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Online since: September 2020
Authors: Vladimir Kotlyar, Grigorii Kozlov, Oleg Jivotkov, Irina Jivotkova, A. Kozlov
Introduction
During the rapid development of the new-generation building materials, the materials traditionally used in construction, such as concrete, ceramics, etc., have not lost their position.
Rogochaya, Comparative effectiveness of the use in the construction of wall products with a density of less than 800 kg/m3, Engineering and Construction Bulletin of the Caspian Sea. 4 (2015) 46-51
Chuikin, Silicate brick in the outer walls of buildings: analysis of the state, forecast of durability and ways to increase it, Engineering and Construction Journal. 8 (2011) 35-40
Rostov-on-Don, Rostov State University of Civil Engineering. (2015) 291-293
Lesovik, Use of mining industry wastes for silicate materials production, The 3rd International Conférence on Chemical Investigation and Utilization of Natural Resources.
Rogochaya, Comparative effectiveness of the use in the construction of wall products with a density of less than 800 kg/m3, Engineering and Construction Bulletin of the Caspian Sea. 4 (2015) 46-51
Chuikin, Silicate brick in the outer walls of buildings: analysis of the state, forecast of durability and ways to increase it, Engineering and Construction Journal. 8 (2011) 35-40
Rostov-on-Don, Rostov State University of Civil Engineering. (2015) 291-293
Lesovik, Use of mining industry wastes for silicate materials production, The 3rd International Conférence on Chemical Investigation and Utilization of Natural Resources.
Online since: February 2016
Authors: Bo Chi, Ying Peng Gong, Ming Zhang, Li Jian
A Novel Electrolyte Protect Layer for Aqueous Lithium-Air Battery
Yingpeng Gonga*, Ming Zhangb, Bo Chic and Li Jiand
Center for Fuel Cell Innovation, State Key Laboratory of Material Processing and Die & Mould Technology, School of Materials Science and Engineering, Huazhong University of Science and Technology, Wuhan, 430074, China
agyp124@126.com, bmingzhangly@qq.com, cchibo@hust.edu.cn, dlijian@hust.edu.cn
*corresponding author, +86-27-87558142
Keywords: Lithium air batteries; Water stable lithium electrode; Interface resistance
Abstract.
Usually, WSLE consists of lithium metal anode, a lithium conducting protect interlayer and a water-stable lithium ion conducting solid glass-ceramic electrolyte.
Visco et al. [1] have confirmed NASICON type Li1+xAlxTi1-x(PO4)3 (LATP) as an effective lithium ion conducting solid glass-ceramic electrolyte for aqueous lithium-air battery.
Katz, The 12th International Meeting on Lithium Batteries, Nara, Japan, Abstract. 53 (2004)
Zhang, Lithium anode for lithium-air secondary batteries, Journal of Power Sources. 185 (2008) 1392-1397.
Usually, WSLE consists of lithium metal anode, a lithium conducting protect interlayer and a water-stable lithium ion conducting solid glass-ceramic electrolyte.
Visco et al. [1] have confirmed NASICON type Li1+xAlxTi1-x(PO4)3 (LATP) as an effective lithium ion conducting solid glass-ceramic electrolyte for aqueous lithium-air battery.
Katz, The 12th International Meeting on Lithium Batteries, Nara, Japan, Abstract. 53 (2004)
Zhang, Lithium anode for lithium-air secondary batteries, Journal of Power Sources. 185 (2008) 1392-1397.
Online since: October 2025
Authors: Kasinathan Kaviyarasu, A. Ayeshamariam, M. Ismail Fathima, N. N. Shafeera, Soundrapandian Muthuraja, K. Gokila
International Journal of Hydrogen Energy, 43(47), pp.21642-21648
Industrial & Engineering Chemistry Research, 57(6), pp.2146-2154
Ceramics International, 50(4), pp.6854-6869
Industrial & Engineering Chemistry Research, 57(6), pp.2146-2154
Microelectronic Engineering, 229, p.111359
Industrial & Engineering Chemistry Research, 57(6), pp.2146-2154
Ceramics International, 50(4), pp.6854-6869
Industrial & Engineering Chemistry Research, 57(6), pp.2146-2154
Microelectronic Engineering, 229, p.111359
Manufacturing of Porous Biomaterials for Dental Implant Applications through Selective Laser Melting
Online since: June 2012
Authors: Francesco Cardaropoli, Fabrizia Caiazzo, Vincenzo Sergi, Vittorio Alfieri
Manufacturing of porous biomaterials for dental implant applications through Selective Laser Melting
Francesco Cardaropoli1,a, Vittorio Alfieri1,b, Fabrizia Caiazzo1,c, Vincenzo Sergi1,d
1Dept. of Industrial Engineering, University of Salerno, Via Ponte Don Melillo, 84084, Fisciano, Italy
a fcardaro@unisa.it, b valfieri@unisa.it, c f.caiazzo@unisa.it, d sergi@unisa.it
Keywords: Selective Laser Melting, Biomaterials, Dental implants, Ti-6Al-4V.
