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Online since: October 2014
Authors: Gang Huang, Ting Ting Sun, Feng Chun Dong, Yong Tang Jia, Wei Li Nie
Experimental
Materials.
Journal of Applied Polymer Science Vol. 98(2005), p. 1855 [2] McCormick C L Callais P A Hutchinson B H.
Journal of Cellulose Science and Technology Vol. 17(2009), p. 12 [5] HALIDAN Mamat.
Journal of Textile Research Vol. 31(2010), p. 6 [6] Anne-Laurence Dupont.
Journal of Applied Polymer Science Vol. 98(2005), p. 1855 [2] McCormick C L Callais P A Hutchinson B H.
Journal of Cellulose Science and Technology Vol. 17(2009), p. 12 [5] HALIDAN Mamat.
Journal of Textile Research Vol. 31(2010), p. 6 [6] Anne-Laurence Dupont.
Online since: July 2014
Authors: Ping Xia, Dong Zhang, Zheng Wang, Hui Ye, Yu Qiong Shen, Jing Rong Lu
Experimental
Materials & Methods. 2-MIB was dosed in the Pilot equipment and 2-MIB used HSSPME-GC/MS detection and analysis.
Acknowledgements This work was financially supported by the Shanghai Natural Science Foundation (12ZR1410000), National science and technology major project of water pollution control and treatment (2012ZX07403-002) and Shanghai Rising-Star Program (12QB1400900).
Pilot-scale Study of UV/H2O2 on Removing Micro organic Pollutant in Water, Journal of China Water & Waste Water,Vol. 38(2012),119-122
Oxidative elimination of cyanotoxins: Comparison of ozone, chlorine, Journal of chlorine dioxide and permanganate, Water Res, Vol. 41(2007),3381-3393
Exploration on the algae removal effect with composite water treatment process, Journal of Water Purificaition Technology, Vol.25 (2006), 1-5.
Acknowledgements This work was financially supported by the Shanghai Natural Science Foundation (12ZR1410000), National science and technology major project of water pollution control and treatment (2012ZX07403-002) and Shanghai Rising-Star Program (12QB1400900).
Pilot-scale Study of UV/H2O2 on Removing Micro organic Pollutant in Water, Journal of China Water & Waste Water,Vol. 38(2012),119-122
Oxidative elimination of cyanotoxins: Comparison of ozone, chlorine, Journal of chlorine dioxide and permanganate, Water Res, Vol. 41(2007),3381-3393
Exploration on the algae removal effect with composite water treatment process, Journal of Water Purificaition Technology, Vol.25 (2006), 1-5.
Online since: August 2013
Authors: Jian Hui Li, Chun Xia Miao
International Journal of Materials and Product Technology, Vol. 23 (2005), p. 348
Journal of Materials in Civil Engineering, Vol. 15 (2003), p. 358
Construction and Building Materials, Vol.23 (2009), p. 153
Journal of Zhejiang University: Engineering Science, Vol. 36 (2002), p. 352.
Construction and Building Materials, Vol. 10 (1996), p. 123
Journal of Materials in Civil Engineering, Vol. 15 (2003), p. 358
Construction and Building Materials, Vol.23 (2009), p. 153
Journal of Zhejiang University: Engineering Science, Vol. 36 (2002), p. 352.
Construction and Building Materials, Vol. 10 (1996), p. 123
Online since: April 2016
Authors: Stanislaw Mrozinski
Journal Pressure Vessel Technology, Trans.
