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References
|
Ainsworth P, Åženol Ä°banogˇlu, Emir AyÅŸe Özer, Andrew P (2006). Physical and sensory evaluation of a nutritionally balanced gluten-free extruded snack. J. Food Eng. 75(4):469-472. Crossref |
||||
|
Aylin A, Kathryn L, McCarthy, Medeni M (2008). Evaluation of snack foods from barley, tomato pomace blends by extrusion processing. J. Food Engine. 84(2):231-242. Crossref |
||||
| Anton Mais (Unpublished Results)(2003). Utilization of sweet potato starch, flour, and fiber in bread and biscuits: physico-chemical and nutritional characteristics. A thesis submitted in partial fulfillment of the requirements for the degree of Masters of technology in food technology, Massey University. | ||||
|
Arhaliass A, Bouvier JM, Legrand J (2003). Melt growth and shrinkage at the exit of the die in the extrusion cooking process. J. Food Eng. 60:185-192. Crossref |
||||
|
Artz WE, Warren CC, Villota R (1990). Twin screw extrusion modification of corn fiber and corn starch extruded blend. J. Food Sci. 55:746-750. Crossref |
||||
|
Baik B, Powers J, Nguyen L (2004). Extrusion of Regular and waxy Barley flours for Production of Expanded cereals. Cereal Chem. 81 (1):94-99. Crossref |
||||
|
Bhattacharya S, Prakash M (1994). Extrusion of blends of rice and chick pea flours: a response surface analysis. J. Food Eng. 21(3):315-330. Crossref |
||||
| Bildstein MO, Garcia J, Faraldi M, Colvine S (2009). Value-added for the European tomato processing industry. XI International Symposium on the Processing Toamto. Toronto, Canada. | ||||
|
Camire ME, King CC (1991). Protein and fiber supplementation effects on extruded cornmeal snack quality. J. Food Sci. 56(3):760-763. Crossref |
||||
| Caraban A, JâÅŸcanu V, Fodor A, Dehelean T, Stănăşel O (2005). The influence of some Food Additives on the hydrolysis reaction of starch with amylase from wheat flour. Acta Universitatis Cibiniensis Seria F. Chemia 8:69-74. | ||||
|
Ding QB, Paul A, Plunkett A, Tucker G, Marson H (2005). The effect of extrusion conditions on the functional and physical properties of wheat based expanded snacks. J. Food Eng. 73:142-148. Crossref |
||||
|
Duizer LM, Winger RJ (2006) Instrumental measures of bite forces associated with crisp products. J. Texture Stud. 37(1):1-15. Crossref |
||||
| Faubion JM, Hoseney RC (1982). High temperature short time extrusion cooking of wheat starch and flour: Effect of moisture and flour type on extrudate properties. Cereal Chem. 59 (6):529-533. | ||||
|
Fletcher SI, Richmond P, Smith AC (1985). An experimental study of twin screw extrusion cooking of maize grits. J. Food Eng. 4: 291-312. Crossref |
||||
| Greene JL, Bovell-Benjamin AC (2004). Microscopic and sensory evaluation of bread supplemented with sweet potato flour. J. Food Sci. 69 (4):167-173. | ||||
|
Gujral H, Singh N, Singh B (2001). Extrusion behavior of grits from flint and sweet corn. Food Chem. 74 (1):303-308. Crossref |
||||
|
Hoover R (2001). Composition, molecular structure, and physicochemcical properties of tuber and root starches: A review, Carbohydr. Polym. 45 (3):253-267. Crossre |
||||
| Ilo S, Liu Y, Berghofer E (1999). Extrusion cooking of rice flour and amaranth blends. Lebensmittel-Wissenschaft und Technologie 32: 79-88. | ||||
|
Jin Z, Hsieh F, Huff HE (1995). Effects of soy fiber, salt, sugar, and screw speed on physical properties and microstructure of corn meal extrudate. J. Cereal Sci. 22 (2):185-194. Crossref |
||||
| Kokini J, Chang C, Karwe M (1992). Food Extrusion Science and Technology (2nd ed.). Marcel Dekker Inc. New York, USA. pp. 631-635 | ||||
