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Online since: July 2006
Authors: J. Bednarčík, Jarmila Degmová, J. Sitek
It will be shown that the Mössbauer spectrometry is a suitable tool for such studies
because the measured spectral parameters are very sensitive to the changes in the vicinity of the
probe 57Fe-nuclei and thus, this technique provides a wide variety of information about structural
and magnetic behavior of Fe-containing materials.
These materials were frequently investigated because in nanocrystalline state they exhibit excellent soft magnetic properties [5].
Laughlin: Progress in Materials Science Vol. 44 (1999), p. 291
Laughlin: Progress in Materials Science Vol. 44 (1999), p. 291
Journal of Physics No. 7, Vol. 55 (2005), p. 791
These materials were frequently investigated because in nanocrystalline state they exhibit excellent soft magnetic properties [5].
Laughlin: Progress in Materials Science Vol. 44 (1999), p. 291
Laughlin: Progress in Materials Science Vol. 44 (1999), p. 291
Journal of Physics No. 7, Vol. 55 (2005), p. 791
Online since: September 2022
Authors: Radka Pernicová, Monika Utěšená, Karel Hurtig
Part 2: Study on architectural concretes, Construction and Building Materials 123, p. 248-253, (2016)
[3] V.
Computational Materials Science 32, 2005, p.407–417 [5] G.
Fagerlund: Mechanical damage and fatigue effects associated with freeze-thaw of materials.
Stevulova: Color pigments in concrete and their properties, in International Journal for Engineering and Information Sciences, Vol. 10, No. 3, pp. 143–151 (2015) [9] N.A Baykan, N.
Pernicova: Color intensity of architectural concrete depending on the type of cement, Materials Science Forum, vol. 986, p. 50-54, (2020)
Computational Materials Science 32, 2005, p.407–417 [5] G.
Fagerlund: Mechanical damage and fatigue effects associated with freeze-thaw of materials.
Stevulova: Color pigments in concrete and their properties, in International Journal for Engineering and Information Sciences, Vol. 10, No. 3, pp. 143–151 (2015) [9] N.A Baykan, N.
Pernicova: Color intensity of architectural concrete depending on the type of cement, Materials Science Forum, vol. 986, p. 50-54, (2020)
Online since: March 2024
Authors: Alena Sicakova, Marek Kovac
As concrete is a highly variable material, there are many possibilities to use less traditional raw materials even for PCC, but the key is to achieve the specific properties mentioned above.
In addition, it has excellent anti-slip properties and good adhesion with cementitious materials, so it is widely used in road construction.
- Alkali activated materials, geopolymers: They are among the most widely used alternative binders in research for the construction industry because they reduce CO2 emissions and consume waste materials (FA, GBFS).
Construction and Building Materials 189 (2018) 797–803
Jiang, Experimental study on properties of permeable concrete pavement materials, Cem.
In addition, it has excellent anti-slip properties and good adhesion with cementitious materials, so it is widely used in road construction.
- Alkali activated materials, geopolymers: They are among the most widely used alternative binders in research for the construction industry because they reduce CO2 emissions and consume waste materials (FA, GBFS).
Construction and Building Materials 189 (2018) 797–803
Jiang, Experimental study on properties of permeable concrete pavement materials, Cem.
Online since: October 2014
Authors: Te Li, Fei Wang, Seino Wakou, Toshihiro Kuzuya, Shinji Hirai
Guaranteed-grade reagents of silicate tetra-n-butoxide, lithium ethoxide, anhydrous ethanol, and diethylene glycol were used as starting materials.
Although the crystallization temperature depends on the composition of the sol, it was considered that the sol-gel synthesized powders composed of amorphous materials were crystallized by heating at a temperature of 823 K.
This material reacted with CO2 at ambient temperatures.
Hirai, Materials Transactions, 52, 2211~2215(2011) [5] K.
Hirai, The Scientific world journal, 2014, 1-7(2014)
Although the crystallization temperature depends on the composition of the sol, it was considered that the sol-gel synthesized powders composed of amorphous materials were crystallized by heating at a temperature of 823 K.
This material reacted with CO2 at ambient temperatures.
Hirai, Materials Transactions, 52, 2211~2215(2011) [5] K.
Hirai, The Scientific world journal, 2014, 1-7(2014)
Online since: July 2023
Authors: Isao Watanabe, Darminto Darminto, Dita Puspita Sari, Retno Asih, Malik Anjleh Baqiya
Bussy, Biocompatibility Considerations in the Design of Graphene Biomedical Materials, Adv.
Zhang, Design and Preparation of Biomass-Derived Carbon Materials for Supercapacitors: A Review, C 4 (2018) 53
Yazyev, Emergence of magnetism in graphene materials and nanostructures, Reports Prog.
