Mechanization technology: The key to sugarcane production in China
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Ou Y G. Mechanization in sugarcane production. In development report on agricultural mechanization science and technology in China (1949-2009). Edited by Bureau of Agricultural Mechanization, Agricultural Ministry. Beijing: China Agricultural Science and Technology Press, 2009-9. pp. 132-140.
Liu Q T, Mo J L, Ou Y G. Mechanization status in China's sugarcane industry. The Annual report of technology in sugarcane industry 2012.
Zhu X X. The discussion about developing full mechanization in China's sugarcane industry. Guang Xi agricultural mechanization, 2010; 4: 11-14.
Shen G F, Wang M H . The research on development strategy of Chinese agricultural mechanization (Vol.1): China Agriculture Press. 2007. 242 p.
Zheng D K. Trends and challenges in mechanizing sugarcane production in China. Townsville, Australia: ISSCT workshop hosted by BSES Limited, 9-14 September, 2012.
Chen C P. The report of inspection in United States and Brazil about sugarcane mechanization. Tropical Agricultural Engineering, 2004, 2: 1-6.
Delegation for Brazil. The report of Brazil’s sugarcane mechanization. Agriculture Machinery Technology Extension. 2002, 5: 39-40.
Hogarth D M, Allsopp P (eds). Manual of Cane growing. Brisbane, Australia: Bureau of Sugar Experiment Stations. 2000. 430p, ISBN 0 949678 05 8.
Jones R K. Technical Report: Cane harvesting to improve industry Performance--a review of sugar cane harvesting practices and options for improvement, SRDC (Sugar Research and Development Corporation). 2004.
Rungrat K, Bootrach S, Somudorn C, Nanun B, Tinnangwattana T. Study the effect of green and burned cane on sugar process (in Thai), Office of the Cane and Sugar Board, Ministry of Industry, Thailand, 2000.
Ding Q S, Borpit Tangwongkit. The thinking and the development of the sugarcane harvest technology. Journal of Agricultural Mechanization Research, 2001; 1: 5-7.
Claudia Brito Silva, Ma´rcia Azanha Ferraz Dias de Moraes, Jose´ Paulo Molin. Adoption and use of precision agriculture technologies in the sugarcane industry of São Paulo state. Brazil, Precision Agric. 2011. 12: 67–81.
Di Bella L, Haigh I, Powell J, Wood A. “Travel to Brazil and Cuba to understand and evaluate a systems approach to harvester automation and precision farming”, SDRC Traveling and Learning Project Final Report. 2007.
Chen R K. China’s sugarcane industry development vision and policy recommendations in 2011. In: Science and Technology development strategy research in the sugarcane industry (2001-2010). Science Press. 2011: 337-342.
Ou Y G, Peng Z, Yang D T, Zheng D K . The present situation and development of sugarcane production mechanization in our country. Guangzhou: Proceedings of the 2011, Conference of China sugarcane association. September 2011.
Liang Z X, Li H C. Sugarcane mechanization development strategy in GuangXi. Agricultural Mechanization Research. 2011-12; 12: 241-244.
Ou Y G, Liu Q T, Li B X, Yu P X. Mechanization in sugarcane production. In: Shen Guofang, Wang Maohua. The research on development strategy of Chinese agricultural mechanization: China Agriculture Press. 2007. 242 p.
Yang D T, Huang S X, Zheng D K, Li B Y, Liu Y. Discussion on sugarcane equipment and the mechanization technology of sugarcane in China. Modern Agricultural Equipments. 2004; 5: 9-11.
Information Network on Sugarcane Machinery Science and Technology. Sugarcane Machinery (Special Issue), October 1977.
The Editorial Department of Agricultural Machinery Information. The overview of the development about sugarcane machinery in China 1979. Agricultural Machinery Information, (9): 2-5.
Wang H R. A preliminary study of Parameters in the sugarcane leaf peeling roller. Agricultural Machinery Information, 1979; 10: 32-35.
Wei Z D, Wang H R. Experimental study of sugarcane harvester’s stripping leaves device. Guangdong Agricultural Machinery, 1987; 2: 35-43.
Chen C P. Development and application of sugarcane leaves crusher for returning field. Mechanization of tropical crops, 1996; 1: 10-13.
Deng G R, Li M. Status and analysis of China’s sugarcane inter-tillage cultivators. Chinese Agricultural Mechanization, 1999; 1: 40-41.
Guo C Q. Problems and suggestions for improvement of sugarcane leaf peeler. Guangxi agricultural mechanization, 2009; 3: 10.
