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Online since: March 2022
Authors: Zi Li Jin, Sheng Mei Ma, Shuai Hu
Effect of Hot Rolling Temperature on the Precipitation of Hot Rolling Inhibitor of Grain-Oriented Electrical Steel
Shengmei Ma1,2,3,a, Shuai Hu2,3,b, Zili Jin2,3,c,*
1Department of Materials Engineering, Baotou Vocational and Technical College,
Baotou 014010, China
2School of Material and Metallurgy, Inner Mongolia University of Science and Technology, Baotou 014010, China
3Inner Mongolia Key Laboratory of New Metal Materials, Baotou 014010, China)
amashengmeizjq@163.com, bhus0221@126.com, cjinzl6310@126.com
Keywords: Hot rolling; Grain-oriented; Electrical steel; Inhibitor; Precipitation
Abstract.
Acknowledgements This work was supported by the National Natural Science Foundation of China (51761033) and the Open topics of Inner Mongolia Key Laboratory of New Metal Materials.
Journal of Magnetism and Magnetic Materials, 320(23) (2008) 3229-3233
Journal of Beijing University of Science and Technology, 31(4) (2009) 439-444
Material science principles on electrical steel.
Acknowledgements This work was supported by the National Natural Science Foundation of China (51761033) and the Open topics of Inner Mongolia Key Laboratory of New Metal Materials.
Journal of Magnetism and Magnetic Materials, 320(23) (2008) 3229-3233
Journal of Beijing University of Science and Technology, 31(4) (2009) 439-444
Material science principles on electrical steel.
Online since: July 2011
Authors: Yun Ping Ji, Zong Chang Liu, Hui Ping Ren
Study on Microstructure of Quenched Martensite in W6Mo5Cr4V2 Steel
Yunping Ji, Zongchang Liu and Huiping Ren
School of Material and Metallurgy, Inner Mongolia University of Science and Technology, Baotou 014010, Inner Mongolia, China
jiyunpingpp@163.com
Keywords: W6Mo5Cr4V2, Cryptocrystalline martensite, Stacking fault, Midrib, Twin crystal
Abstract.
Acknowledgements The author would like to thank her collaborators from the innovation team of high added-value steel materials shaping and microstructure control in Inner Mongolia University of Science and Technology.
Morphology and Formation Mechanism of Martensite in Steels with Different Carbon Content [J].Advanced Materials Research, 2011, 201-203: 1612-1618
[2] Zuyao Xu: Martensite Phase Transformation and Martensite (Science Press, Beijing 1999) (In Chinese)
[3] Zongchang Liu: Journal of Inner Mongolia University of Science and Technology, Vol. 27 (2008), p. 293 (In Chinese) [4] Zongchang Liu, Haiyan Wang, Huiping Ren: Journal of Inner Mongolia University of Science and Technology, Vol. 28 (2009), p.99 (In Chinese) [5] Zongchang Liu, Yunping Ji, Xueqiang Lin, Haiyan Wang, Huiping Ren: Heat Treatment of Metals, Vol. 35 (2010), p.118 (In Chinese)
Acknowledgements The author would like to thank her collaborators from the innovation team of high added-value steel materials shaping and microstructure control in Inner Mongolia University of Science and Technology.
Morphology and Formation Mechanism of Martensite in Steels with Different Carbon Content [J].Advanced Materials Research, 2011, 201-203: 1612-1618
[2] Zuyao Xu: Martensite Phase Transformation and Martensite (Science Press, Beijing 1999) (In Chinese)
[3] Zongchang Liu: Journal of Inner Mongolia University of Science and Technology, Vol. 27 (2008), p. 293 (In Chinese) [4] Zongchang Liu, Haiyan Wang, Huiping Ren: Journal of Inner Mongolia University of Science and Technology, Vol. 28 (2009), p.99 (In Chinese) [5] Zongchang Liu, Yunping Ji, Xueqiang Lin, Haiyan Wang, Huiping Ren: Heat Treatment of Metals, Vol. 35 (2010), p.118 (In Chinese)
Online since: January 2010
Authors: Qi Wu Zhang, Fumio Saito, Kanatip Kumproa, Apinon Nuntiya
Synthesis of 8 %mol Yttria-Stabilized Zirconia Powders by
Mechanochemical Processing of ZrOCl2.8H2O and YCl3.6H20 with Li2CO3
Kanatip Kumproa
1, a, Apinon Nuntiya1, b
, Qiwu Zhang
2, c
and Fumio Saito2, d
1
Department of Industrial Chemistry, Faculty of Science, Chiang Mai University, Chiang Mai,
