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Online since: May 2021
Authors: Desmond E. Ighravwe, Daniel O. Aikhuele, Ojo Sunday Issac Fayomi, Godwin Akande
Journal of Engineering and Applied Sciences, 13(14), 5789-5795
International journal of Science and Research, 5(4), 671-677
Materials discovery, 9, 30-41
Innovations in Corrosion and Materials Science (Formerly Recent Patents on Corrosion Science), 5 (1), 31-35
American Journal of Chemistry and Materials Science, 1(1), 1-6
International journal of Science and Research, 5(4), 671-677
Materials discovery, 9, 30-41
Innovations in Corrosion and Materials Science (Formerly Recent Patents on Corrosion Science), 5 (1), 31-35
American Journal of Chemistry and Materials Science, 1(1), 1-6
Online since: December 2010
Authors: Yu Kui Wang, Jing Zhi Cui, Zhen Long Wang, B.C. Xie
Acknowledgement
This research work is funded by Natural Science Foundation in China (No.50835002), Natural
Science Foundation of Heilongjiang Province in China (No.E200901), and the Special Fund for
Technological Innovation of Harbin (No. 2010RFQXG016)
Reference
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Kremer: Journal of Materials processing Technology (1998), P90-9.
Bozkurt: Journal of Applied Physics 73 (11) (1993) 7900-7909
Ghoshdastidar: IE (I) Journal-PR 77 (1996) 13-19
Dixit: International Journal of Machine Tools and Manufacturing 42 (2002) 877-888
Kremer: Journal of Materials processing Technology (1998), P90-9.
Online since: January 2012
Authors: Dong Zhang, Wei Song, Zhi Sun, Bai Han, Qing Quan Lei
And the nano Fe3O4/LDPE composite materials with different mass percentage concentration of 0.25 to 1 percent were prepared by melt blending.
Introduction Compared to common polymers at the macro level, Inorganic nano composite polymer materials shows unexpected characteristics such as light, electricity,magnetism and thermal aspects and demonstrates broad application prospect.It has become a concerning research direction in material science [1, 2].At present, many scholars mainly make the cross-linked polyethylene and low-density polyethylene as the basic materials and make various preliminary dielectric property study based on several concentrations of different inorganic nano-composite materials.
[2] Wenjun Zou, Jin Peng, Yun Yang: Materials LettersVol.61(2007), p. 725-729
[6] Xia Cheng, Shaoqing Chen, Xia Wang: Insulating Materials Vol.41(2008):44-48,in Chinese
[10] Liqiu Chu, Yu Chen, Wenjuan Su: Polymer Materials Science and EngineeringVol.27(2011), p.39-42,in Chinese
Introduction Compared to common polymers at the macro level, Inorganic nano composite polymer materials shows unexpected characteristics such as light, electricity,magnetism and thermal aspects and demonstrates broad application prospect.It has become a concerning research direction in material science [1, 2].At present, many scholars mainly make the cross-linked polyethylene and low-density polyethylene as the basic materials and make various preliminary dielectric property study based on several concentrations of different inorganic nano-composite materials.
[2] Wenjun Zou, Jin Peng, Yun Yang: Materials LettersVol.61(2007), p. 725-729
[6] Xia Cheng, Shaoqing Chen, Xia Wang: Insulating Materials Vol.41(2008):44-48,in Chinese
[10] Liqiu Chu, Yu Chen, Wenjuan Su: Polymer Materials Science and EngineeringVol.27(2011), p.39-42,in Chinese
Online since: September 2013
Authors: Yong Qing Liu
The tiffany in the previous Qing Dynasty was widely used not only to produce suits, sheets and hats but also to be materials for painting and writing.
There are three materials, among the unearthed the Chu embroidery, that used to be backing materials besides tiffany.
According to historical records and archaeological discovery, the Chu people uses respectively stone dyed tech and grass dyed tech to dye different silk materials.
Embroidery work needs to be painted with the design on the backing materials before stitching.
The lockstitch among the stitch technologies takes multi-row stitches to cover the backing materials completely so that the block surface can reach more than 20 rows.
There are three materials, among the unearthed the Chu embroidery, that used to be backing materials besides tiffany.
According to historical records and archaeological discovery, the Chu people uses respectively stone dyed tech and grass dyed tech to dye different silk materials.
Embroidery work needs to be painted with the design on the backing materials before stitching.
The lockstitch among the stitch technologies takes multi-row stitches to cover the backing materials completely so that the block surface can reach more than 20 rows.
