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Online since: March 2015
Authors: Lei Ding, Bei Gang Li
Materials and Methods
Materials.
This finding is consistent with the report on Congo Red adsorption by clay materials [13].
Jing, Mercury removal from coal combustion flue gas by modified fly ash, Journal of Environmental Sciences. 25(2013) 393 -398
[9] Sumanjit Kaur, Seema Rani, Rakesh Kumar Mahajan, Adsorption Kinetics for the Removal of Hazardous Dye Congo Red by Biowaste Materials as Adsorbents, Journal of Chemistry. 2013 (2013) 1-12
Chow, Chris Saint, Kinetic study and equilibrium isotherm analysis of Congo Red adsorption by clay materials, Chemical Engineering Journal. 148(2009) 354-364.
This finding is consistent with the report on Congo Red adsorption by clay materials [13].
Jing, Mercury removal from coal combustion flue gas by modified fly ash, Journal of Environmental Sciences. 25(2013) 393 -398
[9] Sumanjit Kaur, Seema Rani, Rakesh Kumar Mahajan, Adsorption Kinetics for the Removal of Hazardous Dye Congo Red by Biowaste Materials as Adsorbents, Journal of Chemistry. 2013 (2013) 1-12
Chow, Chris Saint, Kinetic study and equilibrium isotherm analysis of Congo Red adsorption by clay materials, Chemical Engineering Journal. 148(2009) 354-364.
Online since: November 2011
Authors: Dong Li Li, Shi Yong Luo, Rui Rui Qin, Wen Cai Xu
Meiyun Zhu coated straw mushroom by coating materials with chitosan, sodium alginate and isolated soy protein.
IHLB No.PXM2010_014223_095557), Industrialization of Advanced Manufacturing Technology of Beijing Municipal science & Technology Commission (No.
References [1] Fan Kui, Wang Zhenlin and Cao Meili: Packaging Engineering 25 (2004), p. 130-131 [2] Zhou Ting: Science and Technology of Food Industry 22 (2001), p. 82-83 [3] Chen Jinjin: Amhui chemical Industry (2003), p. 2-4 [4] Yang Yuanyi: Southwestern University (2008) [5] Hu Honglu, Zhao Dongfeng: Weifang Higher Vocational Education 03 (2007), p. 38-39 [6] Xu Haiqing, Li Bingchao and Ming Xia: Liaoning Agricultural Science (2000), p. 19-21 [7] Liu Dongying, Wu Xiaoyong: Food Research and Development 30 (2009), p. 144-146 [8] Huang Jinru, Huang Chungyi: LWT - Food Science and Technology 40(2007), p. 1287-1291 [9] Liu Yaping, Jiao Lingxia: Journal of Hebei Agricultural Sciences 12 (2008), p. 81-83 [10] Gao Zhaoyin, Li Min: Journal of Zhejiang Agricultural Sciences (2007), p. 278-280
[11] Shi Hongwei: Journal of Anhui Agricultural Sciences 37 (2009), p. 9637-9638 [12] Zhou Jingya: Ournal of Anhui Agricultural Sciences 38 (2010), p. 13816-13819 [13] Vu, K.D., Hollingsworth and R.G.: Food Research International 44 (2011) , p. 198-204 [14] Xu Xiaoling: Zhejiang University (2008) [15] Zhu Meiyun, Lin Shunshun: Journal of Henan Agricultural University 44 (2010), p. 206-209 [16] Kang Yijun: Journal of Inner Mongolia University for Nationalities 19 (2004), p. 293-296 [17] Wu Guojie, Li Bina and Cui Yingde: Modern Chemical Industry 20 (2000), p. 34-47 [18] Wang Mingli: Journal of Chemical Engineering of Chinese Universities 23 (2009), p. 314
IHLB No.PXM2010_014223_095557), Industrialization of Advanced Manufacturing Technology of Beijing Municipal science & Technology Commission (No.
