REFERENCES
- Abbott, J.A.; Bachman, G.S.; Childers, N.F.; Fiztgerald, J.V.; Matusik, F.J. Sonic Techniques for Measuring Texture of Fruit and Vegetables. Food Technology 1968, 22, 635–645.
- Wang, J.; Sheng, K.C. Variations in Firmness and Sugar Content in “Huanghua” Pear (Pyrus Pyrifolia “Nakai”). Journal of Horticultural Science and Biotechnology 2005, 80 (3), 307–312.
- Sitkei, G. Mechanics of Agricultural Materials; Elsevier Science Publisher: Budapest, Hungary, 1986.
- Cardenas, W.M.; Stroshine, R.L. Melon Material Properties and Finite Element Analysis of Melon Compression with Application to Robot Gripping. Trans of ASAE 1991, 34 (3), 920–929.
- Gunay, D. Muhendisler Için Sonlu Elemanlar Metodunun Temelleri (Basic of Finite Element Methods for Engineer); Sakarya University Publish: Sakarya, Turkey, No: 003, Turkish Translation From B. Nath, 1993.
- Chen, H.; De Baerdemaeker, J. Finite-Element-Based Modal Analysis of Fruit Firmness. Trans of ASAE 1993, 36 (6), 1827–1833.
- Lu, R.; Abbott, J.A. Finite Element Modeling of Transient Responses of Apples to Impulse Excitation. Trans of ASAE 1997, 40 (2), 1395–1406.
- Verstreken, E.; De Baerdemaeker, J. Evolution of Maturity of Peaches: Non-Destructive Firmness Measurement from the Acoustic Impulse Response. International Agrophysics 1994, 8, 469–473.
- Chen, H.; De Baerdemaeker, J.; Bellon, V. Finite Element Study of the Melon for Nondestructive Sensing of Firmness. Trans of ASAE 1996, 39 (3), 1057–1065.
- Langenakens, J.; Vandewalle, X.; De Baerdemaeker, J. Influence of Global Shape and Internal Structure of Tomatoes on the Resonant Frequency. Journal of Agricultural Engineering Research 1997, 66 (1), 41–49.
- Asae Standard. Moisture Measurement Grains and Seeds; Agricultural Engineers Years Book. American Society of Agricultural Engineers: St Joseph, MI, 1982.
- Asae Standard. Compression Test of Food Materials of Convex Shape in; ASAE Standards 452, American Society of Agricultural Engineers: St Joseph, MI, 1993.
- Mohsenin, N.N. Physical Properties of Plant and Animal Materials; Gordon and Breach Science Publisher: New York, NY, 1980.
- Braga, G.C.; Couto, S.M.; Hara, T.; Neto, J.T.P. Mechanical Behaviour of Macadamia Nut under Compression Loading. Journal of Agricultural Engineering Research 1999, 72, 239–245.
- Cosmosworks Professional. Training Manuel. Doc Number: PMT0086-ENG, Solidworks Corp., USA, 2006.
- Horsfield, B.C.; Fridley, R.B.; Claypool, L.L. Application of Theory of Elasticity to the Design of Fruit Harvesting and Handling Equipment for Minimum Bruising. Trans of ASAE 1972, 15 (4), 746–750.
- Zohrabi, S.; Seiiedlou, S.; Alipasandi, A. Study Some Physical and Mechanical Properties of Three Cultivars of Peach in Maturation Stages. World of Sciences Journal 2013, 4, 108–117.
- Kabas, O.; Celik, H.K.; Ozmerzi, A.; Akinci, I. Drop Test Simulation of a Sample Tomato with Finite Element Method. Journal of the Science of Food and Agriculture 2008, 88, 1537–1541.
- Walter, D. Formulars for Stress, Strain, and Structural Matrices; John Wiley and Sons Inc.: Michigan, 1994.
- Kim, G.W.; Kim, M.S.; Sagara, Y.; Bae, Y.; Lee, I.-B.; Do, G.S.; Lee, S.H.; Kang, S. Determination of the Viscoelastic Properties of Apple Flesh under Quasi-Static Compression Based on Finite Element Method Optimization. Food Science and Technology Research 2008, 14, 221–231.
- Celik, H.K.; Kabas, O.; Topakci, M.; Ozmerzi, A.; Akinci, I. Deformation Behavior Simulation of a Sample Apple under the Impact Effect with Finite Elements Method, 10th International Congress on Mechanization and Energy in Agriculture, Oct 14–17, 2008; Antalya, Türkiye, 893–897.
- Khodabakhshian, R.; Emadi, B. Development of a Finite Element Method Model to Determine Mechanical Behavior of Pumpkin Seed. International Journal of Food Properties 2015, 18, 231–240.