[5] Łagoda T., Energy Models Fatigue Life of Structural Materials Under Uniaxial and Multiaxial Loading Random, Studies and monographs 121, Opole University of Technology, 2001, (in Polish)
Journal Materials 5, (1970), pp. 767-776
[8] Atzori B., Meneghetti G., Ricotta M., Unified material parameters based on full compatibility for low-cycle fatigue characterisation of as-cast and austempered ductile irons, International Journal of Fatigue 68 (2014) pp. 111–122
[10] Mroziński S., Golański G., Influence of temperature change on fatigue properties of P91 steel, Materials Research Innovations, Volume 18 Issue S2 (may 2014), pp. 504-508
[5] Łagoda T., Energy Models Fatigue Life of Structural Materials Under Uniaxial and Multiaxial Loading Random, Studies and monographs 121, Opole University of Technology, 2001, (in Polish)
Journal Materials 5, (1970), pp. 767-776
[8] Atzori B., Meneghetti G., Ricotta M., Unified material parameters based on full compatibility for low-cycle fatigue characterisation of as-cast and austempered ductile irons, International Journal of Fatigue 68 (2014) pp. 111–122
[10] Mroziński S., Golański G., Influence of temperature change on fatigue properties of P91 steel, Materials Research Innovations, Volume 18 Issue S2 (may 2014), pp. 504-508
Online since: April 2019
Authors: Jumiah Hassan, Khamirul Amin Matori, Ra'ba'ah Syahidah Azis, Mahraz Muhammad Nasir, TASIU ZANGINA, Chifu Ebenezar Ndikilar, Abdussalam Balarabe Suleiman
The materials were ball mixed using planetry ball mixing machine for several hours, The mixed powders were calcined at 700 oC for 3 h with heating rate 2oC/min in air.
The authors gratefully acknowledge the Department of Physics, Faculty of Science, Universiti Putra Malaysia (UPM) for the facilities provided.
Liu, “LiTi2(PO4)3 with NASICON-type structure as lithium-storage materials,” J.
MacFarlane, “Stoichiometric changes in lithium conducting materials based on Li1+xAlxTi2-x(PO4)3: Impedance, X-ray and NMR studies,” Solid State Ionics, vol. 136–137, pp. 339–344, 2000
Journal of Thermal Analysis and Calorimetry, p. 707, 2004.
The authors gratefully acknowledge the Department of Physics, Faculty of Science, Universiti Putra Malaysia (UPM) for the facilities provided.
Liu, “LiTi2(PO4)3 with NASICON-type structure as lithium-storage materials,” J.
MacFarlane, “Stoichiometric changes in lithium conducting materials based on Li1+xAlxTi2-x(PO4)3: Impedance, X-ray and NMR studies,” Solid State Ionics, vol. 136–137, pp. 339–344, 2000
Journal of Thermal Analysis and Calorimetry, p. 707, 2004.
Online since: January 2014
Authors: Zhen Yu Zhang, Bu Nv Liang
For this purpose, Ni-based alloy and high chrome cast iron were used as compared materials.
During the process of abrasive wear, surface materials are removed through three major mechanisms: (1) micro-cutting, (2) plastic deformation due to plough actions, and (3) fracture of hard-phase debris in the matrix materials[11-12].
Acknowledgement This work was financially supported by the National Natural Science Foundation of China (Grant No. 51361020) , the National Natural Science Foundation of China (Grant No. 51365024).
Journal of Materials Processing Technology, 2009, 209: 1368-1374
Surface and Coatings Technology, 132(2000):251-255 [8] A.Conde, F.Zubiri, J.de Damborenea, Materials Science and Engineering, A334(2002):223-238 [9] E.Fern andez, M.Cadenas, R.Gonzalez, et al.
During the process of abrasive wear, surface materials are removed through three major mechanisms: (1) micro-cutting, (2) plastic deformation due to plough actions, and (3) fracture of hard-phase debris in the matrix materials[11-12].
Acknowledgement This work was financially supported by the National Natural Science Foundation of China (Grant No. 51361020) , the National Natural Science Foundation of China (Grant No. 51365024).
Journal of Materials Processing Technology, 2009, 209: 1368-1374
Surface and Coatings Technology, 132(2000):251-255 [8] A.Conde, F.Zubiri, J.de Damborenea, Materials Science and Engineering, A334(2002):223-238 [9] E.Fern andez, M.Cadenas, R.Gonzalez, et al.
Online since: September 2013
Authors: Li Bin Yang, Zun Lu Zhu, Zuo Liang Sha
[2] X.Chen Microporous and Mesoporous Materials 115 (2008) 164-169
Materials research innovations (2008) Vol.12
[5] Guobin Yi,Jianwei Guo Journal of Materials Science & Engineering (2005) Jun Vol.23 No.3
[7] Xiaobin Wang, Xiongfu Zhang, chemical engineering journal 156(2010) 562-570
[8] Zhiping Lai, Griselda Bonilla, science 300,456(2003)
Materials research innovations (2008) Vol.12
[5] Guobin Yi,Jianwei Guo Journal of Materials Science & Engineering (2005) Jun Vol.23 No.3
[7] Xiaobin Wang, Xiongfu Zhang, chemical engineering journal 156(2010) 562-570
[8] Zhiping Lai, Griselda Bonilla, science 300,456(2003)
Online since: January 2014
Authors: Wen Xue Chen, Yue Ying Hu, Dan Wang
Materials and methods
Materials.
