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Online since: April 2023
Authors: V.M. Fomin, D.V. Apelinskiy
There is an extensive raw material base for increasing its production and much wider energy use in transport [16-18].
Series: Materials Science and Engineering. 534 (2019) 1, 012032 doi:10.1088/1757-899X/534/1/012032 [10] N.V.
Gjirja, On-board conversion of alcohols to ethers for fumigation in compression ignition engines, Journal of Automobile Engineering. 217(3) (2003) 155-164
Smolyarov, Prospects for the use of hydrogen in vehicles, International Scientific Journal for Alternative Energy and Ecology (ISJAEE). 1(9) (2004) 5-13
Smolyarov, Prospects for the use of hydrogen in vehicles, International Scientific Journal for Alternative Energy and Ecology (ISJAEE). 1(9) (2004) 5-13
Series: Materials Science and Engineering. 534 (2019) 1, 012032 doi:10.1088/1757-899X/534/1/012032 [10] N.V.
Gjirja, On-board conversion of alcohols to ethers for fumigation in compression ignition engines, Journal of Automobile Engineering. 217(3) (2003) 155-164
Smolyarov, Prospects for the use of hydrogen in vehicles, International Scientific Journal for Alternative Energy and Ecology (ISJAEE). 1(9) (2004) 5-13
Smolyarov, Prospects for the use of hydrogen in vehicles, International Scientific Journal for Alternative Energy and Ecology (ISJAEE). 1(9) (2004) 5-13
Online since: October 2014
Authors: Ren Xian Li, Ji Zhou Liu, Peng Xiang Cui
For example, some absorbing material sensetive in that frequency band may be choice to desgin sound barriers on high speed railway.
5.
References [1] Z Shen, Dynamic environment of high speed train and its distinguished technology, Journal of Railways. 28 (2010) 38-43
Talotte, Aerodynamic noise: A Critical Survey, Journal of Sound and Vibration. 231(3) (2000) 549-562
Li, The application of numerical simulation technology in the external aerodynamic noise field of high-speed train, Applied Mechanics and materials.
Science press, Beijing, 2004
References [1] Z Shen, Dynamic environment of high speed train and its distinguished technology, Journal of Railways. 28 (2010) 38-43
Talotte, Aerodynamic noise: A Critical Survey, Journal of Sound and Vibration. 231(3) (2000) 549-562
Li, The application of numerical simulation technology in the external aerodynamic noise field of high-speed train, Applied Mechanics and materials.
Science press, Beijing, 2004
Online since: November 2014
Authors: Sheng Hong Yao, Ying Hui Li, Jing Fang, Gao Pan, Long Hua Wang
Risk warning indicators come from three sources: analyzing existing materials (laws and regulations, some relevant cases, etc.), information obtained by investigation, observation and inspection.
Journal of project management technology, 2011 (4) : 71-74
Journal of automation, 1993, 19 (5) : 562-568
Journal of hydroelectric power, 2005, 31 (3) : 44-47
Journal of education accounting research, 2008 (2) : 7-11.
Journal of project management technology, 2011 (4) : 71-74
Journal of automation, 1993, 19 (5) : 562-568
Journal of hydroelectric power, 2005, 31 (3) : 44-47
Journal of education accounting research, 2008 (2) : 7-11.
Online since: January 2012
Authors: Gundolf Kopp, Elmar Beeh, Kyrylo Vorobyov, Valentyn Danchenko
The most accurate possible characterisation of materials will be required to achieve reliable component design.
Fig.2: The pressure-time curve for deformation of cylindrical sample pieces made out of the test materials.
Schöll: Next decades’ challenges for terrestrial vehicles’ materials and manufacturing to reduce CO2 emissions.
In: Journal of Materials Science Forum .
Thermec 2009 International Conference on Processing & Manufacturing of Advanced Materials, 25.-29.08.2009, Berlin
Fig.2: The pressure-time curve for deformation of cylindrical sample pieces made out of the test materials.
Schöll: Next decades’ challenges for terrestrial vehicles’ materials and manufacturing to reduce CO2 emissions.
In: Journal of Materials Science Forum .
Thermec 2009 International Conference on Processing & Manufacturing of Advanced Materials, 25.-29.08.2009, Berlin
Online since: December 2010
Authors: Tong Jiang Peng, Bai Li Su, Guo Hua Ma
Preparation and Decolorization Properties of Active Industrial Vermiculites
Baili Su1, 2, 3, a, Tongjiang Peng2, 3, b* and Guohua Ma2, c
1College of Science, Southwest University of Science & Technology, Mianyang 621010, P.R.China
2Institution of Mineral Material & Application, Southwest University of Science & Technology, Mianyang 621010, P.R.China
3Key Laboratory of Solid Waste Treatment and Resource Recycle (Southwest University of Science & Technology), Ministry of Education, Mianyang 621010, P.R.China
asubaili1020@126.com, btjpeng@swust.edu.cn*, cmaguohua@swust.edu.cn
Keywords: acid-activation, industrial vermiculite, decolorization properties
Abstract.
