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Online since: April 2018
Authors: Valery Lesovik, Aleksey Cherneev, Roman Fediuk, Denis Kuzmin, Vitaliy Batarshin, Ilia Garmashov, Ruslan A. Ibragimov
Series: Materials Science and Engineering, 125 (2016) 012019 doi:10.1088/1757-899X/125/1/012019
Series: Materials Science and Engineering, 116 (2016) 012020 doi:10.1088/1757-899X/116/1/012020
Series: Materials Science and Engineering, 116 (2016) 012021 doi:10.1088/1757-899X/116/1/012021
Series: Materials Science and Engineering, 93 (2015) 012070 doi:10.1088/1757-899X/93/1/012070
IOP Conference Series: Materials Science and Engineering. 221(1) (2017) 012011
Series: Materials Science and Engineering, 116 (2016) 012020 doi:10.1088/1757-899X/116/1/012020
Series: Materials Science and Engineering, 116 (2016) 012021 doi:10.1088/1757-899X/116/1/012021
Series: Materials Science and Engineering, 93 (2015) 012070 doi:10.1088/1757-899X/93/1/012070
IOP Conference Series: Materials Science and Engineering. 221(1) (2017) 012011
Online since: July 2005
Authors: Li Tao Wang, Q.C. Wang
* The research supported by State Natural Science Study plan of Anhui education government.
The study is funded by state natural science foundation of china.
Simulating the material removal.
Journal of Materials Processing Technology Vol.62(1996), p448~p 453 [2] ALBERT J.SHIH.
International Journal of Machine Tools & Manufacture Vol. 41(2001),p1659~p1680 [4] ALBERT J.SHIH and HENRY T.Y.YANG..
The study is funded by state natural science foundation of china.
Simulating the material removal.
Journal of Materials Processing Technology Vol.62(1996), p448~p 453 [2] ALBERT J.SHIH.
International Journal of Machine Tools & Manufacture Vol. 41(2001),p1659~p1680 [4] ALBERT J.SHIH and HENRY T.Y.YANG..
Online since: August 2013
Authors: San Min Wang, Su Chen, Ru Yuan
Definition of the pole for the flexible body, the rod materials were selected to the following three material:
(1) 45 steel, elastic modulus 210 GPa, density 7800 kg/m3;
(2)Aluminum, elastic modulus 70 GPa, density 2700 kg/m3;
(3)Carbon fiber composite materials, elastic modulus 588 GPa, density1940 kg/m3;
Eq. 1 and Eq. 6 are non-linear second-order differential equations.
Conclusion The model of different materials and elastic deformation are different, the smaller the density of the material, the shorter institutions fully extended the time required will be; the greater the elastic modulus of the material, the smaller the elastic deformation will be; and flexible model will commence significantly beating when the expansion completes, and smaller the elastic modulus is, the greater the beat will be.
Fluctuation range of flexible models of different materials, and the greater the density, the smaller the fluctuation range; the greater the elastic modulus, the smaller the fluctuation range will be.
Acknowledgments This research is supported by the National Natural Science Foundation of China (Grant No. 51175422 ).
Mechanical Science and Technology, Vol.07 (2004) [7].
Conclusion The model of different materials and elastic deformation are different, the smaller the density of the material, the shorter institutions fully extended the time required will be; the greater the elastic modulus of the material, the smaller the elastic deformation will be; and flexible model will commence significantly beating when the expansion completes, and smaller the elastic modulus is, the greater the beat will be.
Fluctuation range of flexible models of different materials, and the greater the density, the smaller the fluctuation range; the greater the elastic modulus, the smaller the fluctuation range will be.
Acknowledgments This research is supported by the National Natural Science Foundation of China (Grant No. 51175422 ).
Mechanical Science and Technology, Vol.07 (2004) [7].
