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Online since: October 2017
Authors: Rodziah Nazlan, Idza Riati Ibrahim, Ismayadi Ismail, Ra'ba'ah Syahidah Azis, Farah Nabilah Shafiee, Azdiya Suhada Abdul Rahim
Gadolinium (III) oxide and iron (III) oxide, αFe2O3 were used as the starting materials.
Materials and Methods Preparation of sample.
Journal of Magnetism and Magnetic Materials, 321, 2883-2889 (2009) [8] Information on https://www.liverpool.ac.uk/~mimi/Chapter3.pdf [9] Chen, Y., Sakai, T., Chen, T., Yoon, S.
Journal of Materials Science: Materials in Electronics, 20(9), 784-834 (2009) [12] Roschmann, P. and Winkler, G.
Journal of Magnetism and Magnetic Materials, 4, 105-115 (1977)
Materials and Methods Preparation of sample.
Journal of Magnetism and Magnetic Materials, 321, 2883-2889 (2009) [8] Information on https://www.liverpool.ac.uk/~mimi/Chapter3.pdf [9] Chen, Y., Sakai, T., Chen, T., Yoon, S.
Journal of Materials Science: Materials in Electronics, 20(9), 784-834 (2009) [12] Roschmann, P. and Winkler, G.
Journal of Magnetism and Magnetic Materials, 4, 105-115 (1977)
Online since: July 2013
Authors: Jeng Jong Lin
Theoretical analysis of fabric behaviour often becomes very complex, and experimental verification of theoretical predictions is more critical than the other materials [1].
There are four possible models[11,12] for the continuous fiber bundle, i.e., the general fiber bundle, orthotropic material, square-symmetric material, and transversely isotropic material.
Acknowledgement We thank the National Science Council for the financial aid to this study.
Prediction of on-axes elastic properties of plain weave fabric composites, Composite Science and Technology; Vol.45 (1992), p.135-152
The Geometry of Cloth Structure, Journal of Textile Institute 1937, 28, T45-96
There are four possible models[11,12] for the continuous fiber bundle, i.e., the general fiber bundle, orthotropic material, square-symmetric material, and transversely isotropic material.
Acknowledgement We thank the National Science Council for the financial aid to this study.
Prediction of on-axes elastic properties of plain weave fabric composites, Composite Science and Technology; Vol.45 (1992), p.135-152
The Geometry of Cloth Structure, Journal of Textile Institute 1937, 28, T45-96
Online since: October 2014
Authors: Andrzej Baier, Michał Majzner
Introduction
The use of composite materials for the modification of existing structural elements increases significantly in recent years.
The knowledge about the materials research are aimed to determine the ability to create a variety of material structures with the use of different composition components of composite material.
Herbus, et al., Mechatronic Systems and Materials IV, Solid State Phenomena, Volume 198, Trans Tech Publications, 2013, pp. 59-64
Journal of Achievements in Materials and Manufacturing Engineering, 45/1 (2011) 30-38
Journal of Achievements in Materials and Manufacturing Engineering, vol. 43/2 (2010) 577-585
The knowledge about the materials research are aimed to determine the ability to create a variety of material structures with the use of different composition components of composite material.
Herbus, et al., Mechatronic Systems and Materials IV, Solid State Phenomena, Volume 198, Trans Tech Publications, 2013, pp. 59-64
Journal of Achievements in Materials and Manufacturing Engineering, 45/1 (2011) 30-38
Journal of Achievements in Materials and Manufacturing Engineering, vol. 43/2 (2010) 577-585
Online since: August 2018
Authors: Victor Geantă, Ionelia Voiculescu, Maria-Diana Vrânceanu, Robert Ciocoiu, Cosmin Mihai Cotruț, Bogdan Istrate
Introduction
High entropy alloys (HEA) are a new class of metallic materials which are based on a novel and innovative approach to materials production.
