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Online since: June 2017
Authors: Ling Yin, Juan Carlos Baena, Laura Elbourne-Binns, Zhong Xiao Peng
Experimental Procedure
Materials.
Kalin: Tribology of Ceramics and Composites: Materials Science Perspective (John Wiley & Sons 2011)
Journal of the Mechanical Behavior of Biomedical Materials Vol. 20(2013), p. 113–125
Advanced Engineering Materials Vol. 13(12)(2011), p.
Yin: Wear Behavior of Pressable Lithium Disilicate Glass Ceramic, Journal of Biomedical Materials Research Part B: Applied Biomaterials Vol. 104(5)(2016), p. 968–978
Kalin: Tribology of Ceramics and Composites: Materials Science Perspective (John Wiley & Sons 2011)
Journal of the Mechanical Behavior of Biomedical Materials Vol. 20(2013), p. 113–125
Advanced Engineering Materials Vol. 13(12)(2011), p.
Yin: Wear Behavior of Pressable Lithium Disilicate Glass Ceramic, Journal of Biomedical Materials Research Part B: Applied Biomaterials Vol. 104(5)(2016), p. 968–978
Online since: March 2019
Authors: Van Huy Ta, Van Dat Chu
This article presents the method determining the motion trajectory of the bucket on the side dump bucket loader MVC E500-1 during the materials digging through the combinative method.
Survey with some process of filling the material for the working equipment: the process of filling materials into the bucket can be carried out in different ways, separately or simultaneous movement.
Models and methods for determining the proper trajectory of side dumping bucket are well suitable for the calculation and design of work equipment, machine use training and especially for automation research of the process of loading materials in particular conditions.
References [1] Ahmad Hemami, Modelling, analysis and preliminary studies for automatic scooping/loading in a mechanical loader, International Journal of Surface Mining and Reclamation 6 (1992): pp. 151-159
[3] Dat Chu Van, Duong Le Van, Huy Ta Van, Research on determination of general resistance in the process of filling materials into bucket of Side dump bucket loader, Journal of Military Science and Technology, 4, 2016, pp. 166-172 (in Vietnamese version)
Survey with some process of filling the material for the working equipment: the process of filling materials into the bucket can be carried out in different ways, separately or simultaneous movement.
Models and methods for determining the proper trajectory of side dumping bucket are well suitable for the calculation and design of work equipment, machine use training and especially for automation research of the process of loading materials in particular conditions.
References [1] Ahmad Hemami, Modelling, analysis and preliminary studies for automatic scooping/loading in a mechanical loader, International Journal of Surface Mining and Reclamation 6 (1992): pp. 151-159
[3] Dat Chu Van, Duong Le Van, Huy Ta Van, Research on determination of general resistance in the process of filling materials into bucket of Side dump bucket loader, Journal of Military Science and Technology, 4, 2016, pp. 166-172 (in Vietnamese version)
Online since: November 2005
Authors: Qing Jie Zhang, Peng Cheng Zhai, Toshiyuki Hashida, Gang Chen
From Fig. 4, the shape of the curves for different materials and different load
levels are very similar.
Buck: Materials Science and Engineering Vol. 83 (1986), pp.29-38 [2] T.
Hamaguchi: Jounal of Nuclear Materials Vol. 150 (1987), pp. 194-202 [3] Y.H.
Takahashi: Journal of Nuclear Materials Vol. 150 (1987), pp. 42-52 [6] J.D.
Shoji: Journal of Materials Research Vol. 17 (2002), pp. 1945-1953 [9] F.
Buck: Materials Science and Engineering Vol. 83 (1986), pp.29-38 [2] T.
Hamaguchi: Jounal of Nuclear Materials Vol. 150 (1987), pp. 194-202 [3] Y.H.
Takahashi: Journal of Nuclear Materials Vol. 150 (1987), pp. 42-52 [6] J.D.
Shoji: Journal of Materials Research Vol. 17 (2002), pp. 1945-1953 [9] F.
Online since: February 2011
Authors: Xia Fu, Yang Chen, Gao Qi Yu, Chao Yu, Guang De Zhang, Hou Zhi Wang
The prepared materials’ crystal structure and morphology were characterized by TG-DTA, XRD, FT-IR and TEM.
Thus this technology effectively solved the problem of “agglomeration” which usually occurred in preparation process of ultrafine materials.
Although we synthesized materials with chemical stoichiometric amount of n (La3+): n (Co3+) = 1:1, when the temperature is higher than 900, during the process of thermal treating, some LaCoO3 will be decomposed into La2O3 and Co2O3.