Online since: August 2013
Authors: Li Jun Zhu, Rui Jian Sun, Meng Yao Li, Jin Chi Zhang
Which makes it currently one of the hottest topics to improve the corresponding properties of polymers through the modification of inexpensive organic and inorganic materials[1-3].
References [1] Jingjing Li, Ganshuan Bai: Science of Soil and Water Conservation (in Chinese), Vol.10 (2012), p. 114-120 [2] Chunlin Gou, Xinai Wang, Yongsheng Li: Scientia Agricultura Sinica (in Chinese), Vol.19 (2011), p. 4015-4021 [3] Junping Zhang: Carbohydrate polymers, Vol.68 (2007), p. 367-374 [4] Liying Zhang, Chaodong Liao, Zhanhe Yin: Applied Chemical Industry (in Chinese), Vol.38, No.2(2009), p. 282-285 [5] Gui Peng, Shimei Xu, Yang Peng: Bioresource Technology, Vol.99 (2008), p. 444-447 [6] Jianxin Yue, Guohua Wen, Lili Wang, Guoqiang Sun: Chinese Journal of Colloid & polymer, Vol.22 (2004), p. 17-19 [7] Lan Wu, Mingzhu Liu: Polymer Materials and Engineering (in Chinese), Vol.22 (2004), p. 250-253 [8] Junjie Nie, Lijin Wang, Huan Zhou: Rock and Mineral Analysis (in Chinese), Vol.28 (2009), p. 69-71 [9] Pourjavadi A, Ayyari M, Amini-Fazl M S: European Polymer Journal, Vol.44 (2008), p. 1209-1216 [10] Yuhua Yang, Hongjian Ji, Zhenyuan Pan: Applied Chemistry (in Chinese
), Vol.10 (1993), p. 112-113 [11] Fushun Zhang, Chengda Gao, Wei Zhang: Polymer Material Science and Engineering (in Chinese), Vol.20 (2004), p. 179-183 [12] AT. & T.
Patent 5,163,115. (1992) [13] Xiaohong Liu, Xinzhu Xiang: Journal of Wuhan Textile University (in Chinese).
Vol.12 (1999), p. 17-20 [14] Fei Chen, Hongke Tang: Journal of Anhui Agri.
References [1] Jingjing Li, Ganshuan Bai: Science of Soil and Water Conservation (in Chinese), Vol.10 (2012), p. 114-120 [2] Chunlin Gou, Xinai Wang, Yongsheng Li: Scientia Agricultura Sinica (in Chinese), Vol.19 (2011), p. 4015-4021 [3] Junping Zhang: Carbohydrate polymers, Vol.68 (2007), p. 367-374 [4] Liying Zhang, Chaodong Liao, Zhanhe Yin: Applied Chemical Industry (in Chinese), Vol.38, No.2(2009), p. 282-285 [5] Gui Peng, Shimei Xu, Yang Peng: Bioresource Technology, Vol.99 (2008), p. 444-447 [6] Jianxin Yue, Guohua Wen, Lili Wang, Guoqiang Sun: Chinese Journal of Colloid & polymer, Vol.22 (2004), p. 17-19 [7] Lan Wu, Mingzhu Liu: Polymer Materials and Engineering (in Chinese), Vol.22 (2004), p. 250-253 [8] Junjie Nie, Lijin Wang, Huan Zhou: Rock and Mineral Analysis (in Chinese), Vol.28 (2009), p. 69-71 [9] Pourjavadi A, Ayyari M, Amini-Fazl M S: European Polymer Journal, Vol.44 (2008), p. 1209-1216 [10] Yuhua Yang, Hongjian Ji, Zhenyuan Pan: Applied Chemistry (in Chinese
), Vol.10 (1993), p. 112-113 [11] Fushun Zhang, Chengda Gao, Wei Zhang: Polymer Material Science and Engineering (in Chinese), Vol.20 (2004), p. 179-183 [12] AT. & T.
Patent 5,163,115. (1992) [13] Xiaohong Liu, Xinzhu Xiang: Journal of Wuhan Textile University (in Chinese).
Vol.12 (1999), p. 17-20 [14] Fei Chen, Hongke Tang: Journal of Anhui Agri.
Online since: December 2010
Authors: Wen Yu Ji, Ming Zhe An, Zhi Gang Yan
Material Performance of RPC T-beam
Material of RPC.
Materials and Structures, Vol. 29 (1996), p 233-240
PCI Journal, Vol. 44 (1999), p 60-71
Journal of the China Railway Society, Vol. 26 ( 2004), p 116-119. ( in Chinese) [7] YAN Zhigang, YAN Guiping, FANG Youliang. in: Progress in Safety Science and Technology Vol. 4, edited by Feng Changgen, Science Press, Shanghai, China (2004)
China Civil Engineering Journal, Vol. 42 (2009), p 126-132.
