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Online since: June 2010
Authors: Qiu Sheng Yan, Jie Wen Yan, Jia Bin Lu, Wei Qiang Gao
The material removal rate can be
calculated from the weight loss.
Acknowledgements The authors gratefully acknowledge the financial support from the National Natural Science Foundation of China (Nos.50875050, 50575045), the Key Project of Chinese Ministry of Education (No. 208102) and the Key Project of the Natural Science Foundation of Guangdong Province, China (No. 9251009001000009).
Lv: Journal of Mechanical Engineering, Vol.43 (2007), p. 35
Gao: Advanced Materials Research, Vols. 53-54 (2008), p. 155
Gao: Advanced Materials Research, Vols.76-78(2009), p. 234.
Acknowledgements The authors gratefully acknowledge the financial support from the National Natural Science Foundation of China (Nos.50875050, 50575045), the Key Project of Chinese Ministry of Education (No. 208102) and the Key Project of the Natural Science Foundation of Guangdong Province, China (No. 9251009001000009).
Lv: Journal of Mechanical Engineering, Vol.43 (2007), p. 35
Gao: Advanced Materials Research, Vols. 53-54 (2008), p. 155
Gao: Advanced Materials Research, Vols.76-78(2009), p. 234.
Online since: May 2013
Authors: Wei Dong Huang, Yong Min Yu
It has laid a good foundation of the cut tobacco filling value online control which can reduce the filling value fluctuations, and reduce cigarette cigarettes density fluctuations, and improve the uniformity of the cigarette density, thereby it can reduce the amount of cigarette tar and improve the cigarette product quality to reduce raw material consumption.
Acknowledgments The work was supported by the Innovation Fund for Small Technology-based Firms of China (No. 12C26214104273), the Natural Science Foundation of Henan(102300410240), Innovation Scientists and Technicians Troop Construction Projects of Zhengzhou City(10CXTD160).
References [1] Liao Zhangping.Optimization and Application of Drying Parameters of Cut Tobacco[J].Journal of Anhui Agricultural Sciences, 2012(32):346-347,350 [2] Liu Xinmin,Du Yongmei.Relationship between Filling Power and Major Indices of Physical Feature and Chemical Components and Sensory Quality of Cut Tobacco[J].Chinese Tobacco Science, 2012(05):82-86 [3] Li Liqun,Deng Jingbiao.The Improvements of Tobacco Channel Guides of YJ17 Type Cigarettes Machine[J].Equipment Manufacturing Technology,2012(02):172;173 [4] Wei Yuling1,Yin Gengyun.Effects of several primary process operations on the cut rag scrap rate and filling capacity of the flue-cured tobacco[J].Journal of Yunnan University(Natural Sciences Edition), 2010(S1):195-198 [5] Yao Guangming, Wang Wen-hui, Yin Xianzhong.Effect of the size proportion of cut tobacco on the filling power of cut tobacco and cigarette making quality[J].
Journal of Zhengzhou Institute of Light Industry, 2003(04):63-65 [6] Gao Yumei,Li Hui,Sun Ge,Wang Shouyong.Design & Application of New High Expansion Dryer for Cut Rag and Cut Stem[J].Tobacco Science & Technology, 2008(10):13-16,30 [7] Wang Fei,Zhou Mi,Zeng Hailing,Jin Zhaoshu.Software of AC Servo Drive System Based on Motion Status of Cigarette Making and Tipping Machine Combination[J].Tobacco Science & Technology, 2008(12):28-31 [8] Li Chengfu, Zhou Xiansheng, Li Changkun.Study on the changing law of the rag filling power of the flue-cured tobacco duing aging[J].Chinese Tobacco Science, 2006(02):17-18 [9] Yu Jianjun, Li Shiyong, Li Guodong.Effect of microwave curing on the filling power and taste quality of cut tobacco[J].Journal of Henan Agricultural University, 2001(01):51-53
Acknowledgments The work was supported by the Innovation Fund for Small Technology-based Firms of China (No. 12C26214104273), the Natural Science Foundation of Henan(102300410240), Innovation Scientists and Technicians Troop Construction Projects of Zhengzhou City(10CXTD160).