Online since: September 2011
Authors: Jie Wei Lin, Shuo Yang, Feng Lv, Jun Hong Zhang
Internal Journal of Fatigue. 1999; 21:699-708
Journal of applied mechanics. 1945; 67:A159-A64
International Journal of Fatigue. 1998; 20(1):9–34
Fatigue & fracture of engineering materials & structures. 1988; 11:1-17
International Journal of Fatigue. 1999; 21: 187–94
Journal of applied mechanics. 1945; 67:A159-A64
International Journal of Fatigue. 1998; 20(1):9–34
Fatigue & fracture of engineering materials & structures. 1988; 11:1-17
International Journal of Fatigue. 1999; 21: 187–94
Online since: August 2014
Authors: Xie Bin Zhu, Jing Chen, Zhong Jia Huang
Science Technology and Engineering, 2009, 9 (21): 6421-6424
Research on the dispersion uniformity and stability of nano-ATO [J].Journal of functional materials,2013,44(11):1603-1606
Synthesis and Characterization of ATO Nanoparticles by Coprecipitation Reaction [J].Journal of Materials science & engineering, 2009, 27(2):225-228
Effects of Sb content on the structure and electric property of ATO nanoparticles [J] Journal of functional materials, 2011, 42(11):1993-1996
New Chemical Materials, 2012, 38(2):15-17
Research on the dispersion uniformity and stability of nano-ATO [J].Journal of functional materials,2013,44(11):1603-1606
Synthesis and Characterization of ATO Nanoparticles by Coprecipitation Reaction [J].Journal of Materials science & engineering, 2009, 27(2):225-228
Effects of Sb content on the structure and electric property of ATO nanoparticles [J] Journal of functional materials, 2011, 42(11):1993-1996
New Chemical Materials, 2012, 38(2):15-17
Online since: March 2012
Authors: Kazem Reza-Kashyzadeh, Shokoofeh Dolati
In order to replace these materials and new applications, many research programs to study the mechanical behavior of these materials has shifted.
In adequate method of predicting the mechanical behavior and fatigue life of composite materials has caused that designer exhibited the relatively high safety factor for fatigue design of composite materials, hence Most of the structures made of composite materials with higher capacity needs to be designed.
Composite materials are non-homogeneous and anisotropic and their behavior compared to homogeneous materials like metals and isotropic is much more complex.
References [1] Development of micro-mechanical model to approach the fatigue life of composite materials, Aerospace Engineering master's thesis, Islamic Azad University, Science and Research [2] Zabihpoor M., Adibnazari S., Simulation of fiber/matrix deboning in unidirectional composites under fatigue loading, Journal of Reinforced plastics & Composites, 26(8), 743-760(2007) [3] Failure of layered composite materials under flexural fatigue loading, Aerospace Engineering doctoral thesis, Sharif University of Technology [4] Amiri.
K, “Experimental and Finite element Analysis Approach for fatigue of unidirectional fibrous composites”, Journal of Applied Mechanics and Materials, Vol 87, P136, Applied Mechanics and Manufacturing Technology, 2011-09-11 [5] Amiri.
In adequate method of predicting the mechanical behavior and fatigue life of composite materials has caused that designer exhibited the relatively high safety factor for fatigue design of composite materials, hence Most of the structures made of composite materials with higher capacity needs to be designed.
Composite materials are non-homogeneous and anisotropic and their behavior compared to homogeneous materials like metals and isotropic is much more complex.
References [1] Development of micro-mechanical model to approach the fatigue life of composite materials, Aerospace Engineering master's thesis, Islamic Azad University, Science and Research [2] Zabihpoor M., Adibnazari S., Simulation of fiber/matrix deboning in unidirectional composites under fatigue loading, Journal of Reinforced plastics & Composites, 26(8), 743-760(2007) [3] Failure of layered composite materials under flexural fatigue loading, Aerospace Engineering doctoral thesis, Sharif University of Technology [4] Amiri.
K, “Experimental and Finite element Analysis Approach for fatigue of unidirectional fibrous composites”, Journal of Applied Mechanics and Materials, Vol 87, P136, Applied Mechanics and Manufacturing Technology, 2011-09-11 [5] Amiri.