Lei X Y, Luo Z K, Li H G. Test and analysis the application of the entire rod style sugarcane combine harvester. Guangxi agricultural mechanization, 2009; 05: 6-8.
Li M, Huang H, Deng G R. The research and analysis of the sugarcane planter. Farm Machinery, 2008; 22: 40-42.
Liu C Q. The research of development status and prospects of entire rod style sugarcane harvester. Guangxi Sugarcane & Canesugar, 2002; 04: 21-22.
Tang Z F, Hu G S, Li C Y, Cheng J Z, Chen C P, Zhu H Y. Design and research of the ZCZY—2 sugarcane combine planter. Farm Machinery, 2007; 20: 73-75.
Zhou Y, Ou Y G, Peng K Y, Xie F X, Mou X W, Mo Z F. Design and experiment of 4GZ-56 caterpillar sugarcane Combine. Transactions of the Chinese Society for Agricultural Machinery, 2010; 41(4): 75-78.
Wang J M. The growing importance of mechanization of our sugarcane industry is obvious under view. Sugarcane and Canesugar, 1998; (1): 8-11.
Wegener M, Ou Y G, Zheng D K, Yang D T, Liu Q T. Mechanizing sugarcane harvesting in China, submitted and accepted for the ISSCT São Paulo Congress, 24-28 June, 2013.
Wegener, Malcolm. Transition and change in Chinese sugar-cane farming. The Cane Harvester, 1999; 6: 15.
Thomas H. Project progress and status of activity report Guang Qian sugarcane farm. 1997 International symposium on sugarcane mechanization, 1997; 1-16.
Kerr B, Blyth K. Theyre all half crazy-100 years of mechanical cane harvesting. Brisbane, Canegrowers. Australia, 1993; 116 p.
Chen C P. Application and dissemination research of Full mechanization of Zhanjiang Nongken sugarcane farm. Master Thesis. Nanning: Guangxi University. 2009. Chen Chaoping.
Guangdong Provincial State QianJin Farm. The summary report of Mechanization in sugarcane produce pilot demonstration (1982-1987). 1988-3.
Ou Y G, Wegener, Malcolm, Yang D T. Experimental investigation into performance of sugarcane machinery in Guang Qian farm in China. International Conference on Engineering in Agriculture, Paper No SEAg 98/088. Perth, Australia. 1998.
Yang D W. Some recommendations to Guang Qian Sugarcane Company in sugarcane mechanization, 1997 International Symposium of Sugarcane mechanization, 1997: 61-64.
Guang Qian Sugarcane Company. Report of sugarcane mechanization in Guang Qian Company. 1997 International Symposium of Sugarcane mechanization, 1997: 26-30.
Ou Y G, Yang D T, Yu P X, Wang Y X, Li B X, Zhang Y L. Experience and analysis on sugarcane mechanization at a state farm in China. Paper number 028048, 2002 ASAE Annual Meeting, 2002.
Ou Y G, Zhang Y L, Yang D T, Yu P X, Zhang Z X, Jia R C. Test and analysis of the mechanization in sugarcane production system. Transactions of the Chinese Society of Agricultural Engineering, 2000-09; 16(05): 74-77.
Chen C P. Considerations for full scale mechanization of sugar cane production for Zhanjiang (Guangdong) State Farm. Jinggangshan, China: Presentation to international symposium on the status and trends of mechanization of sugarcane, 8-10 December 2011.
Zeng Z Q, Chen C P, Lai R G. The experimental research on sugarcane whole course mechanization in Zhanjiang Agricultural Reclamation. Tropical Agricultural Engineering, 2010; 04: 20-23.
Huang W Q. Play the state-owned farms advantage and accelerate the mechanization of sugarcane production process, Guangxi agricultural mechanization, 2011; 2.
The state council Document. The state council about promoting agricultural mechanization and agricultural machinery industry and the rapid and healthy development of the opinions (Guo Fa. 2010; 22.
The Management Bureau of Agricultural Mechanization, the Agricultural Ministry. The instruction opinion on sugarcane production mechanization technology. Chinese agricultural mechanization information network, 2011.
Ministry of Industry and Information, farm machinery industry development plan (2011-2015), China agricultural mechanization information network, March 2011.
Ou Y G, Yang D T. Some problems in mechanization in sugarcane production. Guang Xi Agricultural Mechanization, 2010; 4: 8-10.
Liu Q T, Mo J L, Li T H, Ou Y G. Current situation of sugarcane planter and its key technical issues in China. Sugarcane and Canesugar, 2011; 05: 52-58.
