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Online since: July 2012
Authors: Yi Qiu Tan, Li Yan Shan, Xin Bian, Jian Fu Lv
The organic phase change materials (OPCM) were imported into inorganic porous materials to prepare composite phase change materials (CPCM).
Preparation of Latent Heat Materials Used in Asphalt Pavement Phase change materials selection The phase change materials (PCM) can change phase with temperature and provide phase change latent heat (PCLH).
Phase Change Materials and Phase Change Technology [M].
Beijing :Science Press,2009
Journal of Highway and Transportation Research and Development, 2006,(23):19-20
Preparation of Latent Heat Materials Used in Asphalt Pavement Phase change materials selection The phase change materials (PCM) can change phase with temperature and provide phase change latent heat (PCLH).
Phase Change Materials and Phase Change Technology [M].
Beijing :Science Press,2009
Journal of Highway and Transportation Research and Development, 2006,(23):19-20
Online since: June 2012
Authors: Dong Mei Liu, Yue Wang, Xue Bin Jia, Dong Jun Zhang, Yi Zou, Dian Dong Ma, Li Qun Liu, De Zhen Wang, Ya Chao Zou, Jian Ming Zhang, Dexin Yin, Qi Shan, Yi Ge Wang
The new phenol removal materials mainly include the development of potassium permanganate composite reagents and new adsorbent resins.
The new phenol removal materials also include KDF metal filter and adsorbents of high performance, such as clay materials modified by surface activator, ceramic particles modified by iron oxides and so on [9-12] .
Acknowledgment This paper is supported by National Natural Science Foundation of Heilongjiang Province (Grant No.
Journal of Harbin University of Commerce Natural Sciences Edition, Vol 20 (2004), No 2, p.199-202 [3] D.M.
Journal of Shenyang Jianzhu University (Natural Science), Vol 24 (2008), No 4, p. 633-636 [14] Najm, Issam N., Tate, Carol, Selby, Douglas.
The new phenol removal materials also include KDF metal filter and adsorbents of high performance, such as clay materials modified by surface activator, ceramic particles modified by iron oxides and so on [9-12] .
Acknowledgment This paper is supported by National Natural Science Foundation of Heilongjiang Province (Grant No.
Journal of Harbin University of Commerce Natural Sciences Edition, Vol 20 (2004), No 2, p.199-202 [3] D.M.
Journal of Shenyang Jianzhu University (Natural Science), Vol 24 (2008), No 4, p. 633-636 [14] Najm, Issam N., Tate, Carol, Selby, Douglas.
Online since: September 2017
Authors: Anatoly A. Fomin
Kwon, Integrated error compensation method using OMM system for profile milling operation, Journal of Materials Processing Technology, 136 (1-3) 2003 88-99
Kim, Simulation of surface roughness and profile in high-speed end milling, Journal of Materials Processing Technology, 113(1-3) 2001 410-415
Chernukhin, Modeling the digging process of tree root system by the mechanism with hydropulse drive, IOP Conference Series: Materials Science and Engineering, 142(1) (2016) 012-090
Kapustin, Equipment for the production of wood-polymeric thermal insulation materials, IOP Conference Series: Materials Science and Engineering, 142(1) (2016) 012-097
Series: Materials Science and Engineering, 69 (2014) 012-021
Kim, Simulation of surface roughness and profile in high-speed end milling, Journal of Materials Processing Technology, 113(1-3) 2001 410-415
Chernukhin, Modeling the digging process of tree root system by the mechanism with hydropulse drive, IOP Conference Series: Materials Science and Engineering, 142(1) (2016) 012-090
Kapustin, Equipment for the production of wood-polymeric thermal insulation materials, IOP Conference Series: Materials Science and Engineering, 142(1) (2016) 012-097
Series: Materials Science and Engineering, 69 (2014) 012-021
Online since: November 2014
Authors: Ya Xiang Zhang, Jian Feng Wu, Xiao Hong Xu, De Zhi He, Yang Zhou, Yi Liu
All the raw materials should pass 250 meshes.
Bai: International Journal of Thermal Sciences, No.49 (2010), p. 2400 [7] Y.
Yang: Materials Chemistry and Physics.
Jiang: Materials and Design.
Journal of Refractory Metals and Hard Materials.
Bai: International Journal of Thermal Sciences, No.49 (2010), p. 2400 [7] Y.
Yang: Materials Chemistry and Physics.