References [1] Fan Kui, Wang Zhenlin and Cao Meili: Packaging Engineering 25 (2004), p. 130-131 [2] Zhou Ting: Science and Technology of Food Industry 22 (2001), p. 82-83 [3] Chen Jinjin: Amhui chemical Industry (2003), p. 2-4 [4] Yang Yuanyi: Southwestern University (2008) [5] Hu Honglu, Zhao Dongfeng: Weifang Higher Vocational Education 03 (2007), p. 38-39 [6] Xu Haiqing, Li Bingchao and Ming Xia: Liaoning Agricultural Science (2000), p. 19-21 [7] Liu Dongying, Wu Xiaoyong: Food Research and Development 30 (2009), p. 144-146 [8] Huang Jinru, Huang Chungyi: LWT - Food Science and Technology 40(2007), p. 1287-1291 [9] Liu Yaping, Jiao Lingxia: Journal of Hebei Agricultural Sciences 12 (2008), p. 81-83 [10] Gao Zhaoyin, Li Min: Journal of Zhejiang Agricultural Sciences (2007), p. 278-280
[11] Shi Hongwei: Journal of Anhui Agricultural Sciences 37 (2009), p. 9637-9638 [12] Zhou Jingya: Ournal of Anhui Agricultural Sciences 38 (2010), p. 13816-13819 [13] Vu, K.D., Hollingsworth and R.G.: Food Research International 44 (2011) , p. 198-204 [14] Xu Xiaoling: Zhejiang University (2008) [15] Zhu Meiyun, Lin Shunshun: Journal of Henan Agricultural University 44 (2010), p. 206-209 [16] Kang Yijun: Journal of Inner Mongolia University for Nationalities 19 (2004), p. 293-296 [17] Wu Guojie, Li Bina and Cui Yingde: Modern Chemical Industry 20 (2000), p. 34-47 [18] Wang Mingli: Journal of Chemical Engineering of Chinese Universities 23 (2009), p. 314
Online since: May 2011
Authors: Xiao Fei Ma, Hong Zhong Li
In most engineering materials, grain size is an important microstructural feature.
Materials Science and Engineering.
Materials Science and Engineering.Vol.271(1999),p. 1 [4] N.
Materials Science and Engineering.Vol. 270(1999),p.178 [6] J.
Journal of University of Science and Technology Beijing.Vol. 11(2004),p.517
Materials Science and Engineering.
Materials Science and Engineering.Vol.271(1999),p. 1 [4] N.
Materials Science and Engineering.Vol. 270(1999),p.178 [6] J.
Journal of University of Science and Technology Beijing.Vol. 11(2004),p.517
Online since: January 2014
Authors: Jin He Liu, Zhi Hua Ma, Dong Gao Chen, Wu Lin Yang
Study on the microstructure and mechanical Properties of Welding Joints of 7A05 aluminum alloy by FSW
Donggao Chen1,2,a, Jinhe Liu1,b, Zhihua Ma2,c, Wulin Yang2,d
1Northwestern Polytechnical University, school of materials science and engineering, ShanXi Xi︐an, 710072, China.
2Ningbo Branch of China Academy of Ordance Science,Zhejiang Ningbo, 315103,China.
Experiment materials and Experiment methods Experiment materials.The welding material used in this experiment is 10mm thickness 7A05 aluminum alloy, experiment plate size is 300mm × 150mm, chemical composition is shown in the tab.1.
References: [1]Zhang Ping,Wnag Weixin,Zhao Junjun:Ordnance Material Science and Engineering Vol27( 2004),p. 38-42, in Chinese
[7] Cavaliere P, Squillace A: Materials Characterization Vol.55(2005),p. 136-142
[8] Litynska L, Braun R, Staniek G:Materials Chemistry and Physics Vol.81(2003),p. 293-295
Experiment materials and Experiment methods Experiment materials.The welding material used in this experiment is 10mm thickness 7A05 aluminum alloy, experiment plate size is 300mm × 150mm, chemical composition is shown in the tab.1.
References: [1]Zhang Ping,Wnag Weixin,Zhao Junjun:Ordnance Material Science and Engineering Vol27( 2004),p. 38-42, in Chinese
[7] Cavaliere P, Squillace A: Materials Characterization Vol.55(2005),p. 136-142
[8] Litynska L, Braun R, Staniek G:Materials Chemistry and Physics Vol.81(2003),p. 293-295
Online since: April 2008
Authors: Afzaal M. Malik, Ejaz M. Qureshi, Naeem Ullah Dar
Material properties in present research
Fig. 2.
