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中国精品科技期刊2020
叶建芬,仝艳军,郑秀帅,等. 单甘酯稳定的花生酱涂抹性的改善[J]. 华体会体育,2023,44(23):37−44. doi: 10.13386/j.issn1002-0306.2022110015.
引用本文: 叶建芬,仝艳军,郑秀帅,等. 单甘酯稳定的花生酱涂抹性的改善[J]. 华体会体育,2023,44(23):37−44. doi: 10.13386/j.issn1002-0306.2022110015.
YE Jianfen, TONG Yanjun, ZHENG Xiushuai, et al. Improvement of Spread-Ability of Peanut Butter Stabilized by Monoglyceride[J]. Science and Technology of Food Industry, 2023, 44(23): 37−44. (in Chinese with English abstract). doi: 10.13386/j.issn1002-0306.2022110015.
Citation: YE Jianfen, TONG Yanjun, ZHENG Xiushuai, et al. Improvement of Spread-Ability of Peanut Butter Stabilized by Monoglyceride[J]. Science and Technology of Food Industry, 2023, 44(23): 37−44. (in Chinese with English abstract). doi: 10.13386/j.issn1002-0306.2022110015.

单甘酯稳定的花生酱涂抹性的改善

Improvement of Spread-Ability of Peanut Butter Stabilized by Monoglyceride

  • 摘要: 本文以添加氢化植物油的消费者广泛认可的四季宝品牌花生酱为参照,分析添加单甘酯、单甘酯和花生油的花生酱以及花生酱原浆的涂抹性感官评价以及流变学性质、质构、固体脂肪含量和微观结构,来阐明添加一定量的花生油是否可以改善单甘酯稳定的花生酱的涂抹性及相应的原因。结果表明:花生酱原浆以及单甘酯稳定的花生酱的组织形态和涂抹性的感官评分均显著低于添加氢化植物油的花生酱,而当2.0%花生油加入到单甘酯稳定的花生酱,其感官评分与添加氢化植物油的花生酱接近,表现出良好涂抹性。稳态剪切曲线显示花生油加入降低了单甘酯的花生酱表观黏度,使其在25 ℃屈服应力从201.79 Pa降至103.70 Pa,32~42 ℃黏度下降百分比从62.7%降至53.2%。质构分析表明花生油使单甘酯稳定的花生酱的硬度分别从376.19 g降至289.42 g,黏稠度从2050.24 g降至1607.23 g。同时2.0%花生油加入使单甘酯稳定的花生酱的固体脂肪含量降至8.0%以下,上述结果显示添加花生油后的单甘酯稳定的花生酱的理化性质与氢化植物油稳定的花生酱是十分接近的,这可能是其涂抹性改善的原因。此外,微观结构显示花生油的加入使单甘酯稳定花生酱的结晶团块消失,体系分布均匀。综上所述,花生油加入可以有效改善单甘酯稳定的花生酱的理化特征,提高体系均匀性,使其涂抹性得到广泛消费者认可。

     

    Abstract: In this work, the ''sijibao'' peanut butter stabilized by the hydrogenated vegetable oil, a peanut butter with spread-ability widely recognized by consumers, was used as the reference. Then sensory evaluation about spread-ability, rheological properties, texture parameters, solid fat content and microstructure of the peanut butters stabilized by monoglyceride and peanut oil were analyzed to clarify whether the addition of peanut butter could improve the spread-ability of peanut butter stabilized by monoglyceride and the corresponding mechanism. Results indicated that the sensory scores of monoglyceride-stabilized peanut butter on spread-ability were significantly lower than those of peanut butter with hydrogenated vegetable oil. However, 2.0% peanut oil was added to monoglyceride-stabilized peanut butter and its sensory score was close to that of peanut butter with hydrogenated vegetable oil, indicating good spread-ability. The steady-state shear curve showed that the addition of peanut oil reduced the apparent viscosity of monoglyceride-stabilized peanut butter. Meanwhile the yield stress at 25 ℃ decreased from 201.79 to 103.70 Pa, and the reduction percentage of viscosity at 32~42 ℃ decreased from 62.7% to 53.2%. Furthermore, the addition of peanut oil caused the reduction on firmness of monoglyceride-stabilized peanut butter from 376.19 g to 289.42 g and the consistency from 2050.24 g to 1607.23 g. The solid fat content decreased to less than 8.0%. These results indicated that the physicochemical properties of monoglyceride-stabilized peanut butter after adding peanut oil were very close to those of hydrogenated vegetable oil-stabilized peanut butter, which might be the reason for the improvement of its spread-ability. Additionally, microstructure showed that the addition of peanut oil significantly improved the large and dense crystalline agglomerates of peanut butter stabilized by the monoglyceride and thereby the uniform distribution system formed. In summary, the addition of peanut oil effectively on the one hand improved the physicochemical characteristics of monoglyceride-stabilized peanut butter, on the other hand increased its uniformity, which produced the improvement of spread-ability.

     

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