Jiang: Materials and Design.
Journal of Refractory Metals and Hard Materials.
Online since: August 2013
Authors: Wei Xiang Liu
Research on Nano-ceramic Coatings Precision Grinding
Weixiang Liu 1,a
1 Hunan Institute Of Science And Technology, Yueyang ,Hunan, China
alwxhnyy@yahoo.com.cn
Keywords: Nano-ceramic coatings, Material removal mechanism, Elastic deformation, Precision grinding .
Grinding Process of Ceramic Materials Nano-ceramic material WC/Co can be divided into nano-bulk and nanostructured coating.
Journal of the European Ceramic Society, Sep2009, Vol. 29
International Journal of Advanced Manufacturing Technology.
International Journal of Machine Tools & Manufacture, May2012, Vol. 56..
Grinding Process of Ceramic Materials Nano-ceramic material WC/Co can be divided into nano-bulk and nanostructured coating.
Journal of the European Ceramic Society, Sep2009, Vol. 29
International Journal of Advanced Manufacturing Technology.
International Journal of Machine Tools & Manufacture, May2012, Vol. 56..
Online since: October 2014
Authors: Song Ji, Yan Song Zhang, Ang Ding, Jing Hui Huang, Kun Ming Qian, Jie Hao, Chun Yang Qian, Zu Jun Zhang
Phase component materials
No
Comp.
Materials Science ang Engineering 1995, B3: 4204-4209
Materials Science and Technology. 1992. 3
Materials Science and Technology. 2013, 29(11): 1324-1327
Advanced Materials Research. 2013, 716: 276-280
Materials Science ang Engineering 1995, B3: 4204-4209
Materials Science and Technology. 1992. 3
Materials Science and Technology. 2013, 29(11): 1324-1327
Advanced Materials Research. 2013, 716: 276-280
Online since: March 2016
Authors: Ireneusz Dominik, Stanisław Flaga
Design and pre-implementation of micro-movements sensor with magnetic shape memory material
FLAGA Stanisław 1, a *, DOMINIK Ireneusz1,b
1AGH University of Science and Technology, Building B2, Al.
During the last twenty years the rapid development in smart materials, which are also known as active materials, is observed.
The smart materials are sensitive to the changes of physical quantities such as light intensity, temperature, current intensity, electric and magnetic field which as a result change material properties.
Among smart materials which can undergo shape transformation, temperature-controlled shape memory alloys (SMA) [1,2,3,4], electrically-controlled piezoelectric materials [5], magnetic field controlled magnetostrictive materials and magnetic shape memory alloy (MSMA or FSMA) can be found.
[7] Ullakko K., Magnetically Controlled Shape Memory Alloys: A New Class of Actuator Materials, Journal of Material Engineering and Performance, Vol. 5/1996 [8] Flaga S., Kata D. and Sapiński B., Microstructure evaluation of Ni-Mn-Ga alloy, Mechanics and Control, no. 1/2010, AGH University of Science and Technology, Krakow
During the last twenty years the rapid development in smart materials, which are also known as active materials, is observed.
The smart materials are sensitive to the changes of physical quantities such as light intensity, temperature, current intensity, electric and magnetic field which as a result change material properties.
Among smart materials which can undergo shape transformation, temperature-controlled shape memory alloys (SMA) [1,2,3,4], electrically-controlled piezoelectric materials [5], magnetic field controlled magnetostrictive materials and magnetic shape memory alloy (MSMA or FSMA) can be found.
[7] Ullakko K., Magnetically Controlled Shape Memory Alloys: A New Class of Actuator Materials, Journal of Material Engineering and Performance, Vol. 5/1996 [8] Flaga S., Kata D. and Sapiński B., Microstructure evaluation of Ni-Mn-Ga alloy, Mechanics and Control, no. 1/2010, AGH University of Science and Technology, Krakow
Online since: October 2023
Authors: Shantanu Khandeshwar, Rajesh Bhagat
To address this, research is being done on characterizing these materials.
Development of good porosity occurred in all materials due to chemical treatment given to materials, which was evident from SEM images and results of BET analysis.
Conclusion All the agricultural waste materials exhibited a good potential to yield carbon, thus they can be used as raw materials to prepare activated charcoal.
R., A Synoptic Review on Composite Adsorbents to Remove Heavy Metals from Industrial Wastewater, International Journal of Innovations in Engineering and Science.
