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Online since: September 2013
Authors: Qi Xing Zhou, Lu Lu Kong
Cayuela: Journal of Hazardous materials Vol. 186 (2011), p. 2017
[8] B.
Kookana: Journal of Environmental Science and Health, Part B Vol. 44 (2009), p. 214 [12] Y.
Neves: Soil Science Society of America Journal Vol. 70 (2006), p. 1719 [24] B.
Amelung: European Journal of Soil Science Vol. 57 (2006), p. 539 [26].A.
Dornbush: Soil Science Society of America Journal Vol. 73 (2009), p. 1173 [34] K.
Kookana: Journal of Environmental Science and Health, Part B Vol. 44 (2009), p. 214 [12] Y.
Neves: Soil Science Society of America Journal Vol. 70 (2006), p. 1719 [24] B.
Amelung: European Journal of Soil Science Vol. 57 (2006), p. 539 [26].A.
Dornbush: Soil Science Society of America Journal Vol. 73 (2009), p. 1173 [34] K.
Online since: July 2021
Authors: Galina V. Malysheva, Phone Thant Kyaw, Pyae Phyo Maung
This study leads to the development of thermal conductivity in manufacturing technology of fiber reinforcing materials.
Currently, the question of the dependence of the thermal conductivity of fiber reinforcing materials on the fabric structure has not been studied much, so the creation of a method for evaluating the thermal conductivity of fiber reinforcing materials based on fiber structures is a key factor to development of manufacturing of fiber reinforcing materials [1].
S., Evaluation of forming properties of fabrics from carbon, glass, and organic fibers Polymer Science.
Investigation of the influence of the fabric structure on the kinetics of its impregnation process in the production of carbon fiber parts Physics of fibrous materials, Structure, Properties, High-tech technologies and materials (SMARTEX) - No.5 (2018) 11 – 15
S., Journal of Physics Conference Series.: Multiscale modeling of the binder polymer composite materials heating using microwave radiation 1134, 1, (2015) 012048.
Currently, the question of the dependence of the thermal conductivity of fiber reinforcing materials on the fabric structure has not been studied much, so the creation of a method for evaluating the thermal conductivity of fiber reinforcing materials based on fiber structures is a key factor to development of manufacturing of fiber reinforcing materials [1].
S., Evaluation of forming properties of fabrics from carbon, glass, and organic fibers Polymer Science.
Investigation of the influence of the fabric structure on the kinetics of its impregnation process in the production of carbon fiber parts Physics of fibrous materials, Structure, Properties, High-tech technologies and materials (SMARTEX) - No.5 (2018) 11 – 15
S., Journal of Physics Conference Series.: Multiscale modeling of the binder polymer composite materials heating using microwave radiation 1134, 1, (2015) 012048.
Online since: October 2011
Authors: Min Qiang Xu, Chun Rong Wei, Jian Hua Sun, Xian Wei Zhang
Solid explosive-barrier devices technical scheme
Objectives that solid explosive-barrier devices are expected to achieve: ①The explosive-barrierdevices is solid materials;②Automatic control and executive function; ③Speeding in milliseconds; ④No hindering the normal production of coal heading face;⑤No posing new security risk.
Technical solutions shown in figure 1: Fig.1 Solid explosive-barrier devices technical scheme Two layers of solid materials are selected,solid material A and solid material B.A attenuates shock wave and isolates flame .
Rely on resistance blasting door of solid materials to block roadway pathways, prevent burning, explosion fire and pressure along the roadway spread, prevent burning, explosion hazard enlargement.
Because the resistance explosion door and the resistance blasting board are the solid resistance materials which have the damping function of the shock wave of gas explosion and the flame to reduce the harm of gas and dust explosion, when many groups are established, we can control the harm of the shock wave of the gas explosion and the flame in the acceptable scope.
Acknowledgement It is a project supported by the High-Tech Research and Development Program of China (863 Program) (2008AA12A214).East coal electrical-controlled project of Heilongjiang province References [1] Khan Faisal I, Abbasi SA:Journal ofLossPreven-tion in theProcess Industries Vol.12(1999), p.361-378 [2] Boquan Lin and Bohui Chen:Journal of China University of Mining and Technology Vol. 1(2000) ,p.45-47, in Chinese [3] Congyin Wang and Xueqiu He:China Safety Science Journal Vol. 11(2001), p.60-64, in Chinese [4] Baisheng Nie,Xueqiu He and Jinfeng Zhang:Journal of China Coal Society Vol. 33(2008), p.903 -907, in Chinese [5] Jianliang Yu, Wei Meng and Yajie Wang: Energetic Mater Ials Vol. 13(2005),p.416-421, in Chinese [6] Zhouquan Cai and Huimin Li:Mining Safetyand Environmental Protection Vol. 33(2006),pp.15-17, in Chinese [7] Ying Wang,Ruiyun Ren and Hongyu Jiang:Mining Machinery Vol.13(2005),p.30-31,in Chinese
Technical solutions shown in figure 1: Fig.1 Solid explosive-barrier devices technical scheme Two layers of solid materials are selected,solid material A and solid material B.A attenuates shock wave and isolates flame .
