Journal
JOURNAL OF FOOD ENGINEERING
Volume 294, Issue -, Pages -Publisher
ELSEVIER SCI LTD
DOI: 10.1016/j.jfoodeng.2020.110412
Keywords
Composition; Dough; Extrusion-based; Internal structure
Categories
Funding
- Robert T. Marshall Scholarship
- USDA National Institute of Food and Agriculture [2020-67030-31336]
- NASA [NNX12AO44G]
- National Science Foundation [EAR 1220051]
- NASA [NNX12AO44G, 12369] Funding Source: Federal RePORTER
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This study aimed to investigate the effects of composition and internal structure on the printability and baking stability of cookie dough, using an extrusion-based 3D printer. Results showed that pre-heating significantly increased printing pressures and yield stress values, which were positively correlated. The internal structure parameters A f and z values influenced the printing performance of the dough.
This work aimed to investigate the effects of composition and the internal structure of cookie doughs on its printability and baking stability using an extrusion-based three-dimensional (3D) printer. Two types of fat (butter/shortening) and three types of flour (wheat/rice/tapioca) were used, and pre-heating was included in the dough preparation step. The mechanical, thermal, and structural properties of cookie dough were measured. The yield stress values of doughs were between 4.48 and 315.70 Pa. Results showed that pre-heating increased both the yield stress values and printing pressures significantly and the two parameters were positively correlated (r = 0.985). The power-law model parameters represent the internal structure; A f and z values were in between 2303 and 20067 Pa*s(1/z )and 5.35-13.27, respectively. The creep-recovery analysis indicates that the Burgers model behavior is essential for complex 3D shape deposition. FTIR analysis illustrated that the vibrational properties of dough samples were significantly affected by the fat and flour types.
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