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Phase Transition Behavior and Magnetocaloric Effect in a Heusler Ni50Mn37Sn13 Unidirectional Crystal
Online since: February 2018
Authors: Hong Xing Zheng, Yue Fang, Zhi Shuai Xu, Yu Ting Dai
Lyubina, Novel Functional Magnetic Materials, Springer International Publishing, 231 (2016) 115-186
Albe, Caloric effects in ferroic materials: New concepts for cooling, Advanced Engineering Materials, 14 (2012) 10-19
Maier, Influence of martensitic transformation on the magnetic transition in Ni-Mn-Ga, Journal of Magnetism and Magnetic Materials, 432 (2017) 266-270
Kaur, Martensitic phase transformations and magnetocaloric effect in Al co-sputtered Ni-Mn-Sb alloy thin films, Materials Science and Engineering: B, 198 (2015) 113-119
Pecharsky Jr, Magnetocaloric effect and magnetic refrigeration, Journal of Magnetism and Magnetic Materials, 200 (1999) 44-56
Albe, Caloric effects in ferroic materials: New concepts for cooling, Advanced Engineering Materials, 14 (2012) 10-19
Maier, Influence of martensitic transformation on the magnetic transition in Ni-Mn-Ga, Journal of Magnetism and Magnetic Materials, 432 (2017) 266-270
Kaur, Martensitic phase transformations and magnetocaloric effect in Al co-sputtered Ni-Mn-Sb alloy thin films, Materials Science and Engineering: B, 198 (2015) 113-119
Pecharsky Jr, Magnetocaloric effect and magnetic refrigeration, Journal of Magnetism and Magnetic Materials, 200 (1999) 44-56
Online since: September 2013
Authors: Wei Teng, Guang Ming Wang
School of Electronic and Information Engineering, Liaoning University of Science and Technology Anshan, China
2.
Ansteel Engineering Technology Corporation Limited Anshan, China a. tengjiawei1978@163.com; b. tw_ln_1978@126.com Keywords: Cold Rolling Materials; Web Database; ASP.NET; Internet Abstract.
It provides users with a standard data of the domestic cold-rolling materials, including material properties, chemical composition, physical properties, mechanical properties, microstructure properties, process parameters and process equipments.
The system can provide users with rich resources and convenient query function, can help users to select reasonable cold rolling process according to the materials, and select appropriate equipments according to the materials and process.
[9] Bai Jianyu, Xu Jinfu, Bao Mingdong,”The Database of Cold-punched Die Material and Its Application” ,Materials for Mechanical Engineering, Vol.25, pp.36-39, 2001 [10] Tong Xiaoyan,”The Design of User-Oriented Database of Material Performance Based on Client/Server Model”, Technical Proceedings of the Materials Science and Engineering, pp.259-264, 1998.
Ansteel Engineering Technology Corporation Limited Anshan, China a. tengjiawei1978@163.com; b. tw_ln_1978@126.com Keywords: Cold Rolling Materials; Web Database; ASP.NET; Internet Abstract.
It provides users with a standard data of the domestic cold-rolling materials, including material properties, chemical composition, physical properties, mechanical properties, microstructure properties, process parameters and process equipments.
The system can provide users with rich resources and convenient query function, can help users to select reasonable cold rolling process according to the materials, and select appropriate equipments according to the materials and process.
[9] Bai Jianyu, Xu Jinfu, Bao Mingdong,”The Database of Cold-punched Die Material and Its Application” ,Materials for Mechanical Engineering, Vol.25, pp.36-39, 2001 [10] Tong Xiaoyan,”The Design of User-Oriented Database of Material Performance Based on Client/Server Model”, Technical Proceedings of the Materials Science and Engineering, pp.259-264, 1998.
Online since: September 2019
Authors: Sergey Anatolyevich Kotov, Svetlana V.R. Muzafarova, Maria G. Livintsova
akotov_sa@spbstu.ru, bmuzafarova.sr@edu.spbstu.ru, clivintsova_mg@spbstu.ru
Keywords: thermally expanded graphite, rolling, compactability, density, porosity, multilayer strips, powder materials, composite materials, technology efficiency.
The method of expansion of oxidized graphite powders also affects the quality of strip materials.
