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中国精品科技期刊2020
刘冉, 曾庆华, 王振宇, 程霜, 穆洪静, 梁荣. 超声波处理对大豆分离蛋白凝胶流变性和凝胶形成的影响[J]. 华体会体育, 2020, 41(21): 87-92,98. DOI: 10.13386/j.issn1002-0306.2020020155
引用本文: 刘冉, 曾庆华, 王振宇, 程霜, 穆洪静, 梁荣. 超声波处理对大豆分离蛋白凝胶流变性和凝胶形成的影响[J]. 华体会体育, 2020, 41(21): 87-92,98. DOI: 10.13386/j.issn1002-0306.2020020155
LIU Ran, ZENG Qing-hua, WANG Zhen-yu, CHENG Shuang, MU Hong-jing, LIANG Rong. Effects of Ultrasonic Treatment on Gel Rheological Properties and Gel Formation of Soybean Protein Isolate[J]. Science and Technology of Food Industry, 2020, 41(21): 87-92,98. DOI: 10.13386/j.issn1002-0306.2020020155
Citation: LIU Ran, ZENG Qing-hua, WANG Zhen-yu, CHENG Shuang, MU Hong-jing, LIANG Rong. Effects of Ultrasonic Treatment on Gel Rheological Properties and Gel Formation of Soybean Protein Isolate[J]. Science and Technology of Food Industry, 2020, 41(21): 87-92,98. DOI: 10.13386/j.issn1002-0306.2020020155

超声波处理对大豆分离蛋白凝胶流变性和凝胶形成的影响

Effects of Ultrasonic Treatment on Gel Rheological Properties and Gel Formation of Soybean Protein Isolate

  • 摘要: 为探讨超声波处理对大豆分离蛋白(Soybean protein isolate,SPI)凝胶特性的影响,以商用SPI为试验原料在不同功率(100、200、400、600、800 W)下进行超声处理,利用TA流变仪的小振幅振荡剪切模式,分析对其流变特性和凝胶形成的影响。结果表明,超声波降低了SPI分散液的储能模量(Storage modulus,G')、损耗模量(Loss modulus,G″)以及表观黏度,改变了其起始黏弹性。模拟SPI热凝胶过程试验结果表明,超声处理能够改变SPI胶凝能力。低功率减弱SPI凝胶形成能力;高功率则延迟凝胶的形成;中功率(200~600 W)超声可以显著改善SPI凝胶性能,加速凝胶形成。中功率超声波处理明显提高了SPI凝胶黏弹性能,且400 W超声组的效果最佳,其形成的凝胶具有最大的G'、G″和最小的损耗因子(Loss tangent,tanδ)。因此适当功率的超声波可以增强商用SPI的凝胶性能。

     

    Abstract: Soybean protein isolate(SPI),used as the raw material,was treated by ultrasonic waves at different powers(100,200,400,600 and 800 W)to explore the effect of ultrasonic treatment on the gelling properties of SPI,while the small amplitude oscillatory shear mode of TA rheometer was utilized to further analyze the effect on the rheological properties and gel formation of SPI. The results showed that ultrasonic waves could not only reduce the storage modulus(G'),loss modulus(G″)and apparent viscosity but also changed the initial viscoelasticity of the SPI dispersing agent. The results of experiments simulating the thermal gel process of SPI showed that the ultrasonic treatment could change the gelling ability of SPL. Ultrasonic waves weakened the gel formation ability of SPI at low powers,and delayed the gel formation process at high powers. However,the use of medium-power(200~600 W)ultrasonic waves could significantly improve the gel performance and accelerate the gel formation of SPI. The ultrasonic treatment conducted at medium powers remarkably increased the viscoelastic property of the SPI gel,with the best effect obtained from the 400 W ultrasonic group,of which the resulting gel had the maximum G' and G″ as well as the minimum loss tangent(tanδ). Medium-power ultrasonic waves could change the initial viscoelastic structure of the SPI dispersing agent to increase the sites of hydrophobic interactions and hydrogen bonding during the formation of thermal gel,thus forming the gel with a three-dimensional net structure of higher strength and density. Ultimately,it can be concluded that ultrasonic waves at the appropriate power can enhance the gel performance of commercial SPI.

     

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