50200 Thailand.
2
Institutes of Multidisciplinary Research for Advanced Materials, Tohoku University, 2-1-1,
Katahira, Aoba-Ku, Sendai, 980-8577 Japan.
The starting materials to form YSZ are ZrCl4 and YCl3 as a reagents to synthesis zirconia powder with LiOH [79], Ca(OH)2 [9], Mg(OH)2 [9], Li2O [6, 9], CaO [9, 10], MgO [9, 11] as a precursor.
Journal of Alloys and Compounds. 458 (2008), 474-478
Journal of Alloys and Compounds (2008), in Press
Materials Science and Engineering.
The starting materials to form YSZ are ZrCl4 and YCl3 as a reagents to synthesis zirconia powder with LiOH [79], Ca(OH)2 [9], Mg(OH)2 [9], Li2O [6, 9], CaO [9, 10], MgO [9, 11] as a precursor.
Journal of Alloys and Compounds. 458 (2008), 474-478
Journal of Alloys and Compounds (2008), in Press
Materials Science and Engineering.
Online since: March 2016
Authors: M.R. Sahar, Md Supar Rohani, Hasim Nurhafizah, Sib Krishna Ghoshal
Ghoshal
Advanced Optical Materials Research Group,
Department of Physics, Faculty Sciences,
Universiti Teknologi Malaysia,
81310 UTM Skudai, Johor, Malaysia.
1nurhafizah1989@gmail.com, 2mdsupar@utm.my
Keywords: melt – quenching, photoluminescence, luminescence quenching
Abstract
Achieving tuneable photoluminescence via controlled co-doping of rare earth ions in lithium niobate based glasses are challenging.
Batch of 15 g raw materials from reagent grade powder of TeO2 (purity 99%), Li2CO3 (purity 99%), Nb2O5 (purity 99%), Er2O3 (purity 99.9%) and Nd2O3 (purity 99.9%) are well mixed.
Nie, Physical Properties and Optical Band Gap of New Tellurite Glasses Within the TeO2 – Nb2O5 – Bi2O3System, Materials Chemistry& Physics 113 (2009) 407 – 411
Ahmed, New Tellurite Glass: Optical Properties, Materials Chemistry and Physics 109 (2008) 291 – 296
Speghini, Composition and Concentration Dependence of Spectroscopic Properties of Nd3+ doped Tellurite and Metaborate Glasses, Optical Materials 33 (2011) 928 – 936
Batch of 15 g raw materials from reagent grade powder of TeO2 (purity 99%), Li2CO3 (purity 99%), Nb2O5 (purity 99%), Er2O3 (purity 99.9%) and Nd2O3 (purity 99.9%) are well mixed.
Nie, Physical Properties and Optical Band Gap of New Tellurite Glasses Within the TeO2 – Nb2O5 – Bi2O3System, Materials Chemistry& Physics 113 (2009) 407 – 411
Ahmed, New Tellurite Glass: Optical Properties, Materials Chemistry and Physics 109 (2008) 291 – 296
Speghini, Composition and Concentration Dependence of Spectroscopic Properties of Nd3+ doped Tellurite and Metaborate Glasses, Optical Materials 33 (2011) 928 – 936
Online since: January 2014
Authors: Bobby Oedy Pramoedyo Soepangkat, Bambang Pramujati, Pathya Rupajati, Helena C. Kis Agustin
Experimental Design and Result
Equipments and Materials.