Natural and engineering sciences.
Mikhailov, Hybrid Aluminum Composite Materials Based on Carbon Nanostructures, Materials Science 21, iss. 3, pp. 372-375 (2015).
Chaikovskii, Classification of high-damping metallic materials, Strength of Materials 18, iss. 10, pp. 1325-1329 (1986).
The method of expansion of oxidized graphite powders also affects the quality of strip materials.
Natural and engineering sciences.
Mikhailov, Hybrid Aluminum Composite Materials Based on Carbon Nanostructures, Materials Science 21, iss. 3, pp. 372-375 (2015).
Chaikovskii, Classification of high-damping metallic materials, Strength of Materials 18, iss. 10, pp. 1325-1329 (1986).
Online since: December 2013
Authors: Qiang Li, Ji Tai Niu, Peng Wang
Lavernia,”Processing Techniques for Particulate Reinforced Metal Aluminium Matrix Composites” Journal of Materials Science, 1991,26 (22): 5965–5978
Lavernia,”Particulate Reinforced Metal Matrix Composites—A Review” Journal of Materials Science, 1991,26(5): 1137–1156
[5] Lu Jin-Bin, MU Yun-Chao, LUO Xiang-Wei, Niu Ji-Tai, ”A new method for soldering particle-reinforced aluminum metal matrix” Materials Science and Engineering B, 2012,177(20): 1759- 1763
[8] FENG Tao, CHEN Xi-Zhang, WU Lu-Hai, LOU Song-Nian, ”Diffusion welding of SiCp/2014Al compositesusing Ni as interlayer” Journal of University of Science and Technology Beijing,Mineral,Metallurgy,Material, 2006,13(3): 267-271
Maitic,”Transient liquid phase diffusion bonding of 6061-15wt%SiCp in argon environment” Journal of Materials Processing Technology, 2009,209(7): 3568–3580
Lavernia,”Particulate Reinforced Metal Matrix Composites—A Review” Journal of Materials Science, 1991,26(5): 1137–1156
[5] Lu Jin-Bin, MU Yun-Chao, LUO Xiang-Wei, Niu Ji-Tai, ”A new method for soldering particle-reinforced aluminum metal matrix” Materials Science and Engineering B, 2012,177(20): 1759- 1763
[8] FENG Tao, CHEN Xi-Zhang, WU Lu-Hai, LOU Song-Nian, ”Diffusion welding of SiCp/2014Al compositesusing Ni as interlayer” Journal of University of Science and Technology Beijing,Mineral,Metallurgy,Material, 2006,13(3): 267-271
Maitic,”Transient liquid phase diffusion bonding of 6061-15wt%SiCp in argon environment” Journal of Materials Processing Technology, 2009,209(7): 3568–3580
Online since: September 2019
Authors: Olga V. Paitova, Elena V. Bobruk, Margarita Aleksandrovna Skotnikova, Jiang Yu Wu
Journal of Materials Science, Kluwer Academic Publishers, v. 45, p. 4659
Materials Science Forum, № 604-604, p. 179
Nanostructured materials obtained by severe plastic deformation.
Materials Physics and Mechanics 33 (2017), pp.113-123
Problems of ferrous metallurgy and materials science. 2011. №2. p. 12–19.
Materials Science Forum, № 604-604, p. 179
Nanostructured materials obtained by severe plastic deformation.
Materials Physics and Mechanics 33 (2017), pp.113-123
Problems of ferrous metallurgy and materials science. 2011. №2. p. 12–19.
Online since: August 2016
Authors: Marlova Piva Kulakowski, Feliciane Andrade Brehm, Elenize Ferreira Maciel, Claudio de Souza Kazmierczak
Yet another interesting application of S/S is clear the development of new materials based on the use of a given waste in combination with raw or even reused materials.
A review of the literature published in portals such as ScienceDirect and in Brazilian research databases like the CAPES Journals afforded to conclude that there is a wide array of studies on the leaching of stabilized and solidified materials.
In other words, materials are analyzed in a quite diluted form.
Studies in Environmental Science.
Elsevier Science.