Feng: Journal of Food Science Vol. 28 (2007), p. 201 [2] V.S.
Srikar: Asian Fisheries Science Vol. 9 (1996), p.109 [3] C.D.
Chen: Asian Journal of Chemistry, Vol. 25 (2013), p. 1123, [8] A.S.
Riaz, et al: Journal of Food Science Vol. 55 (1990), p. 1201
Feng: Journal of Food Science Vol. 28 (2007), p. 201 [2] V.S.
Srikar: Asian Fisheries Science Vol. 9 (1996), p.109 [3] C.D.
Chen: Asian Journal of Chemistry, Vol. 25 (2013), p. 1123, [8] A.S.
Riaz, et al: Journal of Food Science Vol. 55 (1990), p. 1201
Online since: June 2021
Authors: Suntree Sangjan, Wadchara Thongsamer
In this work, a novel slow-release N-fertilizer hydrogel beads were prepared by containing urea in sodium alginate(SA) and sodium alginate-talcum (ST) materials via egg-box model.
The structure of SA and ST materials were characterized by FT-IR and XRD.
Materials and Method Material.
Release kinetic of N-fertilizer from alginate-based hydrogel materials.
Amaratunga: Applied Clay Science Vol. 150 (2017), p. 303 [10] Chengyi Wu, Youmeng Dan, Dating Tian, Yin Zheng, Shiyong Wei and Dongshan Xiang: International Journal of Biological Macromolecules Vol. 145 (2020), p. 1073 [11] Yanhui He, Zhansheng Wu, Liang Tu, Yajie Han, Genlin Zhang and Chun Li: Applied Clay Science Vol. 109-110 (2015), p. 68 [12] Sunita Patel, A.K.
The structure of SA and ST materials were characterized by FT-IR and XRD.
Materials and Method Material.
Release kinetic of N-fertilizer from alginate-based hydrogel materials.
Amaratunga: Applied Clay Science Vol. 150 (2017), p. 303 [10] Chengyi Wu, Youmeng Dan, Dating Tian, Yin Zheng, Shiyong Wei and Dongshan Xiang: International Journal of Biological Macromolecules Vol. 145 (2020), p. 1073 [11] Yanhui He, Zhansheng Wu, Liang Tu, Yajie Han, Genlin Zhang and Chun Li: Applied Clay Science Vol. 109-110 (2015), p. 68 [12] Sunita Patel, A.K.
Online since: February 2012
Authors: Xi Ping Guo, Yan Fei Feng
Finite-element Analysis of 950 Mill Housing Based on ANSYS
Xiping Guo 1, a, Yanfei Feng 2,b
1, 2School of Mechanical Engineering, Inner Mongolia University of Science & Technology, Baotou 014010, Inner Mongolia, China
ankdjxgxp@126.com, b370160605@qq.com
Keywords: Mill housing , finite-element analysis , stress , deformation
Abstract.
Finite element method Material features of 950 mill housing.
ZG230-450 features strength limit of 450MPa, elastic modulus of 2.1×MPa, Poisson ratio of 0.3, density of 7.8×kg/, and isotropic material.
Journal of ShanYan University, 2004, 28(3): 211-213.In Chinese
Journal of Chongqing University of Science and Technology: Natural Science Edition, 2008,Vo.l10(4):57~59
Finite element method Material features of 950 mill housing.
ZG230-450 features strength limit of 450MPa, elastic modulus of 2.1×MPa, Poisson ratio of 0.3, density of 7.8×kg/, and isotropic material.
Journal of ShanYan University, 2004, 28(3): 211-213.In Chinese
Journal of Chongqing University of Science and Technology: Natural Science Edition, 2008,Vo.l10(4):57~59