Lai C Q. Mechanization of inter-tillage is the primary breakthrough link in sugarcane industry. Guang Xi Agricultural Mechanization, 2003; 06: 33.
Chen C P, Yang C X, Yang D T, Mou X W. Test and analysis on sugarcane mechanization harvesting system. Journal of south China agricultural university, 2009; 03: 107-109.
Peng Y K, Xu Y , Tang X Y, Wang S X, Xu C. Accelerate the promotion and demonstration the key technologies of sugarcane harvester. Guang Xi Agricultural Mechanization, 2010; 02: 23-26.
Luo Y W, Wang W Z, Fang F X,Zhu Q Z, Liang T. Discussion on key agronomic coordinated technology of sugarcane mechanical harvest. Chinese Agricultural Mechanization, 2010; 05: 63-67.
Luo Y W, Wang W Z,Zhu Q Z, Liang T, Chen Y Z, Xie J L, et al. Test for various row space Small and medium-sized sugarcane planter. Guangxi Sugarcane & Canesugar, 2010; 02: 7-10.
Mo LX. On the promotion of water-saving irrigation at sugarcane produce. Guangxi Sugarcane & Canesugar, 2000; 12: 6-8.
Huang Y. On the popularization and application about mechanization of water-saving irrigation technology in sugarcane producing in Guangxi. Guangxi agricultural mechanization, 2009; 05: 4-5.
Huang S Z. The thinking about accelerating the sugarcane harvest mechanization. Farm Machinery, 2010; 05: 20-23.
Huang H Y. Speed up the development of sugarcane harvest mechanization discussion, Guangxi light industry, 2010; 08: 144-146.
Huang Z H, Mo Y T. Promote sugarcane harvest mechanization discussion. Guang Xi Agricultural Mechanization, 2009; 06: 7-10.
Li T S, Wu J. The sugarcane harvesting mechanization status and the Suggestions about development policy. Guang Xi Agricultural Mechanization, 2010; 03: 5-8.
You Jianhua, Fang Fengxue, Chen Yinzhi, Nong Dingchan, Fan Baoning. Mechanization status of sugarcane production and some development countermeasures. Sugar Crops of China, 2008; 04: 69-72.
Zheng S B, Huang Z B. On the development path of the full mechanization of sugarcane production. Guang Xi Agricultural Mechanization, 2010; 03: 8-9.
Guo J W. The status of sugarcane mechanization in Yunnan Province. Presentation to international symposium on the status and trends of mechanization of sugarcane. Jinggangshan, China, 8-10 December 2011.
Lin M, Fu X, Li Y, Luo H F, Chen Z S. Analysis the development in Sugarcane harvest mechanization in Hainan. Farm Machinery, 2010; 03: 111-114.
Sun Y P, Zhong L P, Zhan Y L. Situation and development countermeasures of HaiNan sugarcane harvester. Modern agricultural sciences and technology, 2011; 13: 237-238.
Yuan C Y, Ou Y G, Wang M M. Hainan sugarcane’s status analysis and measure. Guangdong Agricultural Sciences, 2012; 02: 23-25.
Xie F X , Ou Y G , Liu Q T, Song C H, Mou X W. The whole stalk of sugarcane harvesters combined device kinematics of lifting. Journal of Agricultural Mechanization Research, 2009; 5: 27-30.
Yang N J, Li S P, Zhou J H. The Integrated Design Platform of Sugarcane Harvester Based on PDM. Journal of Agricultural Mechanization Research, 2009; 8: 169-172.
Geng K H. Humanization design of sugarcane harvester. Journal of Agricultural Mechanization Research, 2011; 10: 241-244.
Fu L Z, Meng Y M, Wang N. Research on key technology of sugar cane harvesting machinery design in hills. Journal of Agricultural Mechanization Research, 2012; 6: 62-65, 100.
Liu Q T, Ou Y G, Qing S L, Wang W Z. Study progress on mechanics properties of crop stalks. Journal of Agricultural Machinery, 2007; 38(7): 172- 176.
Liu Q T, Ou Y G, Yuan N X. Bending load induced failure forms of sugarcane stalks. Transactions of the CSAE, 2004; 20(3): 6-9.
Liu Q T, Chen J K, Ou Y G. Spatial attitude of sugarcane lodging in field. China's agricultural engineering society 2011 academic conference, 2011; pp 546-550.
Liu Q T, Ou Y G, Qing S L, Chen H B. Failure tests of sugarcane stalks under torsion, compression and tension load. Transactions of the CSAE, 2006; 6: 201-204.
Song C H, Ou Y G, Liu Q T, Wang M M. Modeling the press force of sugarcane growth. Journal of Agricultural Mechanization Research, 2012; 6: 22-25, 30.