References [1] Liao Zhangping.Optimization and Application of Drying Parameters of Cut Tobacco[J].Journal of Anhui Agricultural Sciences, 2012(32):346-347,350 [2] Liu Xinmin,Du Yongmei.Relationship between Filling Power and Major Indices of Physical Feature and Chemical Components and Sensory Quality of Cut Tobacco[J].Chinese Tobacco Science, 2012(05):82-86 [3] Li Liqun,Deng Jingbiao.The Improvements of Tobacco Channel Guides of YJ17 Type Cigarettes Machine[J].Equipment Manufacturing Technology,2012(02):172;173 [4] Wei Yuling1,Yin Gengyun.Effects of several primary process operations on the cut rag scrap rate and filling capacity of the flue-cured tobacco[J].Journal of Yunnan University(Natural Sciences Edition), 2010(S1):195-198 [5] Yao Guangming, Wang Wen-hui, Yin Xianzhong.Effect of the size proportion of cut tobacco on the filling power of cut tobacco and cigarette making quality[J].
Journal of Zhengzhou Institute of Light Industry, 2003(04):63-65 [6] Gao Yumei,Li Hui,Sun Ge,Wang Shouyong.Design & Application of New High Expansion Dryer for Cut Rag and Cut Stem[J].Tobacco Science & Technology, 2008(10):13-16,30 [7] Wang Fei,Zhou Mi,Zeng Hailing,Jin Zhaoshu.Software of AC Servo Drive System Based on Motion Status of Cigarette Making and Tipping Machine Combination[J].Tobacco Science & Technology, 2008(12):28-31 [8] Li Chengfu, Zhou Xiansheng, Li Changkun.Study on the changing law of the rag filling power of the flue-cured tobacco duing aging[J].Chinese Tobacco Science, 2006(02):17-18 [9] Yu Jianjun, Li Shiyong, Li Guodong.Effect of microwave curing on the filling power and taste quality of cut tobacco[J].Journal of Henan Agricultural University, 2001(01):51-53
Online since: January 2012
Authors: Jonathan Cuddy, Anand Birur, Xin Jin Cao, Tasneem Shariff, Priti Wanjara, Richard R. Chromik, Javad Gholipour
Briggs: Journal of Advanced Materials Vol. 37 (2005), p. 40-45
Yapp: Materials and Manufacturing Processes Vol. 22 (2007), p. 798-803
Wallace: Journal of Materials Processing Technology Vol. 171 (2006), 188-204
Suzuki: Metallurgical and Materials Transactions A Vol. 33A (2002), 3137-3143
Welsch: Materials Science and Engineering Vol.
Yapp: Materials and Manufacturing Processes Vol. 22 (2007), p. 798-803
Wallace: Journal of Materials Processing Technology Vol. 171 (2006), 188-204
Suzuki: Metallurgical and Materials Transactions A Vol. 33A (2002), 3137-3143
Welsch: Materials Science and Engineering Vol.
Online since: September 2023
Authors: Soma Das, Manish Deshmukh, Sumit Kumar Gupta, Abhijeet Agrawal
Material and Method
2.1.
In many aspects like size, operating frequency, isolation achieved in using less complex structure, diversity parameters, Gain achieved using low-cost FR-4 material in entire range, the proposed antenna shows its superiority and usefulness in the application range.
Oztürk, Performance Analysis of OFDM and OFDM-MIMO Systems under Fading Channels, Engineering, Technology & Applied Science Research, vol. 8, no. 4, (2018), doi: 10.48084/etasr.2209
Ahmad et al., A Jug-Shaped CPW-Fed Ultra-Wideband Printed Monopole Antenna for Wireless Communications Networks, Applied Sciences, vol. 12, no. 2, p. 821, (2022), doi: 10.3390/app12020821
Patteeswaran, Defected Ground Structure Multiple Input-Output Antenna For Wireless Applications, Computer Systems Science and Engineering, vol. 46, no. 2, pp. 2109–2122, (2023), doi: 10.32604/csse.2023.036781
In many aspects like size, operating frequency, isolation achieved in using less complex structure, diversity parameters, Gain achieved using low-cost FR-4 material in entire range, the proposed antenna shows its superiority and usefulness in the application range.
Oztürk, Performance Analysis of OFDM and OFDM-MIMO Systems under Fading Channels, Engineering, Technology & Applied Science Research, vol. 8, no. 4, (2018), doi: 10.48084/etasr.2209
Ahmad et al., A Jug-Shaped CPW-Fed Ultra-Wideband Printed Monopole Antenna for Wireless Communications Networks, Applied Sciences, vol. 12, no. 2, p. 821, (2022), doi: 10.3390/app12020821
Patteeswaran, Defected Ground Structure Multiple Input-Output Antenna For Wireless Applications, Computer Systems Science and Engineering, vol. 46, no. 2, pp. 2109–2122, (2023), doi: 10.32604/csse.2023.036781
Online since: November 2012
Authors: Mei Dan
Erosion model and computation of the erosion rate
The impact velocity and angle of the particle, attribution of the particle and attribution of the target material surface all affect the erosion of the particle flow.