[2] Li, B.S., Wang, Y.P., Ren, M.X., Yang, C, Fu, H.Z., Materials Science and Engineering A 498 (2008) p.482–486
Wang, Y, Zhang, Materials Science and Engineering A 498, (2008), p.214-216
Fu, Materials Science and Engineering A 491 (2008), p. 154-158
Wang, Materials Science and Engineering A 508 (2009), p.214 – 219
[2] Li, B.S., Wang, Y.P., Ren, M.X., Yang, C, Fu, H.Z., Materials Science and Engineering A 498 (2008) p.482–486
Wang, Y, Zhang, Materials Science and Engineering A 498, (2008), p.214-216
Fu, Materials Science and Engineering A 491 (2008), p. 154-158
Wang, Materials Science and Engineering A 508 (2009), p.214 – 219
Online since: July 2012
Authors: Qing Qiang He, Bao Min Yuan, Li Jian Xu, Jun You Zhao, Jia Sun
Journal of Materials Processing Technology, 1996, 56:897-907
Journal of Materials Processing Technology, 1996, 56:908-917
Journal of Materials Processing Technology, 1996, 60:27-33
Journal of Materials Processing Technology, 2005, 167:354-362
Shape rolling of steel rods Computational Materials Science, 2005, 34:377-388
Journal of Materials Processing Technology, 1996, 56:908-917
Journal of Materials Processing Technology, 1996, 60:27-33
Journal of Materials Processing Technology, 2005, 167:354-362
Shape rolling of steel rods Computational Materials Science, 2005, 34:377-388
Online since: May 2021
Authors: Faizul Che Pa, Abdullah Chik, Yeoh Cheow Keat, Akeem Adekunle Adewale, Ruhiyuddin Mohd Zaki
The search for clean energy conversion technologies promotes the study of thermoelectric materials.
Developing a good TE materials require that these materials have high Seebeck coefficient, and lower electrical resistivity as well as lower total thermal conductivity.
Thus, oxides become promising since these materials are less toxic for TE devices.
Arif, Effect of al doping concentration to the physical and thermoelectric properties of zinc oxide, Australian Journal of Basic and Applied Sciences 7(5) (2013) 21-25
Persson, The Materials Project: A materials genome approach to accelerating materials innovation, APL Materials 1(1) (2013) 011002
Developing a good TE materials require that these materials have high Seebeck coefficient, and lower electrical resistivity as well as lower total thermal conductivity.
Thus, oxides become promising since these materials are less toxic for TE devices.
Arif, Effect of al doping concentration to the physical and thermoelectric properties of zinc oxide, Australian Journal of Basic and Applied Sciences 7(5) (2013) 21-25
Persson, The Materials Project: A materials genome approach to accelerating materials innovation, APL Materials 1(1) (2013) 011002
Online since: January 2020
Authors: Saeid Mohsenizadeh, Amran Alias, Zaini Ahmad
Ghani: International Journal of Mechanical Sciences 25(9-10) (1983) 687-696
Alias: International Journal of Materials Research 107(10) (2016) 916-924
Prawoto: Computational Materials Science 58 (2012) 140-153
Ahmad:Materials & Design 88 (2015) 258-268
Rad:Journal of Fundamental and Applied Sciences 10(3S) (2018) 446-456
Alias: International Journal of Materials Research 107(10) (2016) 916-924
Prawoto: Computational Materials Science 58 (2012) 140-153
Ahmad:Materials & Design 88 (2015) 258-268
Rad:Journal of Fundamental and Applied Sciences 10(3S) (2018) 446-456
Online since: June 2013
Authors: Andreas Schnabel, Lars Appel, Thomas Gries, Helga Krieger
Fig. 1: Testing methods for material characterisation
Validation of textile material models
Before running the draping simulation for the component geometry, the material model has to be validated.
SAMPE Journal 46 (2010), V. 5, pp. 42-51 [2] Schnabel, A.; Sköck-Hartmann.
Gries, T.: Characterization of the drapability on non-crimp fabrics, Society for the Advancement of Material and Process Engineering: New Materials and Processes for a New Economy, SAMPE 2010, Seattle, WA. - Covina, CA, 17. - 20.05.2010, 55th International SAMPE Symposium Seattle: SAMPE Publishing, 2010 [3] DIN 53362, Bestimmung der Biegesteifigkeit, Verfahren nach Cantilever, 2003 [4] J.
Composites Part A: Applied Science and Manufacturing, Vol. 39 (2008), Issue 6, pp. 1037-1053 [5] C.
Galanulis: Optical measuring technologies in sheet metal processing”, Proceedings of SheMet (05./08.04.2005), Advanced Materials Research Vols. 6-8 (May 2005) pp. 19-34, Trans-TechPublications [10] Schnabel, A.; Gries, T.: Production of non-crimp fabrics for composites, In: Lomov, S.
