Effect of Moisture Content and Loading Rate on Mechanical Strength of Brown Rice Varieties
The effect of moisture content and loading rate on
mechanical strength of 12 brown rice grain varieties was determined.
The results showed that the rupture force of brown rice grain
decreased by increasing the moisture content and loading rate. The
highest rupture force values was obtained at the moisture content of
8% (w.b.) and loading rate of 10 mm/min; while the lowest rupture
force corresponded to the moisture content of 14% (w.b.) and loading
rate of 15 mm/min. The 12 varieties were divided into three groups,
namely local short grain varieties, local long grain varieties and
improved long grain varieties. It was observed that the rupture
strength of the three groups were statistically different from each
other (P<0.01). It was revealed that the brown rice rupture at lower
levels of moisture content was in the form of sudden failure with less
deformation; while at higher levels of moisture content the grain
rupture was in the form of gradually crushing with more deformation.
[1] FAO, "Rice production," http://faostat.fao.org. 2007.
[2] T.J. Siebenmorgen, "Role of moisture content in affecting head rice
yield," Rice Sci. Tech., vol. 15, pp. 341-380, 1994.
[3] Y.B. Li, C.W. Cao, Q.L. Yu, and Q.X. Zhong, "Study on rough rice
fissuring during intermittent drying," J. Drying Tech., vol. 17, no. 9, pp.
1779-1793, 1999.
[4] G.F. Kamst, C. Bonazzi, J. Vasseur and J.J. Bimbenet, "Effect of
deformation rate and moisture content on the mechanical properties of
rice grains," Trans. ASAE., vol. 45, no. 1, pp. 145-151, 2002.
[5] Y.S. Kang, C.K. Spillman, J.L. Steele and D.S. Chung, "Mechanical
properties of wheat," Trans. ASAE., vol. 38, no.2, pp. 573-578, 1995.
[6] P.C. Bargale, J. Irudayaraj and M. Bruno, "Studies on rheological
behavior of canola and wheat," J. Agric. Eng. Res., vol. 61, no. 4, pp.
267-274, 1995.
[7] K.K. Singh and T.K. Goswami, "Mechanical properties of cumin seed
under compressive loading," J. Food Eng. Vol. 36, no. 3, pp. 311-321,
1998.
[8] R.K. Gupta and S.K. Das, "Fracture resistance of sunflower seed and
kernel to compressive loading," J. Food Eng. Vol. 46, pp. 1-8, 2000.
[9] L.O. Ogunjimi, N.A. Aviara and O.A. Aregbesola, "Some engineering
properties of locust bean seed," J. Food Eng. Vol. 55, no. 2, pp.95-99,
2002.
[10] M.H. Saiedirad, A. Tabatabaeefar, A. Borghei, M. Mirsalehi, F. Badii
and M Ghasemi Varnamkhasti, "Effects of moisture content, seed size,
loading rate and seed orientation on force and energy required for
fracturing cumin seed (Cuminum cyminum Linn.) under quasi-static
loading," J. Food Eng. Vol. 86, pp. 565-572, 2008.
[11] A. Gorji, A. Rajabipour and H. Tavakoli, "Fracture resistance of wheat
grain as a function of moisture content, loading rate and grain
orientation," AJCS vol. 4, no. 6, pp. 448-452, 2010.
[12] H. Zareiforoush, M.H. Komarizadeh and M.R. Alizadeh, "Effects of
crop-machine variables on paddy grain damage during handling with an
inclined screw auger," Biosyst. Eng. Vol. 106, no.3, pp. 234-242, 2010.
[13] R.K. Jain and S. Bal, "Properties of pearl millet," J. Agric. Eng. Res.
Vol. 66, pp.85-91, pp. 1997.
[14] N.N. Mohsenin, "Physical properties of plant and animal materials," 2nd
ed. New York: Gordon and Breach Science Publishers, 1986.
[15] E. Altuntas and M. Yildiz, "Effect of moisture content on some physical
and mechanical properties of faba bean (Vicia faba L.) grains," J. Food
Eng., vol. 78, pp. 174-183, 2007.
[16] M. Konak, K. Carman and C. Aydin, "Physical properties of chick pea
seeds," Biosyst. Eng. Vol.82, no. 1, pp.73-78, 2002.
[17] R.M. Paulsen, "Fracture resistance of soybeans to compressive loading,"
Trans. ASAE. vol. 21, no. 6, pp. 1210-1216, 1978.
[18] M. Liu, K. Haghighi, R.L. Stroshine and E.C. Ting, "Mechanical
properties of the soybean cotyledon and failure strength of soybean
kernels," Trans. ASAE. vol. 33, no. 2, pp. 559-566, 1990.
[19] G.C. Zoerb, "Instrumentation and measurement techniques for
determining physical properties of farm products," Trans. ASAE. vol.
10, no. 1, pp. 100-113, 1967
[1] FAO, "Rice production," http://faostat.fao.org. 2007.