Ph.D Thesis, Norwegian University of Science and Technology (2001)
Journal of Engineering Material Technology, Vol. 95 (1973), p. 233-237
Journal of Engineering Material Technology, Vol. 107 (1985), p. 181-185
ASME Journal of Offshore Mechanics and Arctic Engineering.
Ph.D Thesis, Norwegian University of Science and Technology (2001)
Journal of Engineering Material Technology, Vol. 95 (1973), p. 233-237
Journal of Engineering Material Technology, Vol. 107 (1985), p. 181-185
ASME Journal of Offshore Mechanics and Arctic Engineering.
Online since: June 2023
Authors: Olalekan Adebayo Olayemi, Adebowale Martins Obalalu, Salawu Sulyman Olakunle, Christopher Bode Odetunde
On the other hand, some non-Newtonian fluid materials are not elastic by nature.
The Casson fluid (CF) is one of the most extensively used non-Newtonian viscoelastic materials.
Alsulami, Unsteady thermal transport flow of Casson nanofluids with generalized Mittag–Leffler kernel of Prabhakar's type, Journal of materials research technology. 14 (2021) 1292-1300
Yarusso, The rheology and flow of viscoplastic materials, Reviews in Chemical Engineering. 1 (1983) 1-70
Khan, MHD pressure driven flow of nanofluid in curved channel, Journal of Magnetism Magnetic Materials. 393 (2015) 490-497
The Casson fluid (CF) is one of the most extensively used non-Newtonian viscoelastic materials.
Alsulami, Unsteady thermal transport flow of Casson nanofluids with generalized Mittag–Leffler kernel of Prabhakar's type, Journal of materials research technology. 14 (2021) 1292-1300
Yarusso, The rheology and flow of viscoplastic materials, Reviews in Chemical Engineering. 1 (1983) 1-70
Khan, MHD pressure driven flow of nanofluid in curved channel, Journal of Magnetism Magnetic Materials. 393 (2015) 490-497
Online since: January 2011
Authors: Cheng Ye Liu, Feng Yan Yi, Ke Jun Jiang
Journal of Intelligent Material Systems and Structures, 2000,10(11):5-13
Analysis on the working principle of MRF transmission device[J], Journal of Chongqing University(Natural Science Edition ), 2007, 30(11): 19-22 (in Chinese)
Journal of Functional Materials, 2006,37(6):992-993( in Chinese) [7] Huang J, He J M, Zhang J Q.
Key Engineering Materials, 2004,274/276:969-974
Journal of Functional Materials, 1997, 28(2):264-267(in Chinese)
Analysis on the working principle of MRF transmission device[J], Journal of Chongqing University(Natural Science Edition ), 2007, 30(11): 19-22 (in Chinese)
Journal of Functional Materials, 2006,37(6):992-993( in Chinese) [7] Huang J, He J M, Zhang J Q.
Key Engineering Materials, 2004,274/276:969-974
Journal of Functional Materials, 1997, 28(2):264-267(in Chinese)
Online since: June 2012
Authors: Yu Zhen Liu, Jie Min Cheng
Chinese Journal of Soil Science. 2011,42 (3):973-975
[3] RANA ATHAR, MASOOD AHMAD.
Journal of Agro-Environment Science, 2008,27(5):1895- 1900 [5] Zencak Z, Elmquist M, Gustafsson Ö.
Journal of Agro-Environment Science, 2007, 26(2):770- 774 [11] Fan Yanzhen, Wang Baozhen, Wang Lin.
Journal of Hazardous Materials 178 (2010) 455–461 [14] Qiu Yuping, Cheng haiyan, Xu Chao, et al.
Journal of Hazardous Materials 178 (2010) 455–461
Journal of Agro-Environment Science, 2008,27(5):1895- 1900 [5] Zencak Z, Elmquist M, Gustafsson Ö.