This is inevitable in process of preparing these materials by Sol-Gel method.
Journal of Rare Earths, 2003, 21(4):424-426
Thus this technology effectively solved the problem of “agglomeration” which usually occurred in preparation process of ultrafine materials.
Although we synthesized materials with chemical stoichiometric amount of n (La3+): n (Co3+) = 1:1, when the temperature is higher than 900, during the process of thermal treating, some LaCoO3 will be decomposed into La2O3 and Co2O3.
This is inevitable in process of preparing these materials by Sol-Gel method.
Journal of Rare Earths, 2003, 21(4):424-426
Online since: April 2013
Authors: Qing Nan Shi, Xi Liang Chen
Research on sol-gel transition process of gelatin
Chen Xiliang1, a, Shi Qingnan1, b
1 School of Materials Science & Engineering, Kunming University of Science and Technology, Kunming 650093, China
acxl0522n@163.com, bshikust@public.km.yn.cn
Keywords: Functional material, Structure, Performance, Sol-gel transition, Gelatin
Abstract: As a kind of functional material, gelatin gel is widely used in controlled drug release, biological tissue engineering, photographic and food industries.
Physical gels are usually used as functional materials due to the sol-gel and gel-sol reversible transition property, while chemical gels are commonly used as structural materials due to their mechanical properties.
Journal of the American Chemical Society. 80(1958)4836-4845
Journal of the American Chemical Society. 82(1960)4518-4525
Trends in Food Science & Technology. 19(2008) 644-656
Physical gels are usually used as functional materials due to the sol-gel and gel-sol reversible transition property, while chemical gels are commonly used as structural materials due to their mechanical properties.
Journal of the American Chemical Society. 80(1958)4836-4845
Journal of the American Chemical Society. 82(1960)4518-4525
Trends in Food Science & Technology. 19(2008) 644-656
Online since: February 2019
Authors: Alla V. Cherevatova, Natalia Ivanovna Kozhukhova, I.V. Zhernovskaya, D.A. Ksenofontov, Maya Sergeevna Osadchaya
Introduction
Development of low-temperature technologies for synthesis zero-cement silicate and aluminosilicate binders is one of the promising research areas in the field of construction material science [1–5].
Materials and Methods Granite from Poltava deposite (Ukraine) was used as SiO2-bearing raw component.
Dahmen Using alkali-activated natural aluminosilicate minerals to produce compressed masonry construction materials, Construction and Building Materials. 95 (2015) 86-95 [2] E.F.
Osadchaya, Features of quality control of free of cement binder of non-hydration type, Applied Mechanics and Materials. 724 (2015) 39
Nelubova, Prospects of application of zero-cement binders of a hydration hardening type, World Applied Sciences Journal. 25, 1 (2013) 119–123
Materials and Methods Granite from Poltava deposite (Ukraine) was used as SiO2-bearing raw component.
Dahmen Using alkali-activated natural aluminosilicate minerals to produce compressed masonry construction materials, Construction and Building Materials. 95 (2015) 86-95 [2] E.F.
Osadchaya, Features of quality control of free of cement binder of non-hydration type, Applied Mechanics and Materials. 724 (2015) 39
Nelubova, Prospects of application of zero-cement binders of a hydration hardening type, World Applied Sciences Journal. 25, 1 (2013) 119–123
Online since: December 2011
Authors: A. Gherissi, Fethi Abbassi, Ali Zghal, Joel Alexis, Sébastien Mistou
Micro-scale modeling of carbon-fiber reinforced thermoplastic materials
F.
Gray; Multiscale Modeling and Simulation of Composite Materials andStructures: Chapter 5: A Micromechanics-Based Notion of Stress for Use in the Determination of Continuum-Level Mechanical Properties via Molecular Dynamics; Springer Science (2008) [2] P.
Boisse: Computational determination of in-plane shear mechanical behavior of textile composite reinforcements, Computational Materials Science 40 (2007) 439–448 [7] P.
Alzina: Multiscale modelling of thermal conductivity in composite materials for cryogenic structures, Composite Structures 74 (2006) 175–185 [12] Jayesh R.
Trias: Random models versus periodic models for fibre reinforced composites, Computational Materials Science 38 (2006) 316–324 [14] B.Van Den Broucke: Determination of the mechanical propreties of textile-reinforced composites taking into account textile forming parameters; Springer/ESAFORM (2010) [15] Moran Wang, Ning Pan: Elastic property of multiphase composites with random microstructures; Journal of Computational Physics 228 (2009) 5978–5988 [16] W.