Materials and Structures, Vol. 29 (1996), p 233-240
PCI Journal, Vol. 44 (1999), p 60-71
Journal of the China Railway Society, Vol. 26 ( 2004), p 116-119. ( in Chinese) [7] YAN Zhigang, YAN Guiping, FANG Youliang. in: Progress in Safety Science and Technology Vol. 4, edited by Feng Changgen, Science Press, Shanghai, China (2004)
China Civil Engineering Journal, Vol. 42 (2009), p 126-132.
Online since: March 2008
Authors: C.N. Weng, K.T. Wang, T. Chen
General anisotropic materials can be described by constitutive law.
So materials with negative linear compressibility also have been referred to as stretch-densified materials.
Anisotropic materials with one plane of symmetry is called monoclinic materials.
Dantas: Science.
Cui: Science.
So materials with negative linear compressibility also have been referred to as stretch-densified materials.
Anisotropic materials with one plane of symmetry is called monoclinic materials.
Dantas: Science.
Cui: Science.
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: July 2021
Authors: Ilya V. Gorshkov, M.A. Popov, Aleksei D. Khalimonenko, E.G. Zlotnikov
Materials and Methods
Modern VOK-60, VOK-71 and VOK-200 oxide ceramics have approximately the same composition (Fig. 1) and contain about 75% aluminum oxide (Al2O3), which is the main phase.
Sivenkov et al., Creating a model of diffusion deposition of metal coatings from melts of low-melting metals, IOP Conference Series: Materials Science and Engineering 560(1) (2019) 012188
Pryakhin, Detection of intermediate phases in metal alloys, Key Engineering Materials 854 (2020) 23-29
Vasilkov, Determination of technological residual stresses in the surface layer of parts with thin-walled elements during turning, IOP Conference Series: Materials Science and Engineering 666(1) (2019) 012024
Muratbakeev, Computer simulation of machining, Key Engineering Materials 743 (2017) 248-251
Sivenkov et al., Creating a model of diffusion deposition of metal coatings from melts of low-melting metals, IOP Conference Series: Materials Science and Engineering 560(1) (2019) 012188
Pryakhin, Detection of intermediate phases in metal alloys, Key Engineering Materials 854 (2020) 23-29
Vasilkov, Determination of technological residual stresses in the surface layer of parts with thin-walled elements during turning, IOP Conference Series: Materials Science and Engineering 666(1) (2019) 012024
Muratbakeev, Computer simulation of machining, Key Engineering Materials 743 (2017) 248-251
Online since: July 2020
Authors: Fatin M. Hamam, Muna Y. Slewa, Ban Adbul Maseeh Bader
T.Salim, Rapid thermal oxidation for silicon nanocrystal based solar cell, International Journal of Nanoelectronics and Materials 5(2) (2012) 95-100
[3] J.
Saimon, Niobium Pentoxide Thin Film Prepared using Simple Colloidal Suspension for Optoelectronic Application, International Journal of Nanoelectronics and Materials. 11(2) (2018) 127‐134
Kadhim, Reduction the Corrosion Rate of 304 Stainless Steel using Pulsed Laser Shock Penning Method, IOP Conference Series: Materials Science and Engineering 454(1) (2018) 012162
Ahmed1, Responsivity and Response Time of Nano Silver Oxide on Silicon Heterojunction Detector, International Journal of Nanoelectronics and Materials 11 (2018) 109-114
Dias, Compressive strength of esthetic restorative materials polymerized with quartz-tungsten-halogen light and blue LED, Brazilian dental journal 20(1) (2009) 54-7.
Saimon, Niobium Pentoxide Thin Film Prepared using Simple Colloidal Suspension for Optoelectronic Application, International Journal of Nanoelectronics and Materials. 11(2) (2018) 127‐134
Kadhim, Reduction the Corrosion Rate of 304 Stainless Steel using Pulsed Laser Shock Penning Method, IOP Conference Series: Materials Science and Engineering 454(1) (2018) 012162
Ahmed1, Responsivity and Response Time of Nano Silver Oxide on Silicon Heterojunction Detector, International Journal of Nanoelectronics and Materials 11 (2018) 109-114
Dias, Compressive strength of esthetic restorative materials polymerized with quartz-tungsten-halogen light and blue LED, Brazilian dental journal 20(1) (2009) 54-7.