SAMPE Journal 46 (2010), V. 5, pp. 42-51 [2] Schnabel, A.; Sköck-Hartmann.
Gries, T.: Characterization of the drapability on non-crimp fabrics, Society for the Advancement of Material and Process Engineering: New Materials and Processes for a New Economy, SAMPE 2010, Seattle, WA. - Covina, CA, 17. - 20.05.2010, 55th International SAMPE Symposium Seattle: SAMPE Publishing, 2010 [3] DIN 53362, Bestimmung der Biegesteifigkeit, Verfahren nach Cantilever, 2003 [4] J.
Composites Part A: Applied Science and Manufacturing, Vol. 39 (2008), Issue 6, pp. 1037-1053 [5] C.
Galanulis: Optical measuring technologies in sheet metal processing”, Proceedings of SheMet (05./08.04.2005), Advanced Materials Research Vols. 6-8 (May 2005) pp. 19-34, Trans-TechPublications [10] Schnabel, A.; Gries, T.: Production of non-crimp fabrics for composites, In: Lomov, S.
Online since: January 2016
Authors: Jun Shinozuka, Habibah binti Jaharadak
Knowing temperatures at the tool-chip interface is extremely important to optimize the machining condition and to improve the machining performance, furthermore to design high performance materials.
Some additives are contained in novel materials to control the tool wear rate and improve the cutting performance.
Therefore, the indexable insert developed can be utilized for optimizing the cutting condition, improving the cutting performance and designing materials with high-machinability.
Herper, Dirk Biermann, Klaus Pantke, Development of temperature sensor thin films to monitor turning processes, Journal of Materials Processing Technology, Vol. 210 (2010) pp.819–823
[6] Jun Shinozuka, Fabrication of multiple micro-grooves by ultrasonic machining with a tool that laminated thin hard-material and thin soft-material, Advanced Materials Research, 76-78 (2009) pp.577-582
Some additives are contained in novel materials to control the tool wear rate and improve the cutting performance.
Therefore, the indexable insert developed can be utilized for optimizing the cutting condition, improving the cutting performance and designing materials with high-machinability.
Herper, Dirk Biermann, Klaus Pantke, Development of temperature sensor thin films to monitor turning processes, Journal of Materials Processing Technology, Vol. 210 (2010) pp.819–823
[6] Jun Shinozuka, Fabrication of multiple micro-grooves by ultrasonic machining with a tool that laminated thin hard-material and thin soft-material, Advanced Materials Research, 76-78 (2009) pp.577-582
Online since: May 2020
Authors: Deka Setyawan, Dimaz Aji Laksono, Nafi' Arrizqi, Dita Baeti Pridiana, Muthia Nur Fajrina, Abel Kristanto Widodo
In its manufacture, this cellulose will be converted into a nanocomposite solution where there are several combinations of materials with a size of 100 nanometers [8].
Gooding, "Papermaking," Encyclopedia of Materials: Science and Technology, p. 6739–6747, 2001
Adak, "Advances in Nanotechnology Based Functional, Smart and Intelligent Textiles: A Review," Reference Module in Materials Science and Materials Engineering, 2018
N. de Assunção, "Water flux through cellulose triacetate films produced from heterogeneous acetylation of sugar cane bagasse," Journal of Membrane Science, vol. 177, no. 1-2, pp. 225-231, 2000
Munde, "Fabrication Of Nanomaterials By Top-Down And Bottom-Up Approaches – An Overview," JAAST:Material Science, vol. 1, no. 2, pp. 89-93, 2014
Gooding, "Papermaking," Encyclopedia of Materials: Science and Technology, p. 6739–6747, 2001
Adak, "Advances in Nanotechnology Based Functional, Smart and Intelligent Textiles: A Review," Reference Module in Materials Science and Materials Engineering, 2018
N. de Assunção, "Water flux through cellulose triacetate films produced from heterogeneous acetylation of sugar cane bagasse," Journal of Membrane Science, vol. 177, no. 1-2, pp. 225-231, 2000
Munde, "Fabrication Of Nanomaterials By Top-Down And Bottom-Up Approaches – An Overview," JAAST:Material Science, vol. 1, no. 2, pp. 89-93, 2014