Rely on resistance blasting door of solid materials to block roadway pathways, prevent burning, explosion fire and pressure along the roadway spread, prevent burning, explosion hazard enlargement.
Because the resistance explosion door and the resistance blasting board are the solid resistance materials which have the damping function of the shock wave of gas explosion and the flame to reduce the harm of gas and dust explosion, when many groups are established, we can control the harm of the shock wave of the gas explosion and the flame in the acceptable scope.
Acknowledgement It is a project supported by the High-Tech Research and Development Program of China (863 Program) (2008AA12A214).East coal electrical-controlled project of Heilongjiang province References [1] Khan Faisal I, Abbasi SA:Journal ofLossPreven-tion in theProcess Industries Vol.12(1999), p.361-378 [2] Boquan Lin and Bohui Chen:Journal of China University of Mining and Technology Vol. 1(2000) ,p.45-47, in Chinese [3] Congyin Wang and Xueqiu He:China Safety Science Journal Vol. 11(2001), p.60-64, in Chinese [4] Baisheng Nie,Xueqiu He and Jinfeng Zhang:Journal of China Coal Society Vol. 33(2008), p.903 -907, in Chinese [5] Jianliang Yu, Wei Meng and Yajie Wang: Energetic Mater Ials Vol. 13(2005),p.416-421, in Chinese [6] Zhouquan Cai and Huimin Li:Mining Safetyand Environmental Protection Vol. 33(2006),pp.15-17, in Chinese [7] Ying Wang,Ruiyun Ren and Hongyu Jiang:Mining Machinery Vol.13(2005),p.30-31,in Chinese
Online since: October 2010
Authors: Wen Juan Yao, Ting Chen Fang, Bao Lin Hu
Introduction
Large numbers of researches show[1-2] that many materials have the property of different tension-compression modulus. especially new type polymeric materials and composite materials developed in recent years have more obvious the different modulus characteristics in tension and compression.
Mechanics of Materials, 2009, 42: 469-476
Journal of the Mechanical Behavior of Biomedical Materials, 2009, 2: 51-60
[5] Wenjuan Yao,Zhang CH, Jiang XF, Nonlinear Mechanical Behavior of Combined Members with Different Moduli , International Journal of Nonlinear Sciences and Numerical Simulation,2006,7(2):233-238
Compressive strength analysis for high performance fibers with different modulus in tension and compression Journal of Composite Materials, March 2009v 43, n 6: 661-674.
Mechanics of Materials, 2009, 42: 469-476
Journal of the Mechanical Behavior of Biomedical Materials, 2009, 2: 51-60
[5] Wenjuan Yao,Zhang CH, Jiang XF, Nonlinear Mechanical Behavior of Combined Members with Different Moduli , International Journal of Nonlinear Sciences and Numerical Simulation,2006,7(2):233-238
Compressive strength analysis for high performance fibers with different modulus in tension and compression Journal of Composite Materials, March 2009v 43, n 6: 661-674.
Online since: July 2025
Authors: Ming Liu, Yasmin Akter, Aidana Bauyrzhan, Ayman Hawari
The PULSTAR nuclear reactor at North Carolina State University is a 1-MW open-pool reactor and a center for irradiation and examination of materials.
Such materials are widely used as structural and sensor materials related to nuclear reactors where microstructural damage is critical in determining their performance and failure modes.
This demonstrates the sensitivity of PALS in quantifying vacancy levels in materials, which would be otherwise challenging to measure.
Gidley, The Intense Slow Positron Beam Facility at the PULSTAR Reactor and Applications on Nano-materials Study, AIP Conf.
Vallery, “Positron Annihilation as A Method to Characterize Porous Materials”, Annual Review of Materials Research, 36 (2006) 49–79 [9] M.
Such materials are widely used as structural and sensor materials related to nuclear reactors where microstructural damage is critical in determining their performance and failure modes.
This demonstrates the sensitivity of PALS in quantifying vacancy levels in materials, which would be otherwise challenging to measure.
Gidley, The Intense Slow Positron Beam Facility at the PULSTAR Reactor and Applications on Nano-materials Study, AIP Conf.
Vallery, “Positron Annihilation as A Method to Characterize Porous Materials”, Annual Review of Materials Research, 36 (2006) 49–79 [9] M.
Online since: December 2010
Authors: Jia Wen Xu, Jian She Zhao, Hua Zhang
It is difficult to machine the micro-holes in very hard materials by using traditional machining methods.