The erosion of the particle flow to the material usually is represent as the erosion rate.
The erosion rate is defined as the cutting material mass per unit time and area to particle impingement.
The material wear rate obtained by the experiments in the specific target and particle with different velocities and impinging angles, generalizes the formula of the wear rate in experience and semi-experience value.
:Journal of Wuhan University of Science and Technology(Natural Science Edition), Vol.30(2007),p.519~521 (in Chinese) [3] Lin Jianzhong, ShenLiping, Zhou Zexuan: Wear,Vol. 241(2000),p.10~16 [4] Mei Dan,Xing Futang.: Fluid Machinery,Vol. 35(2007), p.25~27(in Chinese) [5] Z.Mazur,R.Campos-Amezcua,G.Urquiza-Beltran,etc:Applied Thermal Engineering,Vol. 24 (2004),p.1877~1891 [6] Ning Xu,Guohua li,Zhichu Huang:China Particuology,Vol. 3 (2005),p.275~278 [7] Jinyu Jiao,Ying Zhang,Jun Wang,etc: Chemical Engineering and Processing,Vol. 47 (2008), p.1861~1866 [8] Jose Carida,Miguel Asuaje,Frank Kenyery,etc:Journal of Petroleum Science and Engineering,Vol. 63 (2008), p.18~22 [9] M.Jahoda,L.Tomaskova,M.Mostek.
The erosion of the particle flow to the material usually is represent as the erosion rate.
The erosion rate is defined as the cutting material mass per unit time and area to particle impingement.
The material wear rate obtained by the experiments in the specific target and particle with different velocities and impinging angles, generalizes the formula of the wear rate in experience and semi-experience value.
:Journal of Wuhan University of Science and Technology(Natural Science Edition), Vol.30(2007),p.519~521 (in Chinese) [3] Lin Jianzhong, ShenLiping, Zhou Zexuan: Wear,Vol. 241(2000),p.10~16 [4] Mei Dan,Xing Futang.: Fluid Machinery,Vol. 35(2007), p.25~27(in Chinese) [5] Z.Mazur,R.Campos-Amezcua,G.Urquiza-Beltran,etc:Applied Thermal Engineering,Vol. 24 (2004),p.1877~1891 [6] Ning Xu,Guohua li,Zhichu Huang:China Particuology,Vol. 3 (2005),p.275~278 [7] Jinyu Jiao,Ying Zhang,Jun Wang,etc: Chemical Engineering and Processing,Vol. 47 (2008), p.1861~1866 [8] Jose Carida,Miguel Asuaje,Frank Kenyery,etc:Journal of Petroleum Science and Engineering,Vol. 63 (2008), p.18~22 [9] M.Jahoda,L.Tomaskova,M.Mostek.
Online since: November 2013
Authors: Zhi Gang Hu
Assessment of the surface heterogeneity of talc materials [J].
Journal of Colloid and Interface Science, 2001, Vol.233 (2): 250-258
Materials Letters, 2005, 59(1): 100 10 [5] Feng Qimin, Liu Gushan, Yu Zhengjun, etc.
Journal of Central South University (Science and Technology), 2006, Vol.37 (3): 476-479 [6] Sun Chuanyao, Yin Wanzhong.
Study on Separation Solid Materials.
Journal of Colloid and Interface Science, 2001, Vol.233 (2): 250-258
Materials Letters, 2005, 59(1): 100 10 [5] Feng Qimin, Liu Gushan, Yu Zhengjun, etc.
Journal of Central South University (Science and Technology), 2006, Vol.37 (3): 476-479 [6] Sun Chuanyao, Yin Wanzhong.
Study on Separation Solid Materials.
Online since: May 2012
Authors: Yong Jie Yang, Tian Xue Wen, Yu Wu Li, Jun Qing Liu, Yi’an Di, Jun Yang, Wei Wei Huang
Tibet is located on the highest plateau in the world, which is a fascinating laboratory for environmental science studies.
Fe was selected as the reference material for our EF calculation.
According to enrichment factor calculations, some elements (Co, Ni, Cu, As and Ba) were significantly enriched in precipitation relative to crustal materials, suggesting their potential anthropogenic sources.
Journal of Atmospheric Chemistry 47 (1), 1-24
International Journal of Coal Geology 71 (2-3), 122-128.
Fe was selected as the reference material for our EF calculation.