Journal of Agro-Environment Science, 2007, 26(2):770- 774 [11] Fan Yanzhen, Wang Baozhen, Wang Lin.
Journal of Hazardous Materials 178 (2010) 455–461 [14] Qiu Yuping, Cheng haiyan, Xu Chao, et al.
Journal of Hazardous Materials 178 (2010) 455–461
Online since: September 2013
Authors: Sunil C. Joshi, Vishwesh Dikshit, Mubarak Ali
Journal of Materials Processing Technology, 2008. 207(1-3): p. 21-29
Journal of Composite Materials, 2012. 46(6): p. 665-675
Journal of Composite Materials, 2011. 45(10): p. 1091-1107
[8] Cantwell, M., The impact resistance of composite materials - a review.
Advanced Materials Research, 2013. 626: p. 589-593
Journal of Composite Materials, 2012. 46(6): p. 665-675
Journal of Composite Materials, 2011. 45(10): p. 1091-1107
[8] Cantwell, M., The impact resistance of composite materials - a review.
Advanced Materials Research, 2013. 626: p. 589-593
Online since: August 2010
Authors: Wan Shan Wang, Tian Biao Yu, Peng Guan, Jing Qiang Zhang
The research is mainly simulating the chip process of the
single or multiple abrasive and analyzing the deformation process of the workpiece materials under
the abrasive compression (such as uplift, chip), in order to reveal the mechanism of the grinding chip.
Hegeman: Fundamentals of Grinding: Surface Conditions of Ground Materials (Ph.D.
Lavine: Journal of Manufacturing Science and Engineering Vol. 122 (2000), p. 59 [11] T.A.
Wani, Vinod Yadava and Atul Khatri: Journal of Materials Processing Technology Vol. 1-3 (2007), p. 282 [14] Su Chong: Research on Key Theories and Technologies of Virtual Grinding (Ph.D.
Takezawa: Journal of the Japan Society of Precision Engineering Vol. 56 (1990), p. 1480 [21] Rudiger Rentsch, Lchiro Lnasaki: Annals of the CIRP Vol. 44 (1995), p. 295 [22] Shimizu Jun, Zhou Libo and EDA Hiroshi: Proceedings of the 10th International Manufacturing Conference Paper Vol. 10 (2002), p. 8 [23] Lin Bin, HAN Xuesong, Yu Siyuan and Chen Xi rang: Journal of Tianjing University (Science and Technology) Vol. 33 (2000), p. 652 [24] Lin Bin, Wu Hui, Yu Siyuan and Xu Yanshen: Nanotechnology and Precision Engineering Vol. 2 (2004), p. 136 [25] Guo Xiaoguang, Guo Dongming, Kang Renke and Jin Zhuji: Journal of Semiconductors Vol. 29 (2008), p. 1180
Hegeman: Fundamentals of Grinding: Surface Conditions of Ground Materials (Ph.D.
Lavine: Journal of Manufacturing Science and Engineering Vol. 122 (2000), p. 59 [11] T.A.
Wani, Vinod Yadava and Atul Khatri: Journal of Materials Processing Technology Vol. 1-3 (2007), p. 282 [14] Su Chong: Research on Key Theories and Technologies of Virtual Grinding (Ph.D.
Takezawa: Journal of the Japan Society of Precision Engineering Vol. 56 (1990), p. 1480 [21] Rudiger Rentsch, Lchiro Lnasaki: Annals of the CIRP Vol. 44 (1995), p. 295 [22] Shimizu Jun, Zhou Libo and EDA Hiroshi: Proceedings of the 10th International Manufacturing Conference Paper Vol. 10 (2002), p. 8 [23] Lin Bin, HAN Xuesong, Yu Siyuan and Chen Xi rang: Journal of Tianjing University (Science and Technology) Vol. 33 (2000), p. 652 [24] Lin Bin, Wu Hui, Yu Siyuan and Xu Yanshen: Nanotechnology and Precision Engineering Vol. 2 (2004), p. 136 [25] Guo Xiaoguang, Guo Dongming, Kang Renke and Jin Zhuji: Journal of Semiconductors Vol. 29 (2008), p. 1180