Mou X W, Ou Y G, Wu H, Liu Q T, Song J M, Huang S X. Damage of sugarcane leaf sheath under action of elastic leaf-stripping elements based on high-speed photography. Journal of Agricultural Machinery, 2012; 2: 85-89.
Song J M, Ou Y G, Mou X W, Wu H. A study on cleaning element of the whole stalk sugarcane harvester. China’s Agricultural Engineering Society 2011 academic conference, 2011; pp704-706.
Song C H, Ou Y G, Liu Q T, Wang M M. Experimental study on influencing factors of lifting quality for push-over-type sugarcane harvester. Transactions of the CSAE, 2012; 16: 35-40.
Mou X W, Xie F X, Ou Y G, Gong J H. Experiments of Lifting Process for the Lodged Sugarcane. Journal of South China Agricultural University, 2010; 31(3): 98-101.
Lao Z R. The preliminary analysis of motion parameters of spiral sugarcane-lifting of sugarcane harvester. Research and Discussion on Sugarcane Harvester of Theory, 1980; pp 21-24.
Peng W C. Motion parameters of spiral sugarcane-lifting of sugarcane harvester to be determined. Research and Discussion on Sugarcane Harvester of Theory, 1980; pp 19-20.
Wang H R. Design principle preliminary analysis of spiral sugarcane-lifting of sugarcane combine-harvester. Journal of Guangdong Agricultural Machinery, 1981; 3: 31-37.
Ye N Z. Design principles of spiral sugarcane-lifting of sugarcane harvester. Journal of Guangxi Agricultural Machinery, 1982; 2: 48-58.
Song C H. Research on spiral sugarcane-lifting organ of sugarcane harvester. Master Thesis. Guangzhou: South China Agricultural University, 2003, 6. 99 p.
Song C H, OuY G. Screw and sugarcane mechanism for sugar cane up effect. Journal of Hunan Agricultural University, 2004; 21(6): 569-571. .
Zhang Y, Ou Y G, Mou X W. The study on the rake bar chain lifter leaving lift problem. Journal of Agricultural Mechanization Research, 2009; 31(5): 45- 47.
Mou X W, Ou Y G, Zhang Y. Experiment of the Finger-chain Type Sugarcane-lifter. Journal of Agricultural Machinery, 2009; 40(8): 49-53.
Zhang Y, Ou Y G, Mou X W. The Fingerlike Holding Process Simulation Research of Sugarcane Harvester. Journal of Agricultural Mechanization Research, 2008; 4: 29-31, 39.
Song C H, Ou Y G, Liu Q T, Wu H. Study on Second Stage Spiral Sugarcane-lifting Mechanism. Journal of Agricultural Mechanization Research, 2010; 11: 34-37.
Song C H, Ou Y G, Liu Q T. Design and experiment of two sections spiral sugarcane lifter for sugarcane harvester. Journal of Agricultural Machinery, 2012; 8: 89-93.
Xie F X, Ou Y G, Liu Q T. Experiment of combined-lifter device for sugarcane harvester. Journal of Agricultural Machinery, 2011; 2: 94-98.
Yang J J, Liu F, Liu X Y. The dynamic design of cutting disk of sugarcane harvester. Mechanical Science and Technology, 2000; 19(6): 923-324, 926.
Yang J J, Xie H B, Tang S Q. Dynamic design of mini-type sugarcane harvester. Journal of Hubei Polytechnic University, 2003; 18(2): 3-5.
Huang H D, Wang Y X, Tang Y Q, Zhao F, Kong X F. Finite element simulation of sugarcane cutting. Transactions of the CSAE, 2011; 27(2): 161-166.
Wang R F, Yang J, Liang Z X, Mo J L, Gu H Y. Experimental optimization study on working parameters of sugarcane harvester cutter. Journal of Agricultural Mechanization Research, 2004; 4: 144-147.
Liu Q T, Ou Y G, Qing S L, Wang W Z. Study on the Cutting Mechanism of Sugarcane Stem. Journal of Agricultural Mechanization Research, 2007; 14: 21-24.
Liu Q T, Ou Y G, Qing S L, Song C H. Cutting force test of sugarcane stalk. Transactions of the CSAE, 2007; 23(7): 90-94.
Liu Q T, Ou Y G, Qing S L, Wang W Z. Cutting force calculation of sugarcane stalk. Journal of Agricultural Machinery. Journal of Agricultural Machinery, 2006; 37(9):89-92.