Tai, “Relationship Between EDM Parameters and Surface Crack Formation,”Journal of Materials Processing Technology, vol.142, pp. 676-683, 2003
Praveen, “Effect of WEDM Conditions on Surface Roughness: A Parametric Optimisation Using Taguchi Method–International Journal of Advanced Engineering Science and Technologies, vol. 6, pp. 41-48, 2008
Murtza, “Effects of Machining Variables on Surface Roughness in Wire-EDM of AISI D3,” International Journals of Engineering Science, vol. 01, pp. 65-78, 2012
Gindy, “A user-friendly fuzzy-based system for the selection of electro discharge machining process parameters,” Journal of Materials Processing Technology, vol. 172, pp. 363-371, 2006
Tai, “Relationship Between EDM Parameters and Surface Crack Formation,”Journal of Materials Processing Technology, vol.142, pp. 676-683, 2003
Praveen, “Effect of WEDM Conditions on Surface Roughness: A Parametric Optimisation Using Taguchi Method–International Journal of Advanced Engineering Science and Technologies, vol. 6, pp. 41-48, 2008
Murtza, “Effects of Machining Variables on Surface Roughness in Wire-EDM of AISI D3,” International Journals of Engineering Science, vol. 01, pp. 65-78, 2012
Gindy, “A user-friendly fuzzy-based system for the selection of electro discharge machining process parameters,” Journal of Materials Processing Technology, vol. 172, pp. 363-371, 2006
Online since: September 2016
Authors: Maxx Q. Arguilla, Leon M.Jr. Payawan, Ken Aldren S. Usman, Lawrence John Paulo L. Trinidad
The Journal of Physical Chemistry C. 113(11) 4623-4633
Journal of the American Chemical Society. 115(18) 8345-8350
The Journal of Physical Chemistry B. 105(23) 5374-5382
Journal of Organometallic Chemistry. 694(17) 2661-2670
Photochemical & Photobiological Sciences. 5(10) 871-873
Journal of the American Chemical Society. 115(18) 8345-8350
The Journal of Physical Chemistry B. 105(23) 5374-5382
Journal of Organometallic Chemistry. 694(17) 2661-2670
Photochemical & Photobiological Sciences. 5(10) 871-873
Online since: April 2024
Authors: Md. Maniruzzaman, Md. Shamim Ahsan, Rayhan Habib Jibon, Md. Ekhlasur Rahaman
Besides, there are uses for chemical sensors in medical sciences.
This character is verifiable since when more lights are confined within the core with increasing frequency it creates more spaces in the cladding region which are then filled with the background materials, as a result, EML increases.
Sundar, Design and optimization of photonic crystal fiber with improved optical characteristics, Journal of Nonlinear Optical Physics & Materials, 24 (4) (2015) 1550051
Abadi, Low nonlinear effects index-guiding nanostructured photonic crystal fiber, International Journal of Chemical, Nuclear, Materials and Metallurgical Engineering, 9 (2) (2015) 253-260
Monro, 3D-printed extrusion dies: a versatile approach to optical material processing, Optical Materials Express 4 (8) (2014) 1494-1504
This character is verifiable since when more lights are confined within the core with increasing frequency it creates more spaces in the cladding region which are then filled with the background materials, as a result, EML increases.
Sundar, Design and optimization of photonic crystal fiber with improved optical characteristics, Journal of Nonlinear Optical Physics & Materials, 24 (4) (2015) 1550051
Abadi, Low nonlinear effects index-guiding nanostructured photonic crystal fiber, International Journal of Chemical, Nuclear, Materials and Metallurgical Engineering, 9 (2) (2015) 253-260
Monro, 3D-printed extrusion dies: a versatile approach to optical material processing, Optical Materials Express 4 (8) (2014) 1494-1504
Online since: January 2014
Authors: Li Xiang Zhang, Bin Xie, En Rong Mao, Fu Qiang Li, Shou Rong Liu
According to the analysis result, optimization is made to save material appropriately.
Fig. 2 Loads setting of the frame The frame is made of structural steel and its main materials parameters are as follows: Density 7850kg/m3, Young’s modulus 200 GPa, Poisson’s ratio 0.3 and Yield strength 250 MPa.
Considering from the aspect of saving materials, optimization should be implemented to decrease the material on the premise of ensuring the yield strength.
