Andrews, 1993, Effects of combine operating parameters on harvest loss and quality in rice, Agric. Mech. Asia Afr. Lat. Am., 36, 1599
Berger, 2002
Chuan-Udom, 2011
Chuan-Udom, 2013, Operating factors of Thai threshers affecting corn shelling losses, Songklanakarin J. Sci. Technol., 35, 63
Chuan-Udom, 2009, Effects of concave rod clearance and number of concave bars on threshing performance of a axial flow rice threshing unit for Chainat 1 variety, KKU Res. J., 14, 1037
Chinsuwan, 2003, Effects of threshing bar inclination and clearance between concave rod on performance of axial flow rice thresher, Thai Soc. Agric. Eng. J., 10, 15
Department of Agriculture, 1996
Economic and Social Commission for Asia and the Pacific Regional Network for Agricultural Machinery, 1995
Farjam, 2014, A neural network based modeling and sensitivity analysis of energy inputs for predicting seed and grain corn yields, J. Agric. Sci. Technol., 16, 767
Gummert, 1992, Performance evaluation of an IRRI axial-flow paddy thresher, Agric. Mech. Asia Afr. Lat. Am., 23, 47
Kunjara, 1998, Testing and evaluation of locally-made maize sheller, J. Natl. Res. Counc. Thail., 20, 41
Mahmoud, 1975, Distribution of shelled corn throughput and mechanical damage in a combine cylinder, Am. Soc. Agric. Eng., 1, 448, 10.13031/2013.36608
Rostami, 2009, Design, development and evaluation of a peanut sheller, Agric. Mech. Asia Afr. Lat. Am., 40, 47
Saeng-Ong, 2015, Effects of guide vane inclination in axial shelling unit on corn shelling performance, Kasetsart J. Nat. Sci., 49, 761
Singhal, 1987, Development of an axial-flow thresher with multi-crop potential, Agric. Mech. Asia Afr. Lat. Am., 18, 55
Simonyan, 2009, Development of motorized stationary sorghum thresher, Agric. Mech. Asia Afr. Lat. Am., 40, 47