[11] AeisyahA.S., Halim Shah Ismail H.S., Kamal L., Izhar S., Adsorption Process of Heavy Metals by Low-cost Adsorbent: A Review, World Applied Sciences Journal. 28 (11) (2013) 1518-1530
Development of good porosity occurred in all materials due to chemical treatment given to materials, which was evident from SEM images and results of BET analysis.
Conclusion All the agricultural waste materials exhibited a good potential to yield carbon, thus they can be used as raw materials to prepare activated charcoal.
R., A Synoptic Review on Composite Adsorbents to Remove Heavy Metals from Industrial Wastewater, International Journal of Innovations in Engineering and Science.
[11] AeisyahA.S., Halim Shah Ismail H.S., Kamal L., Izhar S., Adsorption Process of Heavy Metals by Low-cost Adsorbent: A Review, World Applied Sciences Journal. 28 (11) (2013) 1518-1530
Online since: February 2022
Authors: Elena S. Makhotkina, Marianna V. Shubina
Analysis of the Leaching Stage Effect on the Vanadium Extraction from Technogenic Raw Materials
Marianna V.
Bigeev, Prospects of the new types of iron-containing raw materials involvement in the processing, Vestnik of Nosov Magnitogorsk State Technical University. 1 (2004) 9-11
Churilov, Vanadium-containing mineral and technogenic materials, Actual Problems of Modern Science, Technology and Education. 2 (2017) 72-75
Liu, Extraction of vanadium from vanadium slag by high pressure oxidative acid leaching, International Journal of Minerals, Metallurgy and Materials. 22 (2015) 1 21-23
Shubina, Extraction of vanadium from ore and technogenic raw materials of Kusinsky titanomagnetite deposit, Theory and Technology of Metallurgical Production. 3 (22) (2017) 22-25
Bigeev, Prospects of the new types of iron-containing raw materials involvement in the processing, Vestnik of Nosov Magnitogorsk State Technical University. 1 (2004) 9-11
Churilov, Vanadium-containing mineral and technogenic materials, Actual Problems of Modern Science, Technology and Education. 2 (2017) 72-75
Liu, Extraction of vanadium from vanadium slag by high pressure oxidative acid leaching, International Journal of Minerals, Metallurgy and Materials. 22 (2015) 1 21-23
Shubina, Extraction of vanadium from ore and technogenic raw materials of Kusinsky titanomagnetite deposit, Theory and Technology of Metallurgical Production. 3 (22) (2017) 22-25
Online since: January 2013
Authors: Li Sheng Zhang, Li Chao Fu, Jing Yi Tian, Guo Liang Ma
[9] Yong Zhang, Yunjun Zhou, Solid Solution Formation Criteria for High Entropy Alloys, Materials Science Forum. 561-565(2007)1337-1339
[13] SONG Chun-hui, GAN Zhang-hua, LU Zhi-hong, et al., Preparation and Electrochemical Properties of AlMgZnSnPbCuMnNi High Entropy Alloys with Low Free Corrosion Potentials, Journal of Materials Science & Engineering. 5(2011)747-752
[32] Yeh j w, Chen Y L, Lin S J, et al., High-entropy alloys-A new era of exploitation, Materials Science Forum. 1 (2007)1-9
[35] Ren Ming-xing, Li Bang-shen, Phase Analysis of CrFeCoNiCu High Entropy Alloy, Journal of Materials Engineering. 1 (2012)9-12, 24
Microstructure and Mechanical Performance of AlCoCrNiSix High-entropyAlloys, Journal of Materials Engineering. 1 (2012)5-8
[13] SONG Chun-hui, GAN Zhang-hua, LU Zhi-hong, et al., Preparation and Electrochemical Properties of AlMgZnSnPbCuMnNi High Entropy Alloys with Low Free Corrosion Potentials, Journal of Materials Science & Engineering. 5(2011)747-752
[32] Yeh j w, Chen Y L, Lin S J, et al., High-entropy alloys-A new era of exploitation, Materials Science Forum. 1 (2007)1-9
[35] Ren Ming-xing, Li Bang-shen, Phase Analysis of CrFeCoNiCu High Entropy Alloy, Journal of Materials Engineering. 1 (2012)9-12, 24
Microstructure and Mechanical Performance of AlCoCrNiSix High-entropyAlloys, Journal of Materials Engineering. 1 (2012)5-8