It is well known that vermiculites have a good adsorbability due to interlayer materials of vermiculite is exchangeable [1, 2].
Industrial vermiculite samples were carried out chemical composition analysis using X-ray Fluorescence Spectrometer of Axios Wavelength Dispersive (Analysis and Test Center of Southwest University of Science and Technology), which chemical compositions (Wt/%) include SiO2 (41.743), TiO2 (2.403), Al2O3 (12.436), CaO (2.739), MgO (13.099), MnO (0.105), Na2O (0.142), K2O (12.219).
Acknowledgement: The authors are grateful to the financial support from Supported by National Key Technology R&D Program in the 11th Five Year Plan of China (2008BAE60B07 and 2008BAE60B09) and the Opening Project of Key Laboratory of Solid Waste Treatment and Resource Recycle (Southwest University of Science and Technology) of Ministry of Education (08zxgp11).
Pan, et al.: Journal of Southwest China Institute of Technology, Vol. 10 (1995), p. 16 [3] V.
It is well known that vermiculites have a good adsorbability due to interlayer materials of vermiculite is exchangeable [1, 2].
Industrial vermiculite samples were carried out chemical composition analysis using X-ray Fluorescence Spectrometer of Axios Wavelength Dispersive (Analysis and Test Center of Southwest University of Science and Technology), which chemical compositions (Wt/%) include SiO2 (41.743), TiO2 (2.403), Al2O3 (12.436), CaO (2.739), MgO (13.099), MnO (0.105), Na2O (0.142), K2O (12.219).
Acknowledgement: The authors are grateful to the financial support from Supported by National Key Technology R&D Program in the 11th Five Year Plan of China (2008BAE60B07 and 2008BAE60B09) and the Opening Project of Key Laboratory of Solid Waste Treatment and Resource Recycle (Southwest University of Science and Technology) of Ministry of Education (08zxgp11).
Pan, et al.: Journal of Southwest China Institute of Technology, Vol. 10 (1995), p. 16 [3] V.
Online since: October 2014
Authors: Andrzej Buchacz, Marek Płaczek, Andrzej Wróbel
Introduction
A significant increase of smart materials applications in modern technical devices has been noted in recent years.
Piezoelectric materials that are successfully used as components in machine building can be included in this group.
Applications growth of piezoelectric transducers is parallel to the process of piezoelectric materials development.
Using such kind of innovative solutions it is possible to use piezoelectric materials in new, designed technical devices.
The development of transducers allows new applications of piezoelectric materials and improves operation of existing devices.
Piezoelectric materials that are successfully used as components in machine building can be included in this group.
Applications growth of piezoelectric transducers is parallel to the process of piezoelectric materials development.
Using such kind of innovative solutions it is possible to use piezoelectric materials in new, designed technical devices.
The development of transducers allows new applications of piezoelectric materials and improves operation of existing devices.
Online since: August 2020
Authors: Siriwan Srisang, Naruebodee Srisang
Both wastes were utilized into raw materials for food and fuel productions.
Materials and Methods 2.1 Preparation of raw materials.
Raw materials A) durian seeds and B) PLA. 2.2 Preparation of bioplates production.
Se, Binder Application in Durian Peels Briquette as a Solid Biofuel, in: Applied Mechanics and Materials, Trans Tech Publ, 2015, pp. 494-498
Zelсa, Properties of Hemp Fibres Reinforced PLA Composites, in: Key Engineering Materials, Trans Tech Publ, 2019, pp. 205-209
Materials and Methods 2.1 Preparation of raw materials.
Raw materials A) durian seeds and B) PLA. 2.2 Preparation of bioplates production.
Se, Binder Application in Durian Peels Briquette as a Solid Biofuel, in: Applied Mechanics and Materials, Trans Tech Publ, 2015, pp. 494-498
Zelсa, Properties of Hemp Fibres Reinforced PLA Composites, in: Key Engineering Materials, Trans Tech Publ, 2019, pp. 205-209
Online since: July 2007
Authors: Hong Zhen Guo, Min Wang
Guo
b
School of Materials Science and Engineering, Northwestern Polytechnical University, Xi'an,
710072, P.
Experiment Testing materials Testing materials are solid-solution state 1Cr18Ni9Ti bars with diameter of 200mm.
In particular, to those materials that cannot be heat-treated through solid-phase transformation, deformation-recrystallization technique is used to improve the mechanical property of materials.
Materials Science and Engineering A.