Journal of Biomedical Materials Research, Vol. 19 (1985), pp. 875-901
Journal of Biomedical Materials Research, Vol. 29 (1995), pp. 1567-75
Journal of the American Ceramic Society, Vol. 67 (1984), pp. 93-98
In proceedings of ICPR 21, 21st International Conference on Production Research (2011)
Journal of Biomedical Materials Research, Vol. 19 (1985), pp. 875-901
Journal of Biomedical Materials Research, Vol. 29 (1995), pp. 1567-75
Journal of the American Ceramic Society, Vol. 67 (1984), pp. 93-98
In proceedings of ICPR 21, 21st International Conference on Production Research (2011)
Online since: October 2014
Authors: Bao Min Wang, Yu Han, Shuai Liu
Journal of Materials Engineering and Performance. 22 (2013) 184-189.
]
Carbon nanotube (CNT) study was firstly published by Iijima in 1991.[[] S.
It's generally used as a variety of substrates (polymer, metal, cement, ceramic, etc.) of the reinforcement in electrical and thermal properties researches.
With the large-scale production of carbon nanotubes, their applications are more and more in all kinds of engineering materials and sensors.
Proceedings of the Institution of Mechanical Engineers, Part N: Journal ofNanoengineering and Nanosystems. 225 (2011) 17-22. ] studied the impact of carbon nanotubes on the flexural properties of cement-based materials, and found that 0.25%, 0.5% and 0.75% MWNTs addition increased the flexural strength of cement by 30.76%, 37.93% and 43.75%, respectively.
These studies provided important theoretical basis for the application which MWNTs cement-based composites were used as stress sensors in civil engineering.
It's generally used as a variety of substrates (polymer, metal, cement, ceramic, etc.) of the reinforcement in electrical and thermal properties researches.
With the large-scale production of carbon nanotubes, their applications are more and more in all kinds of engineering materials and sensors.
Proceedings of the Institution of Mechanical Engineers, Part N: Journal ofNanoengineering and Nanosystems. 225 (2011) 17-22. ] studied the impact of carbon nanotubes on the flexural properties of cement-based materials, and found that 0.25%, 0.5% and 0.75% MWNTs addition increased the flexural strength of cement by 30.76%, 37.93% and 43.75%, respectively.
These studies provided important theoretical basis for the application which MWNTs cement-based composites were used as stress sensors in civil engineering.
Online since: June 2009
Authors: C.A. Featherston, Karen M. Holford, Bea Greaves
Greaves1,c
1
Cardiff School of Engineering, Cardiff University, Queen's Buildings,
The Parade, Cardiff, CF24 3AA, UK.
Hagood: Journal of Intelligent Material Systems and Structures, Vol. 8 (1997).
SPIE International Symposium on Smart Structures and Materials, Newport Beach, California, (2000)
Microelectronics Journal, (2008) in press
Engineering smart technologies.
Hagood: Journal of Intelligent Material Systems and Structures, Vol. 8 (1997).
SPIE International Symposium on Smart Structures and Materials, Newport Beach, California, (2000)
Microelectronics Journal, (2008) in press
Engineering smart technologies.
Online since: January 2020
Authors: M. S. Korolyov, A.Y. Altukhov, Evgeniy V. Ageev
Lipatov, Russian Engineering Research, 2013, pp.144-149
Murty, Materials Science and Engineering: A, 2010, pp.2370-2378
Ducheyne, Ceramics International, 2000, pp.709-713
Gandy, Journal of Engineering for Gas Turbines and Power, 2010, pp.1-8
Horyakova, Russian Engineering Research, 2015, pp.33–35
Murty, Materials Science and Engineering: A, 2010, pp.2370-2378
Ducheyne, Ceramics International, 2000, pp.709-713
Gandy, Journal of Engineering for Gas Turbines and Power, 2010, pp.1-8
Horyakova, Russian Engineering Research, 2015, pp.33–35
Online since: April 2018
Authors: Stefan Veenaas, Frank Vollertsen
Normally ceramic materials can only be joined using extra joining elements like glue or bolts.
In: Production Engineering.
In: 4th international conference on high speed forming, pp 97–107 [6] Patent (USA) (2011) Low-Temperature Spot Impact Welding Driven Without Contact, Pub.
