 185 (2007), p. 204-209
[4] Subhranshu Sekhar Samal: Role of temperature and carbon nanotube reinforcement on epoxy based nanocomposites, Journal of Minerals & Materials Characterization & Engineering, Vol. 8, No. 1 (2009), p. 25-36
[5] Yuanxin Zhou, Farhana Pervin, Lance Lewis and Shaik Jeelani: Fabrication and Characterization of carbon/epoxy composites mixed with multi-walled carbon nanotubes, Materials Science and Engineering, Vol. 475 (2008), p. 157-165
Kolluri: Assessment of fibre contribution to friction material performance using grey relational analysis (GRA), Journal of Composite Materials, Vol. 40 (2006), p. 483-501
Krishnamurthy: Effect of point geometry and their influence on thrust and delamination in drilling of polymeric composites, Journal of Materials processing Technology, Vol. 185 (2007), p. 204-209
[4] Subhranshu Sekhar Samal: Role of temperature and carbon nanotube reinforcement on epoxy based nanocomposites, Journal of Minerals & Materials Characterization & Engineering, Vol. 8, No. 1 (2009), p. 25-36
[5] Yuanxin Zhou, Farhana Pervin, Lance Lewis and Shaik Jeelani: Fabrication and Characterization of carbon/epoxy composites mixed with multi-walled carbon nanotubes, Materials Science and Engineering, Vol. 475 (2008), p. 157-165
Kolluri: Assessment of fibre contribution to friction material performance using grey relational analysis (GRA), Journal of Composite Materials, Vol. 40 (2006), p. 483-501
Online since: February 2012
Authors: Da Ming Wu, Xiao Xiang He, Yang Zhou, Ya Jun Zhang, Xiu Ting Zheng, Jian Zhuang
The three different structures are diffuser with non-structures, diffuser with 0.4mm in diameter microlens arrays and diffuser with V-cut which groove width is 0.4mm and the material of the diffusers was PP (polypropylene).
The diffuser is 960-mm-long, 30-mm-wide and 3-mm-thick, which material is polypropylene.
Simulate diffuser bottom surface with none structure, with 0.4mm in diameter microlens arrays and with V-cut which groove width is 0.4mm to obtain illumination distribution and to calculate the transmittance and uniformity. 2 Experimental 2.1 Experimental materials and equipment Polypropylene: Trademark T4802, Sinopec Beijing Yanshan Petrochemical Co., Ltd.
Experimental and numerical analyses to enhance the performance of a microturbine diffuser(Experimental Thermal and Fluid Science,Vol.30(2006)P.427-440) [4]H.P.Kuo,M.Y, in: Design correlations for the optical performance of the particle-diffusing bottom diffusers in the LCD backlight unit(Powder technology,Vol,192(2009)P.116-121) [5] Chiung-Fang Huang,in: Luminance and brightness field distribution of light guiding plate for backlight panel (BLP) by micro molding(Polymers for advanced technologies, (2008)P.1887-1893) [6]M Mirkhalaf,S B Tor, in: Fabrication of a stand-alone polymer microlens: design of molding apparatus, simulation and experimental results( Journal Of Micromechanics And Micro engineering,(2009)) [7]Zhang Yun, in: LED road lighting Simulation and experiment the density distribution of the LED street lamps(Optical instrument,Vol.30(2008)P.45-49) [8]He Yong, in: Study on flow behaviors of polymer during the process of micro hot-embossing(Journal of Zhejiang University
, Engineering Science,Vol.42(2008)P.858-862)
The diffuser is 960-mm-long, 30-mm-wide and 3-mm-thick, which material is polypropylene.
Simulate diffuser bottom surface with none structure, with 0.4mm in diameter microlens arrays and with V-cut which groove width is 0.4mm to obtain illumination distribution and to calculate the transmittance and uniformity. 2 Experimental 2.1 Experimental materials and equipment Polypropylene: Trademark T4802, Sinopec Beijing Yanshan Petrochemical Co., Ltd.
Experimental and numerical analyses to enhance the performance of a microturbine diffuser(Experimental Thermal and Fluid Science,Vol.30(2006)P.427-440) [4]H.P.Kuo,M.Y, in: Design correlations for the optical performance of the particle-diffusing bottom diffusers in the LCD backlight unit(Powder technology,Vol,192(2009)P.116-121) [5] Chiung-Fang Huang,in: Luminance and brightness field distribution of light guiding plate for backlight panel (BLP) by micro molding(Polymers for advanced technologies, (2008)P.1887-1893) [6]M Mirkhalaf,S B Tor, in: Fabrication of a stand-alone polymer microlens: design of molding apparatus, simulation and experimental results( Journal Of Micromechanics And Micro engineering,(2009)) [7]Zhang Yun, in: LED road lighting Simulation and experiment the density distribution of the LED street lamps(Optical instrument,Vol.30(2008)P.45-49) [8]He Yong, in: Study on flow behaviors of polymer during the process of micro hot-embossing(Journal of Zhejiang University
, Engineering Science,Vol.42(2008)P.858-862)
Online since: August 2012
Authors: Neil Edmonds, Peng Cao, Yi Min Li, Gang Chen, Guian Wen
Experimental Procedure
Materials.