[2] T.J. Siebenmorgen, "Role of moisture content in affecting head rice
yield," Rice Sci. Tech., vol. 15, pp. 341-380, 1994.
[3] Y.B. Li, C.W. Cao, Q.L. Yu, and Q.X. Zhong, "Study on rough rice
fissuring during intermittent drying," J. Drying Tech., vol. 17, no. 9, pp.
1779-1793, 1999.
[4] G.F. Kamst, C. Bonazzi, J. Vasseur and J.J. Bimbenet, "Effect of
deformation rate and moisture content on the mechanical properties of
rice grains," Trans. ASAE., vol. 45, no. 1, pp. 145-151, 2002.
[5] Y.S. Kang, C.K. Spillman, J.L. Steele and D.S. Chung, "Mechanical
properties of wheat," Trans. ASAE., vol. 38, no.2, pp. 573-578, 1995.
[6] P.C. Bargale, J. Irudayaraj and M. Bruno, "Studies on rheological
behavior of canola and wheat," J. Agric. Eng. Res., vol. 61, no. 4, pp.
267-274, 1995.
[7] K.K. Singh and T.K. Goswami, "Mechanical properties of cumin seed
under compressive loading," J. Food Eng. Vol. 36, no. 3, pp. 311-321,
1998.
[8] R.K. Gupta and S.K. Das, "Fracture resistance of sunflower seed and
kernel to compressive loading," J. Food Eng. Vol. 46, pp. 1-8, 2000.
[9] L.O. Ogunjimi, N.A. Aviara and O.A. Aregbesola, "Some engineering
properties of locust bean seed," J. Food Eng. Vol. 55, no. 2, pp.95-99,
2002.
[10] M.H. Saiedirad, A. Tabatabaeefar, A. Borghei, M. Mirsalehi, F. Badii
and M Ghasemi Varnamkhasti, "Effects of moisture content, seed size,
loading rate and seed orientation on force and energy required for
fracturing cumin seed (Cuminum cyminum Linn.) under quasi-static
loading," J. Food Eng. Vol. 86, pp. 565-572, 2008.
[11] A. Gorji, A. Rajabipour and H. Tavakoli, "Fracture resistance of wheat
grain as a function of moisture content, loading rate and grain
orientation," AJCS vol. 4, no. 6, pp. 448-452, 2010.
[12] H. Zareiforoush, M.H. Komarizadeh and M.R. Alizadeh, "Effects of
crop-machine variables on paddy grain damage during handling with an
inclined screw auger," Biosyst. Eng. Vol. 106, no.3, pp. 234-242, 2010.
[13] R.K. Jain and S. Bal, "Properties of pearl millet," J. Agric. Eng. Res.
Vol. 66, pp.85-91, pp. 1997.
[14] N.N. Mohsenin, "Physical properties of plant and animal materials," 2nd
ed. New York: Gordon and Breach Science Publishers, 1986.
[15] E. Altuntas and M. Yildiz, "Effect of moisture content on some physical
and mechanical properties of faba bean (Vicia faba L.) grains," J. Food
Eng., vol. 78, pp. 174-183, 2007.
[16] M. Konak, K. Carman and C. Aydin, "Physical properties of chick pea
seeds," Biosyst. Eng. Vol.82, no. 1, pp.73-78, 2002.
[17] R.M. Paulsen, "Fracture resistance of soybeans to compressive loading,"
Trans. ASAE. vol. 21, no. 6, pp. 1210-1216, 1978.
[18] M. Liu, K. Haghighi, R.L. Stroshine and E.C. Ting, "Mechanical
properties of the soybean cotyledon and failure strength of soybean
kernels," Trans. ASAE. vol. 33, no. 2, pp. 559-566, 1990.
[19] G.C. Zoerb, "Instrumentation and measurement techniques for
determining physical properties of farm products," Trans. ASAE. vol.
10, no. 1, pp. 100-113, 1967
@article{"International Journal of Biological, Life and Agricultural Sciences:60776", author = "I. Bagheri and M.B. Dehpour", title = "Effect of Moisture Content and Loading Rate on Mechanical Strength of Brown Rice Varieties", abstract = "The effect of moisture content and loading rate on
mechanical strength of 12 brown rice grain varieties was determined.
The results showed that the rupture force of brown rice grain
decreased by increasing the moisture content and loading rate. The
highest rupture force values was obtained at the moisture content of
8% (w.b.) and loading rate of 10 mm/min; while the lowest rupture
force corresponded to the moisture content of 14% (w.b.) and loading
rate of 15 mm/min. The 12 varieties were divided into three groups,
namely local short grain varieties, local long grain varieties and
improved long grain varieties. It was observed that the rupture
strength of the three groups were statistically different from each
other (P", keywords = "Brown rice, loading rate, moisture content, ruptureforce", volume = "5", number = "11", pages = "790-7", }