Liu Q T. The cutting mechanism of sugarcane. PhD dissertation. Guangzhou: South China Agricultural University, 2004; 6, 147 p.
Qing S L, Ou Y G, Liu Q T. Kinematics of single disc base-cutter of sugarcane harvester. Journal of Agricultural Machinery, 2006; 37(1): 51-54.
Qin S L, Ou Y G, Liu Q T. Internal forces and distortions of sugarcane stalks in the condition of soil support. Journal of Huazhong Agricultural University, 2005; 10: 109-113.
Liu Q T, Ou Y G, Qing S L, Wang W Z. Stubble damage of sugarcane stalks in cutting test by smooth-edge blade. Transactions of the CSAE, 2007; 38(3): 103-107.
Liu Q T, Ou Y G. Mechanics Analysis on Stubble Damage of Sugarcane Stalk during Cutting by Smooth-edge Blade. Journal of Agricultural Machinery, 2007; 38(9): 51-54, 62.
Liu Q T, Ou Y G, Qing S L, Huang S X. High-speed photography analysis on the damage process in cutting sugarcane stalk with smooth-edge blade. Journal of Agricultural Machinery, 2007; 38(10): 31-35.
Zheng D K, Ou Y G, Li Z W, Qing S L, Liu Q T. The parameters matching of sugarcane harvester moving rate and basecutter rev. Journal of Agricultural Mechanization Research, 2010; 6: 35-38.
Yang D T, Ou Y G, Huang S X, Li B X. The investigation simulation method for sugarcane manual cutting. Journal of Agricultural Mechanization Research, 2004; 6: 48-50.
Yang J, Chen G J, Liang Z X, Mo J L, Lin M. Experimental study on Influencing factors of broken biennial root rate for a single base cutter of sugarcane harvester. Journal of Agricultural Machinery, 2007; 38(3): 47-50.
Chen G J, Zhao B. The Impact mechanism analyze of the rate of broken biennial root of the single base cutter. Journal of Agricultural Mechanization Research, 2010; 10: 47-50.
Chen G J, Zhao B, Yang J, Sun P. Optimization of working parameters for single disc base-cutter of sugarcane harvester, Journal of Agricultural Mechanization Research, 2010; 2: 146-148.
Lin M, Yang J, Liang Z X, Mo J L, Chen G J. Experimental optimization research on working parameters of Du base cutter of sugarcane harvester. Journal of Agricultural Mechanization Research, 2006; 12: 146-150.
Chen L F, Ou Y G, Li Z H. Study on flexible griping & transportation device for whole stalk sugarcane harvester. Journal of Agricultural Mechanization Research, 2009; 1: 71-75.
Li Z H, Ou Y G. Power model of arc-track-type flexible holding and conveying device of sugarcane harvester. Transactions of the CSAE, 2009; 25(9): 111-116.
Chen T Q. Transmission device of Sugarcane harvester. 2007. Patent Number: 200710200081.
Li W, Li S P, Liu D M. Simulation and experimental investigation for the feeding mechanism in small-scale whole stock sugarcane harvester. Journal of Agricultural Mechanization Research, 2010; 7: 152-155.
Zhou Y, Ou Y G, Mo Z F. Design and experiment of oblique cutting and feeding device for sugarcane. Transactions of the CSAE, 2012; 14: 17-23.
Xie F X, Ou Y G, Liu Q T, Zou X P, Feng J M. Design and experiment of impurity discharging fan of sugarcane harvester. Transactions of the CSAE, 2012; S1: 8-14.
Meng Y M, Li S P, Liu Z S, Yuan H Y. Analysis of the Fatigue Life of Nonlinear Arrangement of Sugarcane Cleaning Element in Brush Shape. Journal of Computer-aided Design & Computer Graphics, 2005; 17(2): 334-340.
Lu J P. Key components and peel leaf mechanism research on small cane peel leaf machine. PhD dissertation. Nanning: Guangxi University, 1998.
Wang Y. A study of fatigue life and subjunctive experimentation terrace on the sugarcane leaves clearing components. PhD dissertation. Nanning: Guangxi University, 2001, 5. 118 p.
Wang G J, Qiao Y H, Lv Y. Study on sugarcane detrashing mechanism of the rhombus detrashing element and the nylon detrashing brush element. Journal of Shandong Agricultural University (natural science edition), 2007; 38(3): 461-464.
Su W G, Li S P, Wang Y, Zheng G P. A testing study on nonlinear arrangement of sugarcane cleaning components. Journal of Guangxi University: Nat Sci Ed, 2001; 26(4): 278-282.
