Bastian. J., and B. Shridar, (2014). “Investigation on Mechanical Properties of Sugarcane Stalks for the Development of a Whole Cane Combine Harvester”, Indian journal of applied research, 4 (9), pp. 1-3.
Bosoi, E. S., et al. (1991). “Theory, Construction, and Calculation of Agriculture Machines”, Volume Two. A.A. Balkema/Rotterdam: pp. 323-347.
El-Nakib, A. A., et al. (1996). “Physical properties of sugar cane: their relation to mechanization. MSAE exploration of modem tech”, In field of Agric. Eng. 4th Conference of Misr Society of Ag. Eng., 28 October 13(4), pp. 63-78.
Drees, A. M. (2005). “A Study on Mechanization of Sugar Cane Planting, Fabricating a Seedling Preparation Unit and Performance Evaluation of Transplanting Machine for Sugar Cane Crop”, Ph.D. thesis Agric. Mech. Dept.
Taghinezhad, J., et al. (2012). “Effect of Sugarcane Stalks’ Cutting Orientation on Required Energy for Biomass Products”, Internatıonal Journal of Natural and Engineering Sciences 6 (3), pp. 47-53, 2012 ISSN: 1307-1149, E-ISSN: 2146-0086.
Samaila, S., et al. (2012). “Development of a Tool to Determine the Energy Required to Cut and Top Sugarcane”, AU J.T. 16(1), pp. 59-62.
Abdel-mawla, H. A., et al. (2014). “Field evaluation and crop conditions related to sugar cane mechanical harvesting”, Egypt. J. Agric. Res., 92(1), pp. 257-271.
Sureshkumar, P. K., and Jesudas, D. M. (2015). “physico-mechanical properties of sugar cane stalks related to mechanical harvesting”, Journal of Tropical Agriculture 53 (1), pp. 48-55.
Patil, M., and Patil, P. D. (2013). “Optimization of Blade Angle for Cutting System of Sugar Cane Harvester”, International Indexed & Refereed Research Journal, March, ISSN 0975-3486, E-ISSN- 2320-5482,
Quick, D. J. (1977). “Base cutting apparatus for sugar cane harvesters”, U.S. Patent No. 4,019,308.
Frazzetta, T. (1988). “The mechanics of cutting and the form of shark teeth (Chondrichthyes, Elasmobranchii)”, Zoomorph., 108(2), pp. 93-107.
Mello, R. D. C., and Harris, H. (2000). “Cane damage and mass losses for conventional and serrated base cutter blades”, Proc. Conf. Australian Soc. Sugar Cane Tech. (pp. 84-91). Bundaberg, Australia: PK Editorial Services Pty Ltd.
Mello, R. D. C., and Harris, H. (2003). “Performance of base cutter of sugarcane harvester with angled and serrated blades”, Revista Brasileira de Engenharia Agrícola e Ambiental, 7(2), pp. 355-358.
Mello, R. D. C. (2005). “Effect of blade shape and speed on cutting forces for sugar cane”, Acta Scientiarum: Agronomy 27, pp. 661-665 (in Portuguese, with abstract in English).
Liu, Q., et al. (2012). “Biomechanical properties of miscanthus stems”, Transactions of the ASABE 55, pp. 1125-1131.
Langton, M. I., and Paterson, J. W. S. (2004). “Alternative Sugarcane Harvesting Methods”, Final year design report, School of Bio-resources Engineering & Environmental Hydrology, University of KwaZulu-Natal, Pietermaritzburg, 121 p.
Das, F. C., and Gupta, C. P. (1972). “Cutting resistance of sugar cane stem”, Presented at the 10th annual meeting of the Indian Society of Agricultural Engineers at Jabalpur, India, 3-5 Feb.
Gupta, C., and Oduori, F. (1992). “Design of the revolving knife-type sugarcane base cutter”, Transactions of the ASABE, 35(6), pp. 1747-752.
Liu, Q., et al. (2007). “Stubble damage of sugarcane stalks in cutting tests by a smooth-edge blade”, Trans. Chinese Soc. Agric. Eng., 23(3), pp. 103-107.
Mathanker, S. K., et al. (2015). “Effect of blade oblique angle and cutting speed on cutting energy for energy cane stems”, Bio-systems Engineering 133, pp. 64–70.
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