Effect of Calcium Maltobionate on the Glass Transition Temperature of Model and Hand-made Hard Candies.

IF 1.2 Q4 BIOCHEMISTRY & MOLECULAR BIOLOGY Journal of applied glycoscience Pub Date : 2019-08-20 eCollection Date: 2019-01-01 DOI:10.5458/jag.jag.JAG-2019_0005
Kiyoshi Kawai, Iyo Uneyama, Savitree Ratanasumawong, Yoshio Hagura, Ken Fukami
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引用次数: 4

Abstract

Glass transition temperature (T g) is an important parameter for the physical quality control of hard candies. In order to understand the applicability of calcium maltobionate to hard candy, effect of calcium maltobionate addition on the T g of model and hand-made hard candies was investigated. Freeze-dried calcium maltobionate-sugar (sucrose containing a small amount of glucose-fructose mixture) and calcium maltobionate-reduced isomaltulose mixtures were prepared as model candies, and their anhydrous T g was evaluated using a differential scanning calorimetry. The anhydrous T g increased linearly with the molar fraction of calcium maltobionate. From these results, it was expected that calcium maltobionate can improve the physical stability of normal and sugarless candies. For comparison, various commercial candies were employed, and their T g was evaluated using a thermal rheological analysis. The T g values were in the range of 28-49 °C. The T g values were higher than 25 °C, which is significant with respect to the physical stability of the candies. Calcium maltobionate-sugar and calcium maltobionate-reduced isomaltulose candies were prepared as hand-made candies. The calcium maltobionate-reduced isomaltulose candies had higher T g than the calcium maltobionate-sugar candies at each calcium maltobionate content, although reduced isomaltulose has a lower T g than sugar. At a high calcium maltobionate content, calcium maltobionate-reduced isomaltulose candy had an equivalent T g to the commercial sugarless candies, and thus practically acceptable stability was expected. In the case of calcium maltobionate-sugar candies, there was a possibility that the hydrolysis of sugar reduced their T g. Vacuum-concentration will be useful to improve the T g of the candies.

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麦芽糖酸钙对模型和手工硬糖玻璃化转变温度的影响。
玻璃化转变温度(T g)是硬糖物理质量控制的重要参数。为了了解麦芽糖酸钙在硬糖中的适用性,研究了麦芽糖酸钙添加量对模型硬糖和手工硬糖tg的影响。冻干麦芽糖酸钙-糖(蔗糖中含有少量葡萄糖-果糖混合物)和麦芽糖酸钙-还原异麦芽糖混合物作为模型糖果,并使用差示扫描量热法评估其无水tg。无水tg随麦芽糖酸钙摩尔分数线性增加。由此可见,麦芽糖酸钙可以提高普通糖果和无糖糖果的物理稳定性。为了进行比较,采用了各种商业糖果,并使用热流变分析来评估它们的tg。T - g值在28 ~ 49℃范围内。T g值高于25℃,这对糖果的物理稳定性有重要影响。制备了麦芽糖酸钙糖和麦芽糖酸钙还原性异麦芽糖糖。麦芽糖酸钙还原性异麦芽糖糖在不同麦芽糖酸钙含量下的tg均高于麦芽糖酸钙糖,尽管还原性异麦芽糖糖的tg低于糖。在麦芽糖酸钙含量高的情况下,麦芽糖酸钙还原性异麦芽糖糖的tg与商业无糖糖果相当,因此具有实际可接受的稳定性。以麦芽糖酸钙糖为例,糖的水解有可能降低糖的tg,真空浓缩将有助于提高糖的tg。
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来源期刊
Journal of applied glycoscience
Journal of applied glycoscience BIOCHEMISTRY & MOLECULAR BIOLOGY-
自引率
9.10%
发文量
13
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