US 2011/0000953 A1 [7] Zhang, Y., Suresh Babub, S., Prothec, C., Blakelyd, M., Kwasegroche, J., LaHae, M., Daehn, G.S. (2011) Application of high velocity impact welding at varied different length scales, Journal of Materials Processing Technology 211, pp. 944-952 [8] Veenaas, S., Wielage, H., Vollertsen, F. (2013) Joining by laser shock forming: realization and acting pressures, Production Engineering - Research and Development (WGP), DOI 10.1007/s11740-013-0521-z [9] Barchukov, A.
[15] Czotscher, T., Veenaas, S. & Vollertsen, F. (2017) Possibilites to characterise laser induced shock waves, Journal for Technology of Plasticity 42
In: Production Engineering.
In: 4th international conference on high speed forming, pp 97–107 [6] Patent (USA) (2011) Low-Temperature Spot Impact Welding Driven Without Contact, Pub.
US 2011/0000953 A1 [7] Zhang, Y., Suresh Babub, S., Prothec, C., Blakelyd, M., Kwasegroche, J., LaHae, M., Daehn, G.S. (2011) Application of high velocity impact welding at varied different length scales, Journal of Materials Processing Technology 211, pp. 944-952 [8] Veenaas, S., Wielage, H., Vollertsen, F. (2013) Joining by laser shock forming: realization and acting pressures, Production Engineering - Research and Development (WGP), DOI 10.1007/s11740-013-0521-z [9] Barchukov, A.
[15] Czotscher, T., Veenaas, S. & Vollertsen, F. (2017) Possibilites to characterise laser induced shock waves, Journal for Technology of Plasticity 42
Non-Linear Vibro-Acoustic Wave Modulations - Analysis of Different Types of Low-Frequency Excitation
Online since: July 2013
Authors: Francesco Aymerich, Andrzej Klepka, Wieslaw Jerzy Staszewski, Kajetan Dziedziech
Journal of Applied Physics. 1979, Vol. 50, p. 6737
Key Engineering Materials. 2012, Tom 518, strony 160-167
Leuven : Proceedings of ISMA 2008: International Conference on Noise and Vibration Engineering, 2008
Leuven : Proceedings of the International conference on Noise and vibration engineering, International conference on Uncertainty in Structural Dynamics, 2012
Leuven : Proceedings of ISMA2006: International Conference on Noise and Vibration Engineering, 2006.
Key Engineering Materials. 2012, Tom 518, strony 160-167
Leuven : Proceedings of ISMA 2008: International Conference on Noise and Vibration Engineering, 2008
Leuven : Proceedings of the International conference on Noise and vibration engineering, International conference on Uncertainty in Structural Dynamics, 2012
Leuven : Proceedings of ISMA2006: International Conference on Noise and Vibration Engineering, 2006.
Online since: May 2012
Authors: Si Man Liu, Deng Liang He
So, researchers from domestic and international had being carried out a lot of exploration work, which mainly focused on how to achieve efficient photo catalytic under visible light technical [6-10].
Ohwaki, et al: Science Vol. 293(2001), p 269 [4]Mills A, Lepre A, Elliott, etal:Journal of Photochemistry and Photobiology A: Chemistry Vol. 160(2007), p213 [5]Baskaran S,Song L,Liu J,etal: Journal of America Cream Society Vol. 81 (19982), p401 [6]Daoxin Wu, Qiyuan Chen, Jie Li, etal: The Chinese Journal of Nonferrous Metals Vol. 18 (2008), p171 (In Chinese) [7]Hong Liu, Wenhua Leng, Hejin Wu, etal: Chinese journal of catalysis Vol. 21 (2000), p56 (In Chinese) [8]Haiyan Ding, Yuping Wang, Panyin Peng, etal: journal if Nanjin normal university (natural science) Vol. 27 (2004), p 118 (In Chinese) [9]Khodja,Sehilit,Polichowskij F, et al:Journal of Phtochem Photobiol A: Chem Vol. 141 (2001), p231 [10]Wenhua Leng, Li Zhang, Shaoan Cheng, et al: Chinese Journal of Environmental science Vol. 21(2000),p46 (In Chinese) [11]Aruna S T, Tirosh S and Zaban A: Journal of Material Cemica Vol. 10 (2000), p 2388 [12]Qinghong Zhang, Lian Gao and Jingkun Guo:Applied Catalysis B: Environmental Vol