The action of removing materials is not only anode dissolution, but also anode glow discharge treatment.
In JED, the materials are removed along the diameter direction at first time, and with the extension of machining time, the materials are removed along the depth direction.
Xu: Journal of Materials Processing Technology Vol.129 (2002), p.15-18
Balkrishna: Transactions of the ASME, Journal of Manufacturing Science and Engineering Vol.118 (1996), p.490-498
The action of removing materials is not only anode dissolution, but also anode glow discharge treatment.
In JED, the materials are removed along the diameter direction at first time, and with the extension of machining time, the materials are removed along the depth direction.
Xu: Journal of Materials Processing Technology Vol.129 (2002), p.15-18
Balkrishna: Transactions of the ASME, Journal of Manufacturing Science and Engineering Vol.118 (1996), p.490-498
Online since: July 2012
Authors: Nor Diyana Abdul Aziz, Nurhanna Badar, Norlida Kamarulzaman, Abdul Rahman Noor Azreen, Mustaffa Nur Amalina
Antonioli: Journal of Sol-Gel Science and Technology Vol. 13 (1998), p. 667–671
Wu: Materials Letters Vol. 59 (2005), p. 804–807
Chen: Materials Research Bulletin Vol. 36 (2001), p. 1057–1064
Wu: Materials Chemistry and Physics Vol. 92 (2005), p. 600–603
Isa: International Journal of the Physical Sciences Vol. 5 (2010), p. 748-752.
Wu: Materials Letters Vol. 59 (2005), p. 804–807
Chen: Materials Research Bulletin Vol. 36 (2001), p. 1057–1064
Wu: Materials Chemistry and Physics Vol. 92 (2005), p. 600–603
Isa: International Journal of the Physical Sciences Vol. 5 (2010), p. 748-752.
Online since: March 2018
Authors: Jamaliah Idris, Taoheed Olohunde Sadiq, sulaiman Olawore
Journal of Materials Processing Technology, 1997, 70(1): 231-238
Journal of Materials Processing Technology, 1997, 68(3): 262-274
Annual Review of Materials Science, 1984, 14(1): 231-278
Journal of Materials Processing Technology, 2000, 100(1): 1-11
Materials Science Forum, 2012, 657-663
Journal of Materials Processing Technology, 1997, 68(3): 262-274
Annual Review of Materials Science, 1984, 14(1): 231-278
Journal of Materials Processing Technology, 2000, 100(1): 1-11
Materials Science Forum, 2012, 657-663
Online since: June 2021
Authors: Yin Xuan Yin, Mei Li Qi, Yong Ling Ding, Yan Min Wang, Min Chen
Progress in Materials Science, 2012, 57(7): 1191-1334
Journal of magnetism and magnetic materials, 2010, 322(3): 366-374
Pinho, Performance of Radar Absorbing Nanocomposites by Waveguide Measurements, Materials Research-Ibero-American Journal of Materials, 11 (2008) 319-324
Wang, Effect of aluminum substitution on microstructure and magnetic properties of electrospun BaFe12O19 nanofibers, Journal of Materials Science, 48 (2013) 1702-1710
Litvinov, Barium hexaferrite nanoparticles: Synthesis and magnetic properties, Materials Science and Engineering B-Advanced Functional Solid-State Materials, 176 (2011) 8-13
Journal of magnetism and magnetic materials, 2010, 322(3): 366-374
Pinho, Performance of Radar Absorbing Nanocomposites by Waveguide Measurements, Materials Research-Ibero-American Journal of Materials, 11 (2008) 319-324
Wang, Effect of aluminum substitution on microstructure and magnetic properties of electrospun BaFe12O19 nanofibers, Journal of Materials Science, 48 (2013) 1702-1710
Litvinov, Barium hexaferrite nanoparticles: Synthesis and magnetic properties, Materials Science and Engineering B-Advanced Functional Solid-State Materials, 176 (2011) 8-13
Online since: August 2024
Authors: Mohd. Yunus Khan, Kunal Kunal, Kishan Pal Singh
Singh et al. [44] As opposed to fluids made of hydrocarbons and synthetic materials.
Y., Recent advancement in electric discharge machining of metal matrix composite materials.
Materials 2021, 14(1), 23 [43] W.
Materials today Proceeding.4 2058-2067
Mukherjee; Uses of Various Dielectrics in Electro Discharge Machining (EDM) – A Critical Review; International Journal of Innovative Science and Research Technology;2023,6(4)
Y., Recent advancement in electric discharge machining of metal matrix composite materials.
Materials 2021, 14(1), 23 [43] W.
Materials today Proceeding.4 2058-2067
Mukherjee; Uses of Various Dielectrics in Electro Discharge Machining (EDM) – A Critical Review; International Journal of Innovative Science and Research Technology;2023,6(4)