Stöver, Mechanical behaviour of NiTi parts prepared by powder metallurgical methods, Materials Science and Engineering: A. 378 (1–2) (2004) 185-190
Stöver, Metal injection molding of shape memory alloys using prealloyed NiTi powders, Journal of Materials Science. 40 (16) (2005) 4231-4238
Li, Fabrication of high porous NiTi shape memory alloy by metal injection molding, Journal of Materials Processing Technology. 206 (1–3) (2008) 395-399
Zhou, B.H Duan, Powder injection molding of Ti–6Al–4V alloy, Journal of Materials Processing Technology. 173 (3) (2006) 310-314
Stöver, Mechanical behaviour of NiTi parts prepared by powder metallurgical methods, Materials Science and Engineering: A. 378 (1–2) (2004) 185-190
Stöver, Metal injection molding of shape memory alloys using prealloyed NiTi powders, Journal of Materials Science. 40 (16) (2005) 4231-4238
Li, Fabrication of high porous NiTi shape memory alloy by metal injection molding, Journal of Materials Processing Technology. 206 (1–3) (2008) 395-399
Zhou, B.H Duan, Powder injection molding of Ti–6Al–4V alloy, Journal of Materials Processing Technology. 173 (3) (2006) 310-314
Online since: July 2011
Authors: Jing Li, Ke Gao Liu
Zhao: Materials Science and Engineering B, Vol.94, Iss.2-3, 1 Jun.2002, p. 223-228
Wang: Materials Letters, Vol.65, Iss.11, 15 Jun.2011, p.1618-1620
Wu: Journal of Alloys and Compounds, Vol. 490, No.1-2, (2010), p.468-471
Moreno: Materials Letters, Vol.65, Iss.1, 15 Jan.2011,p.46-48
Sun: Materials Science and Engineering: B, Vol.136, Iss.2-3, 25 Jan.2007,p.111-117
Wang: Materials Letters, Vol.65, Iss.11, 15 Jun.2011, p.1618-1620
Wu: Journal of Alloys and Compounds, Vol. 490, No.1-2, (2010), p.468-471
Moreno: Materials Letters, Vol.65, Iss.1, 15 Jan.2011,p.46-48
Sun: Materials Science and Engineering: B, Vol.136, Iss.2-3, 25 Jan.2007,p.111-117
Online since: February 2013
Authors: Stanislav Fabian, Miloš Servátka
Journal of Materials Processing Technology, (doi:10.1016/j.jmatprotec.2008.10. 009) 209(8), 2009, p. 4154-4161.
[2] Jandačka, P., Hlaváč, L.M., Mádr, V., Šancer, J., Staněk, F.: Measurement of Specific Fracture Energy and Surface Tension of Brittle Materials in Powder Form.
International Journal of Fracture, (doi:10.1007/s10704-009-9376-x) 159(1), 2009, p. 103-110.
Journal of Materials Processing Technology. 2009.
In.: International Manufacturing Science and technology. 2006.
[2] Jandačka, P., Hlaváč, L.M., Mádr, V., Šancer, J., Staněk, F.: Measurement of Specific Fracture Energy and Surface Tension of Brittle Materials in Powder Form.
International Journal of Fracture, (doi:10.1007/s10704-009-9376-x) 159(1), 2009, p. 103-110.
Journal of Materials Processing Technology. 2009.
In.: International Manufacturing Science and technology. 2006.
Online since: March 2007
Authors: Chris R. Bowen, R. Butler, A.I.T. Salo, E. Chang, H.A. Kim
Materials used to induce snap-through include shape memory alloys [8,9], which can induce high
strains (8%) at low frequency [10] and piezoelectric materials that are able to generate high forces at
high frequency, although the developed strains tend to be small; typically only 0.1-0.4%.
Due to the lower stiffness and greater curvature of the thin composite, 28mm x 14mm piezoelectric macro-fibre composite (MFC) actuators from Smart Materials Corp., USA (Actuator no.
Lind: Journal of Aircraft 42 (2005), p. 131
Kroll: Composites Science and Technology 62 (2002), p. 2201
Kudva: Journal of Intelligent Material Systems and Structures 15 (2004), p. 261
Due to the lower stiffness and greater curvature of the thin composite, 28mm x 14mm piezoelectric macro-fibre composite (MFC) actuators from Smart Materials Corp., USA (Actuator no.
Lind: Journal of Aircraft 42 (2005), p. 131
Kroll: Composites Science and Technology 62 (2002), p. 2201
Kudva: Journal of Intelligent Material Systems and Structures 15 (2004), p. 261
Online since: June 2020
Authors: Rinlee Butch M. Cervera, Aimee Lorraine M. Blaquera, Christine Mae Macalisang, Jan Carlo Palomares, Renz Marion Garcia
Acknowledgment
This study was financially supported by the UP OVRCD Outright Research Grant, National Research Council of the Philippines (NRCP) research grant, and in part by the DOST’s grants for outstanding achievements in Science and Technology through the National Academy for Science and Technology (NAST).