. 26 (2000),p207 [13]Lionel Vayssieres, Anders Hagfeldt and Sten Eric Lindquist: Pure and Appl Chem Vol. 72 (2000), p47 [14]Li yang Ma, Faqin Dong, Mianxin Song, etal:Journal of Functional Material Vol. 41(2010), 755 (In Chinese) [15]Hui Wang, DeyiLv, ChanyongXun,etal:chemistry Vol. 67(2004),p1(In Chinese) [16]Zhongcheng Zhou, Jianming Ruan, Jianpeng Zou, etal: Chinese Journal of Rare Metals Vol. 30(2006), p653 (In Chinese) [17]Changhong Qu, Wuyou Fu and Haibin Yang: Journal of Jilin University Vol. 47(2009), p811 (In Chinese) [18]XiaomingFan, YunjunNong, ZhuoruoYan, etal: Inorganic Chemicals Industry Vol. 35 (2003), P 24(In Chinese) [19] Zheng Nong, XimingHuan, JiachengZhong,eta: Journal of Functional Material Vol. 35 (2004), p311 (In Chinese) [20]Xiaoquan Chen, Guobang Gu and Huanbin Liu, et al: Journal of American Ceramic Society Vol. 87 (2004), p1035 [21]Vayssieres L, Hagfeldt A and Lindquist S E:Pure and Appl .Chem Vol. 72 (2000), p47 [22]Aruna S T, Tirosh S and Zaban A:
Journal of Materials Chemistry Vol. 10 (2000), p2388 [23]LiminZhou, ZhirongLiu and QunwuHuan: Semiconductor optoelectronics Vol.30 (2009), p562 (In Chinese) [24]Xuxu Zheng, HuangYu and Zhongyi Yin: Journal of materials engineering Vol. 10(2008), p39 (In Chinese)
Ohwaki, et al: Science Vol. 293(2001), p 269 [4]Mills A, Lepre A, Elliott, etal:Journal of Photochemistry and Photobiology A: Chemistry Vol. 160(2007), p213 [5]Baskaran S,Song L,Liu J,etal: Journal of America Cream Society Vol. 81 (19982), p401 [6]Daoxin Wu, Qiyuan Chen, Jie Li, etal: The Chinese Journal of Nonferrous Metals Vol. 18 (2008), p171 (In Chinese) [7]Hong Liu, Wenhua Leng, Hejin Wu, etal: Chinese journal of catalysis Vol. 21 (2000), p56 (In Chinese) [8]Haiyan Ding, Yuping Wang, Panyin Peng, etal: journal if Nanjin normal university (natural science) Vol. 27 (2004), p 118 (In Chinese) [9]Khodja,Sehilit,Polichowskij F, et al:Journal of Phtochem Photobiol A: Chem Vol. 141 (2001), p231 [10]Wenhua Leng, Li Zhang, Shaoan Cheng, et al: Chinese Journal of Environmental science Vol. 21(2000),p46 (In Chinese) [11]Aruna S T, Tirosh S and Zaban A: Journal of Material Cemica Vol. 10 (2000), p 2388 [12]Qinghong Zhang, Lian Gao and Jingkun Guo:Applied Catalysis B: Environmental Vol
. 26 (2000),p207 [13]Lionel Vayssieres, Anders Hagfeldt and Sten Eric Lindquist: Pure and Appl Chem Vol. 72 (2000), p47 [14]Li yang Ma, Faqin Dong, Mianxin Song, etal:Journal of Functional Material Vol. 41(2010), 755 (In Chinese) [15]Hui Wang, DeyiLv, ChanyongXun,etal:chemistry Vol. 67(2004),p1(In Chinese) [16]Zhongcheng Zhou, Jianming Ruan, Jianpeng Zou, etal: Chinese Journal of Rare Metals Vol. 30(2006), p653 (In Chinese) [17]Changhong Qu, Wuyou Fu and Haibin Yang: Journal of Jilin University Vol. 47(2009), p811 (In Chinese) [18]XiaomingFan, YunjunNong, ZhuoruoYan, etal: Inorganic Chemicals Industry Vol. 35 (2003), P 24(In Chinese) [19] Zheng Nong, XimingHuan, JiachengZhong,eta: Journal of Functional Material Vol. 35 (2004), p311 (In Chinese) [20]Xiaoquan Chen, Guobang Gu and Huanbin Liu, et al: Journal of American Ceramic Society Vol. 87 (2004), p1035 [21]Vayssieres L, Hagfeldt A and Lindquist S E:Pure and Appl .Chem Vol. 72 (2000), p47 [22]Aruna S T, Tirosh S and Zaban A:
Journal of Materials Chemistry Vol. 10 (2000), p2388 [23]LiminZhou, ZhirongLiu and QunwuHuan: Semiconductor optoelectronics Vol.30 (2009), p562 (In Chinese) [24]Xuxu Zheng, HuangYu and Zhongyi Yin: Journal of materials engineering Vol. 10(2008), p39 (In Chinese)