A review of the literature published in portals such as ScienceDirect and in Brazilian research databases like the CAPES Journals afforded to conclude that there is a wide array of studies on the leaching of stabilized and solidified materials.
In other words, materials are analyzed in a quite diluted form.
Studies in Environmental Science.
Elsevier Science.
Online since: July 2021
Authors: Galina V. Malysheva, Pyae Phyo Maung, Phone Thant Kyaw
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: June 2014
Authors: Chun Hu Li, Ying Fei Hou, Ya Ya Gu, Ning Guo
The effects of immobilization conditions and materials on the desulfurization performance of immobilized cells were investigated.
In this paper, the immobilization technique of embedding was adopted to research the immobilization of Agrobacterium tumefaciens UP-3, and we also explored the influence of immobilization conditions and materials on the catalytic desulfurization performance of the biocatalyst.
Materials and methods Strain The microbe strain, identified by Chinese Academy of Sciences as Agrobacterium tumefaciens(named: Agrobacterium tumefaciens UP-3), was isolated from the oil contaminated soil and sewage of Shengli Oilfield, obtained after the process of the separation, purification, mutation, screening and rescreening.
Influent immobilization conditions and materials on degradation time.
Environmental Science. 6 (2000) 80-84 [11] J.
In this paper, the immobilization technique of embedding was adopted to research the immobilization of Agrobacterium tumefaciens UP-3, and we also explored the influence of immobilization conditions and materials on the catalytic desulfurization performance of the biocatalyst.
Materials and methods Strain The microbe strain, identified by Chinese Academy of Sciences as Agrobacterium tumefaciens(named: Agrobacterium tumefaciens UP-3), was isolated from the oil contaminated soil and sewage of Shengli Oilfield, obtained after the process of the separation, purification, mutation, screening and rescreening.
Influent immobilization conditions and materials on degradation time.
Environmental Science. 6 (2000) 80-84 [11] J.
Online since: July 2011
Authors: Lian Gao, Yu Sheng Ding, Ping He, Shao Ming Dong, X.Y. Zhang, Z. Wang
Carbon fiber reinforced silicon carbide (C/SiC) composites are considered as one of the most potential thermal structure materials.
Preparation of C/SiC composites 2.1.1 Materials.
The materials are supplied by Nanjing Fiberglass R&D Institute, the carbon fiber (T300,3k, Institute of Coal Chemistry, Chinese Academy of Sciences, China) and polycarbosilane (PCS, National University of Defense Technology) are supplied respectively. 2.1.2 Procedure.
Camus, R.Pailler: Journal of the European Ceramic Society Vol. 27(2007) p. 3551 [3] Roger R.
Technol, Vol. 2 (2005) p. 75 [4] Hui Mei, Laifei Cheng: Materials Science and Engineering A Vol. 486 (2008) p. 235 [5] Li Hong, Xu Yong-dong, Zhang Li-Tong, Cheng Lai-fei: Journal of Aeronautical Materials, Vol. 27 August (2007) [6] G.
Preparation of C/SiC composites 2.1.1 Materials.
The materials are supplied by Nanjing Fiberglass R&D Institute, the carbon fiber (T300,3k, Institute of Coal Chemistry, Chinese Academy of Sciences, China) and polycarbosilane (PCS, National University of Defense Technology) are supplied respectively. 2.1.2 Procedure.
Camus, R.Pailler: Journal of the European Ceramic Society Vol. 27(2007) p. 3551 [3] Roger R.
Technol, Vol. 2 (2005) p. 75 [4] Hui Mei, Laifei Cheng: Materials Science and Engineering A Vol. 486 (2008) p. 235 [5] Li Hong, Xu Yong-dong, Zhang Li-Tong, Cheng Lai-fei: Journal of Aeronautical Materials, Vol. 27 August (2007) [6] G.
Online since: June 2008
Authors: Krzysztof Jan Kurzydlowski, Małgorzata Lewandowska, Kinga Wawer
Kurzydlowski1,c
1
Warsaw University of Technology Faculty of Materials Science and Engineering, Woloska 141,
02-507 Warsaw, Poland
a
kingac@inmat.pw.edu.pl, bmalew@inmat.pw.edu.pl, ckjk@inmat.pw.edu.pl
Keywords: hydrostatic extrusion, nanostructured materials, second phase particles, grain
refinement, mechanical properties.