According to enrichment factor calculations, some elements (Co, Ni, Cu, As and Ba) were significantly enriched in precipitation relative to crustal materials, suggesting their potential anthropogenic sources.
Journal of Atmospheric Chemistry 47 (1), 1-24
International Journal of Coal Geology 71 (2-3), 122-128.
Online since: November 2011
Authors: Ya Ping Wang, Mu Cheng Zhu, Shi Liang Nie, Yong Jiang, Jiong Guo
However, because of the soakage agent of raw materials and formulation of technical bottlenecks, especially the technical differences and personalization, which the soakage agent degree of precision is not very higher, so that our fiberglass product variety, quality and performance in the international market competitiveness is relatively in the lower level [2].
The raw materials and formulation technology of the soakage agent is a key technologies which is determined the quality of the glass fiber products included types of yarn, cloth, felt and so on.
Configuration Process First of all, according to the requirements under the formula components, adding the configuration raw materials of the soakage agent to the reaction kettle.
(in Chinese) [3] LONG Li,CHEN Nan-liang, A study on the effect of sizing on the knittability of glass fiber yarns.Journal of Donghua University, vol.32,No.3.2006, pp96-99,104.
(in Chinese) [6] YU Hai-ying,HOU Jiu-yang, QIAO Fu,Study of temperature control system on chemical reactors ,Journal of Heilongjiang Institute of Science, vol.12.no.4.2002,pp25-28.
The raw materials and formulation technology of the soakage agent is a key technologies which is determined the quality of the glass fiber products included types of yarn, cloth, felt and so on.
Configuration Process First of all, according to the requirements under the formula components, adding the configuration raw materials of the soakage agent to the reaction kettle.
(in Chinese) [3] LONG Li,CHEN Nan-liang, A study on the effect of sizing on the knittability of glass fiber yarns.Journal of Donghua University, vol.32,No.3.2006, pp96-99,104.
(in Chinese) [6] YU Hai-ying,HOU Jiu-yang, QIAO Fu,Study of temperature control system on chemical reactors ,Journal of Heilongjiang Institute of Science, vol.12.no.4.2002,pp25-28.
Online since: May 2012
Authors: Shao Ping Fu, Rui Jun Duan, Yi Meng Ji, Rui Mei Li, Du Juan Xi, Jiao Liu, Jian Chun Guo, Peng Zhang
China
4 National Key Laboratory of Plant Molecular Genetics, Institute of Plant Physiology and Ecology, Shanghai Institutes for Biological Sciences, Chinese Academy of Sciences, Shanghai 200032, P.R.
Materials and methods Tissue culture materials of cassava cultivars SC5, SC6, SC7, SC8, cultured on MS medium for 45 days, were used for these experiments.
For this reason, chose right materials for transformation or doing other experiments is very important.
Zhang: Journal of Integrative Plant Biology Vol.53 (7) (2011), p. 552–569
Xian: Journal of Tropical and Subtropical Botany, Vol. 7(1) (1999), p. 75-80 [15] W.L.
Materials and methods Tissue culture materials of cassava cultivars SC5, SC6, SC7, SC8, cultured on MS medium for 45 days, were used for these experiments.
For this reason, chose right materials for transformation or doing other experiments is very important.
Zhang: Journal of Integrative Plant Biology Vol.53 (7) (2011), p. 552–569
Xian: Journal of Tropical and Subtropical Botany, Vol. 7(1) (1999), p. 75-80 [15] W.L.
Online since: August 2018
Authors: Minch Quang Do, Thu Ha Bui, Minh Duc Hoang, Van Quang Le, Hoc Thang Nguyen, Thanh Phong Dang
Chemical composition of the raw materials using X ray fluorescence (XRF).
XRD patterns of the materials tested by X ray diffraction (XRD).
When selecting raw materials for geopolymerization production, it is not only required materials containing the SiO2 and Al2O3 components but also a high activity for each oxide.
Provis and J.S.J. van Deventer, Alkali Activated Materials: State of the art report.
Li, Infrared Spectroscopy Study of Structural Nature of Geopolymeric Products, Journal of Wuhan University of Technology-Materials Science Edition, 23 (4) (2007) 522-527
XRD patterns of the materials tested by X ray diffraction (XRD).
When selecting raw materials for geopolymerization production, it is not only required materials containing the SiO2 and Al2O3 components but also a high activity for each oxide.
Provis and J.S.J. van Deventer, Alkali Activated Materials: State of the art report.
Li, Infrared Spectroscopy Study of Structural Nature of Geopolymeric Products, Journal of Wuhan University of Technology-Materials Science Edition, 23 (4) (2007) 522-527