| Launay B, Lisch LM (1983). Twin screw extrusion cooking of starches: flow behaviour of starch pastes, expansion and mechanical properties of extrudates. J. Food Eng. 52:1746–1747. | ||||
| Lerrea MA, Chang YK, Martinez Bustos F (2005). Some functional properties of extruded orange pulp and its effect on the quality of cookies. Lebensmittel-Wissenschaft und Technologie 38: 213-220. | ||||
|
Lue Y, Hsieh F, Heymann H, Huff HE (2000). Effect of process conditions on the physical and sensory properties of extruded oat-corn puff. J. Food Sci. 65(7):1253-1259. Crossref |
||||
| Mercier C, Feillet P(1975). Modification of carbohydrate component by extrusion cooking of cereal product. Cereal Chem. 52: 283-297. | ||||
|
Mezreb K, Goullieux A, Ralainirina R, Queneudec M (2003). Application of image analysis to measure screw speed influence on physical properties of corn and wheat extrudates. J. Food Eng. 57(2):145-152. Crossref |
||||
| Montgomery DC (2001). Design and Analysis of Experiments (5th ed.).John Wiley & Sons, Inc, New York. pp. 427-500 | ||||
|
Moorthy SN (2002). Physicochemical and functional properties of tropical tuber starches: A review. Starch-Starke 54 (12): 559-592. Crossref |
||||
|
Moraru CI, Kokini JL (2003) Nucleation and expansion during extrusion and microwave heating of cereal foods. Compr. Rev. Food Sci. Food Saf. 2 (4):147-165. Crossref |
||||
| Moscicki L, Kozłowska H, Pokorny J, Zuilichem D (2003). Expander cooking of rapseed faba beans mixture. EJPAU, Agricultural Engineering 6(2). | ||||
| Onyango C, Noetzold H, Bley T, Henle T (2004). Proximate composition and digestibility of fermented and extruded uji from maize finger millet blend. Lebensmittel-Wissenschaft und Technologie 37:827-832. | ||||
|
Pelembe LAM, Erasmus C, Taylor JRN (2002). Development of a protein rich composite sorghum-cowpea instant porridge by extrusion cooking process. Lebensmitted-Wissenschaft Untersuchung Technology 35:120-127. Crossref |
||||
| Ranganna S (2003). Handbook of Analysis and Quality Control of Fruit and Vegetable Products (2nd Ed.). Tata McGraw Hill Publications. Co., New Delhi, India. pp. 497-528 | ||||
|
Ryu GH, Walker CE (1995). The effects of extrusion conditions on the physical properties of wheat flour extrudates. Starch 47 (1): 33–36. Crossref |
||||
|
Sebio L, Chang YK (2000). Effects of selected process parameters in extrusion of yam flour on physicochemical properties of extrudates. Nahrung 44(2):96-101. Crossref |
||||
|
Singh B, Sekhon KS, Singh N (2007). Effects of moisture, temperature and level of pea grits on extrusion behaviour and product characteristics of rice. Food Chem. 100 (1):198-202. Crossref |
||||
| Sogi DS, Kaur D, Wani AA, Oberoi DPS (1998). Effect of extraction conditions on lycopene extractions from tomato processing waste skin using response surface methodology. Food Chem. 108(2):711-718. | ||||
|
Sriburi P, Hill SE (2000). Extrusion of cassava starch with either variations in ascorbic acid concentration or pH. Int. J. Food Sci. Technol. 35:141-154. Crossref |
||||
|
Stojceska V, Ainsworth P, Andrew P, Esra I, Senol I (2008). Cauliflower by-products as a new source of dietary fibre, antioxidants and proteins in cereal based ready-to-eat expanded snacks. J. Food Eng. 87:554-563. Crossref |
||||
| Wanda CW (1987). Genetic improvement for meeting human nutrition needs. Quebedeaux, B and Bliss, F (editors). Proceedings of the first international symposium on horticulture and human nutrition, Contributor of fruits and vegetable, Prentice Hall. | ||||
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