使用流变塑性模型来描述非常规巧克力块的流动行为

IF 1.2 4区农林科学 Q4 FOOD SCIENCE & TECHNOLOGY

Czech Journal of Food Sciences Pub Date : 2022-08-17 DOI:10.17221/57/2022-cjfs

Veronika Kouřilová, R. Dufková, L. Hrivna, V. Kumbár

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引用次数: 0

摘要

巧克力质量表现为典型的非牛顿塑性液体，由屈服应力和塑性剪切应力定义。采用锥板主轴系统的旋转流变仪测定了巧克力块的流动特性。在40°C的温度下，对巧克力样品[白巧克力(WC)、红宝石巧克力(RC)和焦糖琥珀巧克力(AC)]，以从1 s-1到500 s-1的递增模式测量了剪切应力对剪切变形率的影响。根据卡森、宾汉姆和赫歇尔-巴尔克利的说法，塑料模型被用于对这种依赖性的数学描述。Herschel-Bulkley模型被评价为最适合描述非常规巧克力块流动行为的数学模型。选择Herschel-Bulkley模型时，考虑到决定系数R2值较大，误差估计平方和(SSE)值较小。证实了非牛顿塑性行为，并确定了所有类型的测试巧克力块的屈服应力。

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Use of rheological plastic models to describe the flow behaviour of unconventional chocolate masses

The chocolate mass behaves like a typical non-Newtonian plastic liquid defined by the yield stress and the plastic shear stress. The rotary rheometer with a cone-plate spindle system was chosen to determine the flow properties of chocolate masses. The effect of shear stress on shear deformation rates was measured at a temperature of 40 °C in an ascending mode from 1 s–1 to 500 s–1 for chocolate samples [white chocolate (WC), ruby chocolate (RC), and caramelised Amber chocolate (AC)]. Plastic models, according to Casson, Bingham and Herschel-Bulkley, were used for the mathematical description of this dependence. The Herschel-Bulkley model was evaluated as the most suitable mathematical model for describing the flow behaviour of unconventional chocolate masses. The Herschel-Bulkley model was chosen based on a high value of the coefficient of determination R2 and a low value of the sum of the square error estimate (SSE). The non-Newtonian plastic behaviour was confirmed, and the yield stress was determined for all types of tested chocolate masses.

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来源期刊

Czech Journal of Food Sciences Food Science & Technology, Chemistry-食品科技

CiteScore

2.60

自引率

0.00%

发文量

审稿时长

7 months

期刊介绍： Original research, critical review articles, and short communications dealing with food technology and processing (including food biochemistry, mikrobiology, analyse, engineering, nutrition and economy). Papers are published in English.