Online since: September 2013
Authors: Rou Xi Chen, Yu Chai Sun, Jing Yu Xu, Xiao Xiao Li
In recent years various fields such as energy, materials, aerospace, textiles, electricity, medical equipment, construction and so on are studied by some scholars.
Intelligent thermoregulation textile applies phase change materials on textiles.
Materials include in the PCM clothing are T-shirt layer, heat preservation layer, PCM layer and outer.
Wang: Journal of Textile Science and Technology Progress (2011), p. 10-12 [5] Y.K.
Ji: Journal of Guangxi Textile Science and Technology Vol. 39 (2010), p. 48-50 [7] D.S.
Intelligent thermoregulation textile applies phase change materials on textiles.
Materials include in the PCM clothing are T-shirt layer, heat preservation layer, PCM layer and outer.
Wang: Journal of Textile Science and Technology Progress (2011), p. 10-12 [5] Y.K.
Ji: Journal of Guangxi Textile Science and Technology Vol. 39 (2010), p. 48-50 [7] D.S.
Online since: June 2021
Authors: Eduard Laurentiu Nitu, Daniela Monica Iordache, Mihai Octavian Crăcănel
/materials.
Kim, Three defect types in friction stir welding of aluminum die casting alloy, Materials Science and Engineering, (2006) 250-254 [10] R.
Fujii, Friction stir welding of carbon steels, Materials Science and Engineering, (2006) 50-57
Gotawala, Phase transformation during friction stir processing of dual-phase 600 steel, Journal of Material Science, (2020) 4464-4477
Series: Materials Science and Engineering, (2019)
Kim, Three defect types in friction stir welding of aluminum die casting alloy, Materials Science and Engineering, (2006) 250-254 [10] R.
Fujii, Friction stir welding of carbon steels, Materials Science and Engineering, (2006) 50-57
Gotawala, Phase transformation during friction stir processing of dual-phase 600 steel, Journal of Material Science, (2020) 4464-4477
Series: Materials Science and Engineering, (2019)
Effects of the Processing Parameters on Porosity of Selective Laser Sintered Aliphatic Polycarbonate
Online since: April 2014
Authors: Qing Song Wei, Ping Hui Song, Xiao Hui Song, Yu Sheng Shi, Wei Li
SLS was applied successfully in many materials, such as metals[2], ceramics[3], glasses[4] and polymers.
But the materials with biocompatible feature remain limited to PEEK, PVA, PCL, PLLA and PMMA and so on[5].
Materials and methods Materials and composites production PC is an amorphous thermoplastic, its glass transition temperature, Tg, ranging between 140℃ and 143℃(Fig.1), is obtained from Germany Bayer Company.
Savalani: Rapid Prototyping Journal 18/1( 2012),16–27 [12] Chunze Yan, Liang Hao a, Lin Xu b, Yusheng Shi:Composites Science and Technology (2011),71: 1834–1841 [13] Wang Yan:Huazhong University of Science and Technology, in Chinese [D] (2005) [14] Haiying Yu, Howard W.
Wooley, Shang-You Yang:Journal of Biomedical Materials Research (2007), 10:541-547
But the materials with biocompatible feature remain limited to PEEK, PVA, PCL, PLLA and PMMA and so on[5].
Materials and methods Materials and composites production PC is an amorphous thermoplastic, its glass transition temperature, Tg, ranging between 140℃ and 143℃(Fig.1), is obtained from Germany Bayer Company.
Savalani: Rapid Prototyping Journal 18/1( 2012),16–27 [12] Chunze Yan, Liang Hao a, Lin Xu b, Yusheng Shi:Composites Science and Technology (2011),71: 1834–1841 [13] Wang Yan:Huazhong University of Science and Technology, in Chinese [D] (2005) [14] Haiying Yu, Howard W.
Wooley, Shang-You Yang:Journal of Biomedical Materials Research (2007), 10:541-547