Asih et al., Comparative study on magnetism of reduced graphene oxide (rGO) prepared from coconut shells and the commercial product, Materials Science Forum 966 (2019), 290–295
Watanabe et al., Muon site estimations by DFT calculations in metal and insulating systems, Material Science Forum 827 (2015) 347-354
Zhang, Design and Preparation of Biomass-Derived Carbon Materials for Supercapacitors: A Review, C 4 (2018) 53
Yazyev, Emergence of magnetism in graphene materials and nanostructures, Reports Prog.
Asih et al., Comparative study on magnetism of reduced graphene oxide (rGO) prepared from coconut shells and the commercial product, Materials Science Forum 966 (2019), 290–295
Watanabe et al., Muon site estimations by DFT calculations in metal and insulating systems, Material Science Forum 827 (2015) 347-354
Online since: April 2015
Authors: Jie Shan Hou, Jian Ting Guo, Yong An Guo, Chao Yuan, Gu Song Li, Lan Zhang Zhou
Materials and Experimental
The experimental alloys were produced in an industrial scale vacuum induction furnace.
[11] China Aeronautical Materials Handbook (second edition), standards press of China, Beijing, 2002
Evans, (Eds), creep and fracture of engineering materials and Structures, Proc.
Soc., 1985, 293, [28] L.Wang, G Xie, J Zhang, LH Lou, Materials science forum, 546-549 (2007)1235-1240 [29] L.R.
Mughrabi, in: H.E Exner, et al., (Eds), Advanced Materials and Processes, Oberuresl, Germany, 1990, 445
[11] China Aeronautical Materials Handbook (second edition), standards press of China, Beijing, 2002
Evans, (Eds), creep and fracture of engineering materials and Structures, Proc.
Soc., 1985, 293, [28] L.Wang, G Xie, J Zhang, LH Lou, Materials science forum, 546-549 (2007)1235-1240 [29] L.R.
Mughrabi, in: H.E Exner, et al., (Eds), Advanced Materials and Processes, Oberuresl, Germany, 1990, 445
Online since: September 2008
Authors: Takumi Nishimoto, Takeshi Izumi, Toshio Narita, Shigenari Hayashi, Stewart Ford, Takayuki Yoshioka
Hayashi: Materials at
High Temperatures, 18(S), (2001), p.245
Narita: Journal of High Temperature Materials (Kouon Gakkaishi), 28 (No.4) (2002), p.135
Tanaka: Report of the 123 rd Committee on Heat Resisting Materials and Alloys, Japan Society for Promotion of Science, 43 (Nos.3) (2002), p.383
Narita: Report of the 123 rd Committee on Heat Resisting Materials and Alloys, Japan Society for Promotion of Science, 46, Nos. 2 (2005), p.183
Narita: Report of the 123rd Committee on Heat Resisting Materials and Alloys, Japan Society for Promotion of Science, 47, Nos. 2 (2005), p.183
Narita: Journal of High Temperature Materials (Kouon Gakkaishi), 28 (No.4) (2002), p.135
Tanaka: Report of the 123 rd Committee on Heat Resisting Materials and Alloys, Japan Society for Promotion of Science, 43 (Nos.3) (2002), p.383
Narita: Report of the 123 rd Committee on Heat Resisting Materials and Alloys, Japan Society for Promotion of Science, 46, Nos. 2 (2005), p.183
Narita: Report of the 123rd Committee on Heat Resisting Materials and Alloys, Japan Society for Promotion of Science, 47, Nos. 2 (2005), p.183
Online since: March 2020
Authors: Enrique Hernández Sánchez, I.P. Torres Avila, A. Chino-Ulloa, C.O. Alvarez, M.A.L. Hernández-Rodríguez, R. Tadeo-Rosas, R. Carrera-Espinoza, J.A. Yescas-Hernández
That condition has limited the use of AISI 316L SS in those applications where the wear resistance is the main characteristic demanded to the materials. [10].
Materials and Methods. 2.1 Boriding process.
References [1] Shih-Hang Chang, Bor-Yann Chen, Yung-Chih Lin, Toxicity assessment of three-component Fe–Cr–Ni biomedical materials using an augmented simplex design, Materials Science and Engineering C 32 (2012) 1893–1896
William (Ed.), Biocompatibility of Clinical Implant Materials, I, CRC Press, Boca Raton, FL, 1981, pp. 45–48
Carrera-Espinoza, “Effect of Relative Humidity on the Tribological Properties of Self-Lubricating H3BO3 Films Formed on the Surface of Steel Suitable for Biomedical Applications”, Advances in Materials Science and Engineering Vol. 2015, (2015) pp. 1-9
Materials and Methods. 2.1 Boriding process.