Meng Y M, Li S P, Liu Z S, Ma F L, Lin F, Chen W X. Research on mechanism of nonlinear arrangement of sugarcane cleaning element in brush shape. Journal of Agricultural Machinery, 2003; 34(5): 50- 53.
Ma F L, Li S P, He Y L, Meng Y M, Liang S. Performance analysis on cleaning element of sugarcane harvester based on neural network. Journal of Agricultural Machinery, 2006; 37(7): 69-73.
Yang J, Huang L L, Yang W, Yao Z X, Mo J L. Experiment on the factors affecting the detrashing quality of the straight and bending sugarcane. Transactions of the CSAE, 2009; 25(4): 123-129.
Zhang Z X. The research on mechanism of shell leaf machine with comb brush. PhD dissertation. Guangzhou: South China Agricultural University, 2002, 4. 144 p.
Mou X W, Ou Y G, Liu Q T, Wu H, Song J M. Elastic dentation roller type sugarcane leaf-stripping device. Journal of Agricultural Machinery, 2012; 4: 60-65.
Ang C L, Ou Y G. Research situation and prospect of virtual prototyping on sugarcane harvester. Journal of Agricultural Mechanization Research, 2011; 7: 225-228, 232.
Wang K, Yang X M. The overview of virtual prototyping technology. New Technology & New Process, 2008; 3: 29-33.
Liu Q T, Ou Y G, Qing S L, Chen H B. Compressive or torsion load induced failure of sugarcane stalks, CIGR International Conference, 2004; Beijing.
Sun X H, Liang S, Hu S S. The simulation technology based on small-scale sugarcane harvester. Journal of Machinery Design & Manufacture, 2005; 7: 62- 64.
Liu D M, Li S P, Liu B. The simulation analysis of the flexible sugarcane with boundary element method. Journal of Agricultural Mechanization Research, 2008; 7: 51-53.
Gao J M, Ou Y G. Theoretical study on spiral sugarcane-lifting mechanism of sugarcane harvester and virtual prototype simulation. Transactions of the CSAE, 2004; 20(3): 1-5.
Gao J M, Ou Y G, Song C H. Study on virtual prototype of spiral sugarcane-lifting organ based on physical model. Journal of Agricultural Machinery, 2005; 36(3): 57-59, 70.
Pu Mi H, Wu J. Study on flexible sugarcane modeling based on ADAMS software. Journal of System Simulation, 2009; 21(7): 1932- 1932.
Cai C H, Li S P. The sugarcane harvester virtual design platform based on PDM and ideas integration solutions. Mechanical Design and Manufacturing, 2003; 6: 31-32.
Meng Y M, Li S P, Liu Z S. Research on Integration Frame of Visual Virtual Design for Sugarcane Harvester. Journal of China's Manufacturing Industry Informatization, 2003; 32(6): 93- 95.
Deng J L, Li S P, Liang S. Application of conceptual design on the key parts’ innovation of sugar cane harvester. Chinese Journal of Mechanical Engineering, 2004; 8: 717-720.
Deng J L, Li S P, Liang S. Conceptual design and innovation on holding device of sugar cane harvester. Journal of Agricultural Machinery, 2003; 34(6): 58-61.
Deng J L, Li S P, Meng Y M, Wang X C. The conceptual design of small sugarcane combine harvester under virtual design environment. Journal of Machinery Design & Manufacture, 2003; 20(3): 25-28.
Deng J L, Li S P, Wang X C. The holding process simulation research of sugarcane harvester. Journal of Guangxi University: Nat Sci Ed, 2002; 27(2): 109-113.
Deng J L, Li S P. The simulation research on the processing of lodging situation sugarcane. Yang Jiaqiang. Journal of Machinery Design & Manufacture, 2003; 2: 26-28.
Zhang Y, Ou Y G, Mou X W. Virtual test on the finger-chain type sugarcane-lifter based on ADAMS. Transactions of the CSAE, 2009; 25(7): 88-93.
Lin M, Li Y, Liang D, Lv Y. Research on kinematics simulation test of sugarcane cutter. Journal of Agricultural Machinery, 2008; 23: 89- 91.
Lv Y, Yang J, Liang Z. Simulative kinematics analysis on the affecting factors of rate of broken biennial root of single base cutter of sugarcane harvester. Journal of Agricultural Machinery, 2008; 39(4): 50- 55.
Liu Q T, Ou Y G, Qing S L, Wang W Z. Virtual prototype study on single disc base-cutter of sugarcane harvester. Journal of Agricultural Machinery, 2007; 38(8): 78-81.
