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Başlık: Geometric and mechanical properties of mung bean (vigna radiata l.) grain: Effect of moisture
Yazarlar: Uludağ Üniversitesi/Ziraat Fakültesi/Tarım Makinaları Bölümü.
Uludağ Üniversitesi/Teknik Bilimler Meslek Yüksekokulu/Makine ve Metal Teknolojileri Bölümü.
0000-0002-2084-4660
Işık, Eşref
İzli, Nazmi
Tekin, Yücel
Ünal, Halil İbrahim
AAH-4410-2021
R-7996-2016
J-3560-2012
55807866400
24477025400
15848516300
15064756600
Anahtar kelimeler: Food science & technology
Geometric and mechanical properties
Mung bean grain
Vigna radiata l.
Vigna radiata var. radiata
Agricultural products
Aluminum cladding
Arsenic compounds
Friction
Galvanizing
Grain (agricultural product)
Iron
Light metals
Mechanical properties
Moisture determination
Stainless steel
Angle of repose
Bulk density (BD)
Co-efficient of friction (COF)
Geometric mean (MG)
Glass sheets
Grain mass
Grain moisture content
Grain volume
Medium-density fibreboard (MDF)
Moisture content (MC)
Mung beans
Rupture force (RF)
Surface area (SA)
Terminal velocities
True density
Vigna radiata
Moisture
Physical-properties
Yayın Tarihi: 2008
Yayıncı: Taylor & Francis
Atıf: Ünal, H. İ. vd. (2008). ''Geometric and mechanical properties of mung bean (vigna radiata l.) grain: Effect of moisture''. International Journal of Food Properties, 11(3), 585-599.
Özet: In this research, selected geometric and mechanical properties of mung bean grain were evaluated as a function of moisture content. Five levels of moisture content ranging from 7.28 to 17.77% d.b. (dry basis) were used. The average length, width, thickness, arithmetic and geometric mean diameters, sphericity, thousand grain mass and angle of repose ranged from 5.145 to 6.199 mm, 3.760 to 4.474 mm, 3.537 to 4.223 mm, 4.147 to 4.965 mm, 4.090 to 4.893 mm, 0.795 to 0.789, 52.3 to 64.6 g, and 25.87 to 29.38 degrees as the moisture content increased from 7.28 to 17.77% d.b., respectively. The bulk density was found to be decreased from 821.3 to 745.2 kg/m(3), whereas the grain volume, true density, porosity, terminal velocity, and projected area were found to be increased from 27.88 to 47.33 mm3, 1230.0 to 1456.7 kg/m(3), 30.43 to 46.57%, 4.86 to 5.29 m/s, and 17.48 to 19.26 mm(2), respectively. There is a 43% increase in surface area from grain moisture content of 7.28 to 17.77% d.b. The static coefficient of friction on various surfaces increased linearly with the increase in moisture content. The rubber as a surface for sliding offered the maximum friction followed by galvanised iron, medium density fibreboard, stainless steel, aluminium and glass sheet. As moisture content increased from 7.28 to 17.77%, the rupture forces values ranged from 67.39 to 39.44 N; 63.86 to 42.18 N, and 53.96 to 41.79 N for thickness (Z axis), length (Y-axis) and width (X-axis), respectively.
URI: https://doi.org/10.1080/10942910701573024
https://www.tandfonline.com/doi/full/10.1080/10942910701573024
http://hdl.handle.net/11452/24902
ISSN: 1532-2386
1094-2912
Koleksiyonlarda Görünür:Scopus
Web of Science

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