Materials and Methods The materials used in this study were Al-9%Si and Al-11%Si cast aluminium alloys.
References [1] Basavakumar K.G., Mukunda P.G., Chakraborty M.: Materials Characterisation 59 (2008) 283- 289 [2] Basavakumar K.G., Mukunda P.G., Chakraborty M.: International Journal of Impact Engineering 35 (2008) 199-205 [3] Garcia-Infanta J.M., Zhilyaev A.P., Cepeda-Jimenez C.M., Ruano O.A., Careno F.: Scripta Materialia 58 (2008) 138-141 [4] Ma Z.Y., Sharma S.R., Mishra R.S.: Scripta Materialia 54 (2006) 1623 [5] Venkateswarlu K., Das G., Pramanik A.K., Xu Ch., Langdon T.G.: Materials Science and Engineering A 427 (2006) 188-194 [6] Garcia-Infanta J.M., Swaminathan S., Zhilyaev A.P., Careno F., Ruano O.A., McNelley T.R.: Materials Science and Engineering A xxx(2007) xxx-xxx, article in press [7] Lewandowska M.: Solid State Phenomena 114 (2006) p. 109 [8] Lewandowska M., Pachla W., Kurzydłowski K.J.: Int.
Res. 98 (2007) p. 172-177 [9] Garbacz H., Lewandowska M., Pachla W., Kurzydłowski K.J.: Journal of Microscopy 223 (2006) p. 272-274 [10] Lewandowska M., Wawer K.: Materials Science Forum vol. 561-565 (2007) p. 869-872 [11] Wawer K., Lewandowska M., Kurzydlowski K.J.: Material Engineering 3-4 (2007), 486-490 [12] Lewandowska M., Pachla W., Kurzydłowsi K.J.: Int.
Res. 98 (2007) p. 172-177 [13] Wang G., Sun Q., Feng L., Hui L., Jing C.: Materials and Design 28 (2007) p. 1001-105 [14] Hung X., Hansen N., Tsuji N.: Science vol. 312 (2006) p. 249-251
Materials and Methods The materials used in this study were Al-9%Si and Al-11%Si cast aluminium alloys.
References [1] Basavakumar K.G., Mukunda P.G., Chakraborty M.: Materials Characterisation 59 (2008) 283- 289 [2] Basavakumar K.G., Mukunda P.G., Chakraborty M.: International Journal of Impact Engineering 35 (2008) 199-205 [3] Garcia-Infanta J.M., Zhilyaev A.P., Cepeda-Jimenez C.M., Ruano O.A., Careno F.: Scripta Materialia 58 (2008) 138-141 [4] Ma Z.Y., Sharma S.R., Mishra R.S.: Scripta Materialia 54 (2006) 1623 [5] Venkateswarlu K., Das G., Pramanik A.K., Xu Ch., Langdon T.G.: Materials Science and Engineering A 427 (2006) 188-194 [6] Garcia-Infanta J.M., Swaminathan S., Zhilyaev A.P., Careno F., Ruano O.A., McNelley T.R.: Materials Science and Engineering A xxx(2007) xxx-xxx, article in press [7] Lewandowska M.: Solid State Phenomena 114 (2006) p. 109 [8] Lewandowska M., Pachla W., Kurzydłowski K.J.: Int.
Res. 98 (2007) p. 172-177 [9] Garbacz H., Lewandowska M., Pachla W., Kurzydłowski K.J.: Journal of Microscopy 223 (2006) p. 272-274 [10] Lewandowska M., Wawer K.: Materials Science Forum vol. 561-565 (2007) p. 869-872 [11] Wawer K., Lewandowska M., Kurzydlowski K.J.: Material Engineering 3-4 (2007), 486-490 [12] Lewandowska M., Pachla W., Kurzydłowsi K.J.: Int.
Res. 98 (2007) p. 172-177 [13] Wang G., Sun Q., Feng L., Hui L., Jing C.: Materials and Design 28 (2007) p. 1001-105 [14] Hung X., Hansen N., Tsuji N.: Science vol. 312 (2006) p. 249-251