Solid-State Synthesis and Characterization of Li7-3xGaxLa3Zr2O12 Solid Electrolyte for Li-ion Battery Application, Key Engineering Materials Journal, 705 (2016) 145-149
Atmosphere Controlled Processing of Ga-Substituted Garnets for High Li-Ion Conductivity Ceramics, Chemistry of Materials 26 (12) (2014) 3610–17
Synthesis of Amorphous Fe-doped SiO2 Anode Nanomaterial via Sol-gel, Advanced Materials Research Journal 1119 (2015) 38-42
Perovskite-structured BaScO2(OH) as a novel proton-conductor: Heavily hydrated phase obtained via low-temperature synthesis, Chemistry of Materials Journal, ACS Publications, Vol. 25, Issue 9 (2013) 1483-1489
Solid-State Synthesis and Characterization of Li7-3xGaxLa3Zr2O12 Solid Electrolyte for Li-ion Battery Application, Key Engineering Materials Journal, 705 (2016) 145-149
Atmosphere Controlled Processing of Ga-Substituted Garnets for High Li-Ion Conductivity Ceramics, Chemistry of Materials 26 (12) (2014) 3610–17
Synthesis of Amorphous Fe-doped SiO2 Anode Nanomaterial via Sol-gel, Advanced Materials Research Journal 1119 (2015) 38-42
Perovskite-structured BaScO2(OH) as a novel proton-conductor: Heavily hydrated phase obtained via low-temperature synthesis, Chemistry of Materials Journal, ACS Publications, Vol. 25, Issue 9 (2013) 1483-1489
Online since: November 2013
Authors: Mohamad Rusop, Azlinda Ab Aziz, Saifollah Abdullah, Kevin Alvin Eswar, Mohd Husairi Fadzilah Suhaimi
ZnO nanostructures are also a piezoelectric material that can be used in sensor and transducer application.
Metal oxide semiconducting materials are selected to make sensors due to their small dimension, low cost, low power consumption, simple processing and stability.
The conductivity of a metal oxide semiconducting material can be improved by introducing a doping material.
Nitrogen dopant is more efficient than other elements and is used in metal oxide semiconductor to increase the conductivity and to produce p-type conductor materials because nitrogen contributes an excess number of holes for conduction by forming an N-Zn(O)-N complex [1].
-H.: 2006, Mn doped and undoped ZnO films: A comparative structural, optical and electrical properties study, Materials Chemistry and Physics, 96, (2–3), 326-330 [9] Wang C., Ji Z., Xi J., Du J., and Ye Z.: 2006, Fabrication and characteristics of the low-resistive p-type ZnO thin films by DC reactive magnetron sputtering, Materials Letters, 60, (7), 912-914 [10] Kobayashi A., Sankey O.F., and Dow J.D.: 1983, Deep energy levels of defects in the wurtzite semiconductors AIN, CdS, CdSe, ZnS, and ZnO, Physical Review B, 28, (2), 946-956 [11] Limpijumnong S., Li X., Wei S.
Metal oxide semiconducting materials are selected to make sensors due to their small dimension, low cost, low power consumption, simple processing and stability.
The conductivity of a metal oxide semiconducting material can be improved by introducing a doping material.
Nitrogen dopant is more efficient than other elements and is used in metal oxide semiconductor to increase the conductivity and to produce p-type conductor materials because nitrogen contributes an excess number of holes for conduction by forming an N-Zn(O)-N complex [1].
-H.: 2006, Mn doped and undoped ZnO films: A comparative structural, optical and electrical properties study, Materials Chemistry and Physics, 96, (2–3), 326-330 [9] Wang C., Ji Z., Xi J., Du J., and Ye Z.: 2006, Fabrication and characteristics of the low-resistive p-type ZnO thin films by DC reactive magnetron sputtering, Materials Letters, 60, (7), 912-914 [10] Kobayashi A., Sankey O.F., and Dow J.D.: 1983, Deep energy levels of defects in the wurtzite semiconductors AIN, CdS, CdSe, ZnS, and ZnO, Physical Review B, 28, (2), 946-956 [11] Limpijumnong S., Li X., Wei S.
Online since: November 2013
Authors: Xiu Li Wang, Xiao Tong Ma
In the country, researched on component materials and dynamic response of framework under impact load have been more mature.
Acknowledgements This work was financially supported by the National Science and Technology Support Program (2011BAK12B07) and the State Natural Science Fund Program (51278236).
International Journal of Impact Engineering.2004, 30:167-192
International Journal of Impact Engineering. 2006, 32:1595-1620
JOURNAL OF VIBRATION AND SHOCK, 2012,31(8):136-142
Acknowledgements This work was financially supported by the National Science and Technology Support Program (2011BAK12B07) and the State Natural Science Fund Program (51278236).
International Journal of Impact Engineering.2004, 30:167-192
International Journal of Impact Engineering. 2006, 32:1595-1620
JOURNAL OF VIBRATION AND SHOCK, 2012,31(8):136-142