Metal Materials of Abroad, Vol. 5(1991),p. 9
Experiment Testing materials Testing materials are solid-solution state 1Cr18Ni9Ti bars with diameter of 200mm.
In particular, to those materials that cannot be heat-treated through solid-phase transformation, deformation-recrystallization technique is used to improve the mechanical property of materials.
Materials Science and Engineering A.
Metal Materials of Abroad, Vol. 5(1991),p. 9
Online since: January 2012
Authors: A.H.V. Pavan, K.S.N. Vikrant, Somnath Nandi, Kulvir Singh
Introduction
In fossil boilers of sub-critical power plants, the most extensively used materials are ferritic steels such as T11 (1.25Cr-0.5Mo-0.75Si) and T22 grades (2.25Cr-1Mo) [1].
These materials are operated for long time periods in temperature regimes of 500-550oC.
Hence, damage mechanisms at high temperatures such as creep, fireside corrosion, thermal fatigue, steamside oxidation [3] play an important role for the degradation of life of these materials.
Experimentation The T11 and T22 materials for the investigations were taken from Platen Super Heater (PSH) outlet tubes of two different power plants operated for 187,639 hours at 516oC and 153,766 hours at 530oC respectively.
Nagamanickam and Kulvir Singh, Steam side oxidation scale growth studies on T11 and T22 service exposed boiler tubes in sub critical power plants, submitted to CORCON 2011 International Conference and Expo, Mumbai, India, 2011 [5] Steven C.Kung, Online measurements of gaseous species in a pilot-scale combustion facility for fireside corrosion study, EPRI 6th International Conference on Advances in materials for Fossil Power Plants, Santa Fe, New Mexico, 2010 [6] Per Kofstad, High Temperature Corrosion, first edition, Elsevier Applied Science, London, 1988 [7] A.Hernas, M.Imosa, B.Formanek and J.Cizner, High-temperature chlorine-sulfur corrosion of heat-resisting steels, Journal of Materials Processing Technology, 157-158 (2004) 348-353 [8] K S N Vikrant, A H V Pavan, Somnath Nandi, Kulvir Singh, Fireside corrosion studies on T11 and T22 boiler tubes operated in coal fired power plants, Technical session VIII, Proceedings of ATCOM 11 International Conference, Ranchi, India, 2011 [9]
These materials are operated for long time periods in temperature regimes of 500-550oC.
Hence, damage mechanisms at high temperatures such as creep, fireside corrosion, thermal fatigue, steamside oxidation [3] play an important role for the degradation of life of these materials.
Experimentation The T11 and T22 materials for the investigations were taken from Platen Super Heater (PSH) outlet tubes of two different power plants operated for 187,639 hours at 516oC and 153,766 hours at 530oC respectively.
Nagamanickam and Kulvir Singh, Steam side oxidation scale growth studies on T11 and T22 service exposed boiler tubes in sub critical power plants, submitted to CORCON 2011 International Conference and Expo, Mumbai, India, 2011 [5] Steven C.Kung, Online measurements of gaseous species in a pilot-scale combustion facility for fireside corrosion study, EPRI 6th International Conference on Advances in materials for Fossil Power Plants, Santa Fe, New Mexico, 2010 [6] Per Kofstad, High Temperature Corrosion, first edition, Elsevier Applied Science, London, 1988 [7] A.Hernas, M.Imosa, B.Formanek and J.Cizner, High-temperature chlorine-sulfur corrosion of heat-resisting steels, Journal of Materials Processing Technology, 157-158 (2004) 348-353 [8] K S N Vikrant, A H V Pavan, Somnath Nandi, Kulvir Singh, Fireside corrosion studies on T11 and T22 boiler tubes operated in coal fired power plants, Technical session VIII, Proceedings of ATCOM 11 International Conference, Ranchi, India, 2011 [9]
Online since: January 2012
Authors: J.L. Arias, A. T. Pérez, Maria Angeles Montealegre, P. Rey, M. González, F. Bouzada, Gemma Castro Regal
Steen, Laser Material processing, Springer (2003)
Zhang, Materials and Design Vol. 27 (2006), pp. 1114–1119 [4] M.
Cho, Journal of Materials Processing Technology Vol. 202, (2008) pp. 107–111
Rabinowicz, Friction and Wear of materials, John Wiley and Sons (1995)
Jamali, Corrosion Science Vol. 53 (2011), pp. 89–98.
Zhang, Materials and Design Vol. 27 (2006), pp. 1114–1119 [4] M.
Cho, Journal of Materials Processing Technology Vol. 202, (2008) pp. 107–111
Rabinowicz, Friction and Wear of materials, John Wiley and Sons (1995)
Jamali, Corrosion Science Vol. 53 (2011), pp. 89–98.