Zhao B, Chen G J, Yuan C S. A Model study of a mono-blade sugarcane cutter. Journal of Agricultural Equipment & Technology, 2006; 32(1): 45- 46.
Chan L, Liang S, Huang R, Song R R. The trends analysis of the small sugarcane harvester gantry device based on ADAMS. Journal of Mechanical Research & Application, 2006; 19(6): 41- 43.
Li Y T, Li S P, Song R R. The dynamic analysis of the uplift device in the mini-type sugarcane harvester. Journal of Agricultural Mechanization Research, 2007; 4: 24- 27.
Hu Y C, Li S P, Chen S X. Modal analysis and design optimization for virtual prototyping of uplift device of a sugarcane harvester. Journal of Computer-aided Design & Computer Graphics, 2006; 18(8): 1281- 1285.
Hu Y C, Li S P, Shi G L. Study on optimization design of uplift of sugarcane harvester based on virtual prototype technology. Journal of Machinery Design & Manufacture, 2007; 3: 14-16.
Zhang Y P, Shen W L, Hou Z X, Liu L W. Dynamic analysis of the main frame of sugarcane cleaner. Journal of Changsha Traffic University, 2001; 4: 13-17.
Zhang C S, Meng Y M, Li S P, Yuan H Y. Dynamic simulation analysis for the force of the leaf cleaning element of sugarcane cleaner. Journal of Agricultural Mechanization Research, 2005; 1: 78-81.
Pu M H, Xu X C, Liu X J. Realization of the technology of the virtual prototyping and application to design and simulate in the small-scale sugar cane harvester transportation module. Journal of Guangxi University: Nat Sci Ed, 2005; 30(4): 297-301.
Pu M H, Liu X J, Xu X C. Design and simulation analysis of feeding mechanism in mini-type sugarcane harvester. Journal of Agricultural Mechanization Research, 2006; 4: 101-104.
Meng Y M, Liu Z S, Li S P. Virtual experiment analysis of a brush shape of cleaning element for sugarcane harvester. Journal of Agricultural Machinery, 2003; 34(4): 43-46.
Ma F L. Virtual experimental analysis on the cleaning element in brush shape of the sugarcane harvester. Master Dissertation. Nanning: Guang Xi University, 2002, 5. 82 p.
Meng Y M, Chen Y L, Li S P. Research on the orthogonal experiment of numeric simulation of macromolecule-cleaning element for sugarcane harvester. Materials and Design, 2009; 30: 2250-2258.
Chen Y J, Yang J, Huang L L, Liang Z X, Mo J L. Research on the sugarcane-soil system simulation model. Journal of Agricultural Mechanization Research, 2009; 31(3): 134-136.
Deng J L, Yao R Q, Li S P. Study on development of productive cane sugar harvester base on virtual prototype technology. Journal of light industrial machinery, 2006; 4: 40-43.
Du J P, Li S P, Jiang L B. Research on Intelligent design system for sugarcane harvester based on knowledge. Journal of Mechanical Engineering & Automation, 2006; 4: 8-10.
Hu S S, Li S P, Sun X H. The method’s research of kinematics kinetic and dynamic emulation analysis in virtual prototyping of mini type sugarcane harvester. Journal of Agricultural Mechanization Research, 2006; 3: 76-80.
Huang N, Li S P, Lin Q Y. Kinematics simulation analysis in the stepped system of wheel small-scale sugarcane harvester based on virtual prototyping technique. Journal of Machinery Design & Manufacture, 2005; 8: 152-153.
Ji D W, Sun D P, Li S P, Ma F L. Kinematics of leak proof single disc base-cutter of sugarcane harvester. Journal of Agricultural Mechanization Research, 2008; 3: 24-27.
Jiang S J, Chen W X, Li S P. Discussion on the modeling and simulation of virtual prototype for the crawler chassis of small scale sugarcane harvester service vehicle. Journal of Equipment Manufacturing Technology, 2006; 3:47-49.
Pu M H, Zeng Z Q, Liu X J. The programme study and virtual prototyping simulation analysis of mini-type sugarcane harvester. Journal of Agricultural Mechanization Research, 2007; 4: 20-23.
Pu M H, Ning J H, Liu Y T, Zeng Z Q. Modeling and simulating research for chain transmission based on MSC. ADAMS. Journal of Guangxi University: Nat Sci Ed, 2007; 32( 1): 60-64.
Ou Y G, Yang D T, Li B X. The mode and technical equipment mechanization of sugarcane production our country is discussed. The national sugar cane production mechanization and industrial seminar & sugarcane mechanization production field performance. Nanning, Guangxi. 2002-12-27.