References [1] Shih-Hang Chang, Bor-Yann Chen, Yung-Chih Lin, Toxicity assessment of three-component Fe–Cr–Ni biomedical materials using an augmented simplex design, Materials Science and Engineering C 32 (2012) 1893–1896
William (Ed.), Biocompatibility of Clinical Implant Materials, I, CRC Press, Boca Raton, FL, 1981, pp. 45–48
Carrera-Espinoza, “Effect of Relative Humidity on the Tribological Properties of Self-Lubricating H3BO3 Films Formed on the Surface of Steel Suitable for Biomedical Applications”, Advances in Materials Science and Engineering Vol. 2015, (2015) pp. 1-9
Online since: March 2014
Authors: Olivier M.D.M. Messé, Cathie M.F. Rae, Svjetlana Stekovic, Mark Hardy
Hardy2c, C.M.F Rae1d
1 Rolls-Royce UTC, Department of Materials Science & Metallurgy,
University of Cambridge, 27 Charles Babbage Road, Cambridge, CB3 0FS UK
2 Rolls-Royce plc., Derby DE24 8BJ, England
3 Currently - Linköping University, Campus Valla, 581 83 Linköping, Sweden
aomdmm2@cam.ac.uk, bsvjetlana.stekovic@liu.se, cmark.hardy@rolls-royce.com dcr18@cam.ac.uk
Keywords: Nickel-based superalloy, RR1000, TMF, EBSD, Slip traces analysis, Fatigue crack propagation.
An understanding of the basic physics of damage, coupled with the developing computing power exemplified by Integrated Computational Materials Engineering (ICME), offers the opportunity to understand, predict and design components to match complexity of real systems.
Acknowledgements The author would like to acknowledge the EPSRC, Grant number EP/H022309/1, EP/H500375/1 and Rolls-Royce plc. under the TSB project ’Siloet’ TP NUMBER: AB266C/4 for funding and the Prof Lindsay Greer of the Department of Materials Science and Metallurgy, University of Cambridge for provision of facilities.
Annual Review of Materials Science, 32:113–140, 2002
The Journal of The Minerals, Metals & Materials Society, 61(2):42–48, 2009
An understanding of the basic physics of damage, coupled with the developing computing power exemplified by Integrated Computational Materials Engineering (ICME), offers the opportunity to understand, predict and design components to match complexity of real systems.
Acknowledgements The author would like to acknowledge the EPSRC, Grant number EP/H022309/1, EP/H500375/1 and Rolls-Royce plc. under the TSB project ’Siloet’ TP NUMBER: AB266C/4 for funding and the Prof Lindsay Greer of the Department of Materials Science and Metallurgy, University of Cambridge for provision of facilities.
Annual Review of Materials Science, 32:113–140, 2002
The Journal of The Minerals, Metals & Materials Society, 61(2):42–48, 2009
Online since: December 2012
Authors: Ling Ren, De Hong Xia, Yu Hu
Structural Optimization Design for Metal Honeycomb Used in Continuous Waste Heat Recovery
Ling Ren1,2,a, Yu Hu1,b and Dehong Xia1,2,c
1School of Mechanical Engineering, University of Science and Technology Beijing, Beijing, PRC 100083
2Beijing Key Laboratory for Energy Saving and Emission Reduction of Metallurgical Industry, University of Science and Technology Beijing, Beijing, PRC 100083
arenl@me.ustb.edu.cn, bhuyu860503@sina.com, cxia@me.ustb.edu.cn
Keywords: Waste Heat Recovery, Heat Exchanger, Metal Honeycomb, Orthogonal Experiment.
By analyzing and summarizing the advantages and disadvantage of various surface extension techniques for heat transfer enhancement[3-6], the metal honeycomb is developed by our research group, as is depicted in Fig.1, which is a kind of porous metal material easy to adjust its specific surface area, excellent in heat conduction and flexible in geometrical transformation.
Therefore, the Nusselt number Nu and heat transfer per flow volume Q0, directly reflecting the heat transfer capability of the material, are taken as the investigation indices in the orthogonal experiments.
Li: Journal of Thermal Science Vol.13, No.4(2004), p.366
Bejan: Convection in Porous Media (Springer Science+Business Media Inc., New York 2006) [10] O.
By analyzing and summarizing the advantages and disadvantage of various surface extension techniques for heat transfer enhancement[3-6], the metal honeycomb is developed by our research group, as is depicted in Fig.1, which is a kind of porous metal material easy to adjust its specific surface area, excellent in heat conduction and flexible in geometrical transformation.
Therefore, the Nusselt number Nu and heat transfer per flow volume Q0, directly reflecting the heat transfer capability of the material, are taken as the investigation indices in the orthogonal experiments.
Li: Journal of Thermal Science Vol.13, No.4(2004), p.366
Bejan: Convection in Porous Media (Springer Science+Business Media Inc., New York 2006) [10] O.