Gray; Multiscale Modeling and Simulation of Composite Materials andStructures: Chapter 5: A Micromechanics-Based Notion of Stress for Use in the Determination of Continuum-Level Mechanical Properties via Molecular Dynamics; Springer Science (2008) [2] P.
Boisse: Computational determination of in-plane shear mechanical behavior of textile composite reinforcements, Computational Materials Science 40 (2007) 439–448 [7] P.
Alzina: Multiscale modelling of thermal conductivity in composite materials for cryogenic structures, Composite Structures 74 (2006) 175–185 [12] Jayesh R.
Trias: Random models versus periodic models for fibre reinforced composites, Computational Materials Science 38 (2006) 316–324 [14] B.Van Den Broucke: Determination of the mechanical propreties of textile-reinforced composites taking into account textile forming parameters; Springer/ESAFORM (2010) [15] Moran Wang, Ning Pan: Elastic property of multiphase composites with random microstructures; Journal of Computational Physics 228 (2009) 5978–5988 [16] W.
Online since: September 2011
Authors: Xue Dao Shu, Xin Hong Wei, Le Ping Chen
The material loss should be removed by cutting.
Acknowledgements The research work is sponsored by the National Natural Science Foundation of China (No. 51075216), the Outstanding Youth Fund Project of Zhejiang Province (No.
Shu: Applied Mechanics and Materials (China, 2010) pp.1482-1488
Shu: Journal of university of science and technology Beijing, vol.24 (2002) No.3, pp.309-312
Duan: Research on Rules of Material Loss on the Ends of Cross Wedge Rolling Workpiece (Ph.M., Beijing University of Science and Technology, China 2010), pp.14-16.
Acknowledgements The research work is sponsored by the National Natural Science Foundation of China (No. 51075216), the Outstanding Youth Fund Project of Zhejiang Province (No.
Shu: Applied Mechanics and Materials (China, 2010) pp.1482-1488
Shu: Journal of university of science and technology Beijing, vol.24 (2002) No.3, pp.309-312
Duan: Research on Rules of Material Loss on the Ends of Cross Wedge Rolling Workpiece (Ph.M., Beijing University of Science and Technology, China 2010), pp.14-16.
Online since: May 2013
Authors: Ying Liu, Min Dou, Yan Hua Ruan
Finally, we builds international student education quality guarantee system evaluation model based on rough sets and support vector machine, and verifies the science and feasibility of this model by instance.
D4 teaching level and curriculum setting, d41 teachers' academic level; d42 teachers' teaching level, d43 curriculum setting rationality. d44 extent of considering cross-cultural factors in teaching material; d45 extent of considering cross-cultural factors in teaching activities.
European Journal Engineering Education, v20, n4, p43-45, 1995
Science, v236, n4797, p33-37, Apr3, 1987
Journal of Applied Sciences, v 8, n 19, p 3513-17, 1 Oct. 2008.
D4 teaching level and curriculum setting, d41 teachers' academic level; d42 teachers' teaching level, d43 curriculum setting rationality. d44 extent of considering cross-cultural factors in teaching material; d45 extent of considering cross-cultural factors in teaching activities.
European Journal Engineering Education, v20, n4, p43-45, 1995
Science, v236, n4797, p33-37, Apr3, 1987
Journal of Applied Sciences, v 8, n 19, p 3513-17, 1 Oct. 2008.
Online since: August 2014
Authors: Sang Sang Yu, Wang Cheng, Ting Hao Tang, Hui Feng Zheng
The defective and non-defective carbon fiber composite materials were detected respectively.
Acknowledgements This work was financially supported by the Zhejiang Key Discipline of Instrument Science and technology and the Natural Science Foundation of Zhejiang Province (LQ12E05018).
Advanced composite materials and aerospace engineering [J].
Journal of Acoustical Society of America, 2006, 119(5): 3293
In Chinese, Journal of Scientific Instrument, 1999, 20(6): 572-574
Acknowledgements This work was financially supported by the Zhejiang Key Discipline of Instrument Science and technology and the Natural Science Foundation of Zhejiang Province (LQ12E05018).
Advanced composite materials and aerospace engineering [J].
Journal of Acoustical Society of America, 2006, 119(5): 3293
In Chinese, Journal of Scientific Instrument, 1999, 20(6): 572-574