References
- Jha, S.N.; Prasad, S. Physical and Thermal Properties of Gorgon Nut. Journal of Food Process Engineering 1993, 16, 237–245.
- Jha, S.N.; Prasad, S. Makhana Processing. Agricultural Engineering Today 1990, 16(34),19–22.
- Jha, S.N.; Kachru, R.P. Physical and Aerodynamic Properties of Makhana. Journal of Food Process Engineering 1998, 21, 301–316.
- Bilgrami, K.S.; Sinha, K.K.; Singh, A. Chemical Changes in Dry Fruits During Aflatoxin Elaboration by Aspergillus Flavus L. Current Science 1983, 52(20), 960–964.
- Jha, V.; Barat, G.K.; Jha, U.N.A. Nutritional Evaluation of Euryale Ferox Salisb (Makhana). Journal of Food Science and Technology 1991, 8(5), 326–328.
- Nath, B.K.; Chakraborty, A.K. Studies on the Amino Acid Composition of the Seeds of Euryale Ferox a. Salisbery. Journal of Food Science and Technology 1985, 22, 293.
- Ogunjimi, L.A.O.; Aviara, N.A.; Aregbesola, O.A. Some Engineering Properties of Locust Bean Seed. Journal of Food Engineering 2002, 55, 95–99.
- Baryeh, E.A.; Mangope, B.K. Some Physical Properties of QP-38 Variety Pigeon Pea. Journal of Food Engineering 2002, 56, 59–65.
- O¨zarslan, C. Physical Properties of Cotton Seed. Biosystems Engineering 2002, 83, 169–174.
- Konak, M.C.; Arman, K.; Aydin, C. Physical Properties of Chick Pea Seeds. Biosystems Engineering 2002, 82, 73–78.
- Omobuwajo, T.O.; Omobuwajo, O.R.; Sanni, L.A. Physical Properties of Calabasch Nutmeg (Monodora Myristica) Seeds. Journal of Food Engineering 2003, 57, 375–381.
- Altuntas, E.; Ozgoz, E.; Taser, F. Some Physical Properties of Fenugreek (Trigonella Foenum-Graceum L.) Seeds. Journal of Food Engineering 2005, 71, 37–43.
- Coskuner, Y.; Karababa, E. Physical Properties of Coriander Seeds (Coriadrum Sativum L.). Journal of Food Engineering 2007, 80, 408–416.
- Davies, R.M. Some Physical Properties of Arigo Seeds. International Agrophysics 2010, 24, 89–92.
- Yurtlu, Y.B.; Yesiloglu, E.; Arslanoglu, F. Physical Properties of Bay Laurel Seeds. International Agrophysics 2010, 24, 325–328.
- Vursavus, K.; Ozguven F. Fracture Resistance of Pine Nut to Compressive Loading. Journal of Biosystems Engineering 2005, 90(2), 185–191.
- Vursavus, K.; Ozguven, F. Some Physical, Mechanical and Aerodynamic Properties of Pine (Pinus Pinea) Nuts. Journal of Food Engineering 2005, 68, 191–196.
- Mohsenin, N.N. Physical Properties of Plant and Animal Materials. Gordon and Breach Science Publishers: New York, NY, 1986.
- Alipasandi, A.; Zohrabi, S.; Seiiedlou, S. Study Some Physical and Mechanical Properties of Three Cultivars of Peach in Maturation Stages. World of Sciences Journal 2013, 1, 108–117.
- Jha, S.N. Physical and Hygroscopic Properties of Makhana. Journal of Agricultural Engineering 1999, 72, 145–150.
- Omobuwajo, T.O.; Akande, E.A.; Sanni, L.A. Selected Physical, Mechanical and Aerodynamic Properties of African Breadfruit (Treculia Africana) Seeds. Journal of Food Engineering 1999, 40, 241–146.
- Poulsen, G.R. Fracture Resistance of Soybeans to Compressive Loading. Transactions of the American Society of Agricultural Engineers 1978, 21, 1210–1216.
- Balasubramanian, S.; Viswanathan, R. Influence of Moisture Content on Physical Properties of Minor Millets. Journal of Food Science Technology 2010, 47(3), 279–284.
- Akcali, D.; Ince, A.; Guzel. Selected Physical Properties of Peanuts. International Journal of Food Properties 2006, 47(3), 25–37.
- Karababa, E.; Coskuner, Y. Moisture Dependent Physical Properties of Dry Sweet Corn Kernels. International Journal of Food Properties 2007, 9(1), 549–560.
- Koya, O.A.; Ogunsina, B.S.; Opeyemi O.O. Deformation and Dehulling of Sponge Gourd (Luffa Aegyptiaca) Seeds. International Journal of Food Properties 2011, 10, 432–440.