Deng G R. Implementation of cane-leaf returning technology to promote sugarcane production sustainable development. Tropical Agricultural Engineering, 1999; 3: 17-19.
Li M, Deng G R, Liang D. Current situation and the problem study on sugarcane production machinery in our country. Rural Mechanization, 1999; 5:15.
] Liang Z X. Discussion about the development states of mechanization in cane production. Chinese Agricultural Mechanization, 2003; 2: 14-18.
Liang D. The present situation and the countermeasures on sugarcane harvester in our country. Tropical Agricultural Engineering, 1997; 2: 4-6.
Liang D, Li M, Deng G R. The promotion of full mechanization on the sugarcane production. Transactions of the Chinese Society for Agricultural Machinery, 2002; 3: 134-136.
Huang Y, Wei C K, Lu L W. The analysis on extension and application of sugarcane harvesting mechanization technology in Nanning. Journal of Guangxi Agricultural Mechanization, 2009; 4: 4-5.
Liao Q, Wei G P, Liu B, Chen G F, Huang D L, Li Y R. Effects of mechanized deep ploughing and scarification cultivation technology on growth and yield of sugarcane. Guangxi Agricultural Sciences, 2010; 41(6): 542-544.
Zhang H, Luo J, Liao P W. Sugarcane mechanization cost analysis and the establishment of a profit evaluation model. Chinese Journal of Tropical Crops, 2010; 10: 1669-1673.
The Evaluation Group, the College of Polytechnic, South China Agricultural University, P R China, Professor Stephen Herbert, University of Massachusette USA, Analysis Report on Sugarcane Mechanization at Guang Qian, October, 2000.
Zhang Y L. Practicing and Simulative Research on Sugarcane Mechanization Test in Guangqian Company (Master thesis), 2000.
Chen F, Luo G S, Deng W W, Liang J X, Chen C P, Zhu Z H. The trial practice of sugarcane mechanization in Zhanjiang agricultural reclamation Huahai. 2010 International Agricultural Engineering Conference, 2011; 11: 440-444.
Ou Y G, Yang D T. Experience and economic analysis of sugarcane mechanization in Guang Qian Farm in china. International Conference on Agricultural Engineering (99-ICAE), Beijing, P R China. December 14-17, 1999.
Hunt D R. Engineering Models for Agricultural Production. 1986. Washington: the Avi Publishing Co., p64-81
Huang X W, Lin H H, Zhu H Y. The mechanical equipment supporting technology on sugarcane mechanization production test demonstration base. Agricultural Machination, 2008; 27: 46-47.
Zhang h, Shen S, Luo J, Chen R K. Thinking about our country sugarcane mechanization harvesting. Journal of Agricultural Machinery, 2009; 4: 15-16, 33.
Liang T, Chen Y Z, Wang W Z, Luo Y W, Tang G Q. Sugarcane mechanization harvesting present situation and countermeasure of now. Generation of agricultural science and technology, 2010; 11: 85-87.
Zhang Y F, Ye C X. Sugarcane harvester development countermeasures in our country. Friends of the peasant, 2010; 8: 47-48, 88.
Huang L L. The experimental research on influence factors on working quality of sugarcane leaf striper. Master thesis. Nanning: Guangxi University, 2008, 70 p.
Liu W X. The current situation analysis and development trend of cane production mechanization application in Guangxi. Guangxi Agricultural Mechanization, 2008; 6: 25-26.
Liao P W, Zhang H, Luo J, Guo W, Huang Z H. Study on the Status of Sugarcane Harvest Mechanization in China. Journal of Agricultural Mechanization Research, 2011; 3: 26-29.
Wang X M, Mo J L. Economical efficiency analysis of the application of the sectional type sugarcane harvesting system. Journal of Agricultural Mechanization Research, 2011; 9: 49-52.
Yu P X, Yang D T, Ou Y G. The scheming study for sugarcane mechanized harvesting and transportation. Journal of Agricultural Mechanization Research, 2007; 3: 12-14.
Bai R P. Some thought about study on model. The China Farm Machinery Newsletter, 2012-08-27.
Yao W. The development model research and discussion of sugarcane harvester mechanization in Guangxi. The sixth member representative assembly and 2010 academic conference on agricultural machinery in Guangxi, Nanning: Guangxi Agricultural Machinery Association, 2010; 131 p.
Li R D, Zhang Y B, Yang D T, Ou Y G, Guo J W. Study on development potential of full mechanization in diversity terrain of Yunnan sugarcane region. Journal of Agricultural Mechanization Research, 2012; 4: 71-74, 51.
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