Conclusion This paper analyzed the strength and stiffness of the combine harvester frame, discussed the analysis result and took an optimization objective to increase equivalent stress appropriately and save materials.
References: [1] Dongjie Zhao, Chunjiang Bao and Lipeng Zhang: Machine Design and Research, Vol. 26(2010), p. 102 (In Chinese) [2] Guang Ma, Dongming Huang, Zhiming Wang: Journal of Zhejiang University(Agriculture and Life Sciences), Vol. 33(2007), p. 562 (In Chinese) [3] Xiaoping Su, Jian Zhu, Lian Xu: Journal of Agricultural Mechanization Research, Vol. 32(2010), p. 36 (In Chinese) [4] Tao Chen.
Fig. 2 Loads setting of the frame The frame is made of structural steel and its main materials parameters are as follows: Density 7850kg/m3, Young’s modulus 200 GPa, Poisson’s ratio 0.3 and Yield strength 250 MPa.
Considering from the aspect of saving materials, optimization should be implemented to decrease the material on the premise of ensuring the yield strength.
Conclusion This paper analyzed the strength and stiffness of the combine harvester frame, discussed the analysis result and took an optimization objective to increase equivalent stress appropriately and save materials.
References: [1] Dongjie Zhao, Chunjiang Bao and Lipeng Zhang: Machine Design and Research, Vol. 26(2010), p. 102 (In Chinese) [2] Guang Ma, Dongming Huang, Zhiming Wang: Journal of Zhejiang University(Agriculture and Life Sciences), Vol. 33(2007), p. 562 (In Chinese) [3] Xiaoping Su, Jian Zhu, Lian Xu: Journal of Agricultural Mechanization Research, Vol. 32(2010), p. 36 (In Chinese) [4] Tao Chen.
Online since: October 2015
Authors: Derval dos Santos Rosa, Alcides Lopes Leão, Claudio Roberto Passatore
Materials and methods
2.1.
Journal of Applied Polymer Science. 2012
Journal of Materials Processing Technology. 2009;209(12-13):5371-5
Journal of Thermoplastic Composite Materials. 2012
Materials Research. 2014
Journal of Applied Polymer Science. 2012
Journal of Materials Processing Technology. 2009;209(12-13):5371-5
Journal of Thermoplastic Composite Materials. 2012
Materials Research. 2014
Online since: February 2012
Authors: Guo Zhi Zhang, Ning Zhou
The scheme of the computing system
In this paper, the scheme of the computing system based on Matlab, combining with theory(materials mechanics and composite materials mechanics FEM), the scheme of the computing system based on Matlab for series traction mechanism of heavy machinery was proposed and it is shown in Fig.1.
In this computing system, the number of total parameters is 15, wich includes 12 geometry parameters, 1 materials performance parameters(elastic modulus) and 2 load parameters(vertical and horizontal loads).
Mechanical Science and Technology, Vol 22 No. 6, (2003), p. 971-974 (in Chinese) [2] Chang Kui, Gao Jinliang, Yuan Yixing, et al..
Journal of System Simulation, Vol 19 No. 4, (2007), p. 901-904 (in Chinese) [4] Feng Fuzhang , Feng Yali , Zhang Wenming.
Journal of University of Science and Technology Beijing, Vol 28 No. 12, (2006), p. 1152-1156 (in Chinese) [5] Wang Zheng, Yang Jianguo, Zhang Wei.
In this computing system, the number of total parameters is 15, wich includes 12 geometry parameters, 1 materials performance parameters(elastic modulus) and 2 load parameters(vertical and horizontal loads).
Mechanical Science and Technology, Vol 22 No. 6, (2003), p. 971-974 (in Chinese) [2] Chang Kui, Gao Jinliang, Yuan Yixing, et al..
Journal of System Simulation, Vol 19 No. 4, (2007), p. 901-904 (in Chinese) [4] Feng Fuzhang , Feng Yali , Zhang Wenming.
Journal of University of Science and Technology Beijing, Vol 28 No. 12, (2006), p. 1152-1156 (in Chinese) [5] Wang Zheng, Yang Jianguo, Zhang Wei.