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中国精品科技期刊2020
杨凯麟,康梦瑶,耿宏庆,等. 水相pH和Na+对微晶纤维素与猪油的Pickering乳液稳定性的影响[J]. 华体会体育,2022,43(20):87−96. doi: 10.13386/j.issn1002-0306.2022010159.
引用本文: 杨凯麟,康梦瑶,耿宏庆,等. 水相pH和Na+对微晶纤维素与猪油的Pickering乳液稳定性的影响[J]. 华体会体育,2022,43(20):87−96. doi: 10.13386/j.issn1002-0306.2022010159.
YANG Kailin, KANG Mengyao, GENG Hongqing, et al. Effect of Aqueous Phase pH and Na+ on the Stability of Microcrystalline Cellulose-Lard Pickering Emulsion[J]. Science and Technology of Food Industry, 2022, 43(20): 87−96. (in Chinese with English abstract). doi: 10.13386/j.issn1002-0306.2022010159.
Citation: YANG Kailin, KANG Mengyao, GENG Hongqing, et al. Effect of Aqueous Phase pH and Na+ on the Stability of Microcrystalline Cellulose-Lard Pickering Emulsion[J]. Science and Technology of Food Industry, 2022, 43(20): 87−96. (in Chinese with English abstract). doi: 10.13386/j.issn1002-0306.2022010159.

水相pH和Na+对微晶纤维素与猪油的Pickering乳液稳定性的影响

Effect of Aqueous Phase pH and Na+ on the Stability of Microcrystalline Cellulose-Lard Pickering Emulsion

  • 摘要: 考察水相pH和Na+浓度对微晶纤维素(MCC)和猪油形成的Pickering乳液稳定性的影响。分别将不同pH和含有1% MCC的不同Na+浓度的水相与等体积的油相混合、制备MCC-猪油Pickering乳液,分析不同水相pH(pH4~9)和不同Na+浓度(0~500 mmol/L)条件下,乳液的外观结构、乳析指数、微观结构、粒径、Zeta电位以及乳液流变特性的变化。结果表明,在pH5~8条件下,MCC-猪油Pickering乳液均未出现明显分层现象,且乳析指数未发生变化,乳滴粒径小于pH4和pH9条件,具有更好的黏度和抗剪切能力,其中,在pH6条件下表现出最好的稳定效果。当Na+浓度在300 mmol/L及以上时,随着静置时间的延长,乳液稳定性下降的越快;Na+浓度为400 mmol/L时,乳液静置3 d会出现分层现象。随着Na+浓度的升高,静电屏蔽作用使得乳液颗粒粒径不断增大,Zeta电位绝对值降低,黏度和抗剪切能力下降。中低pH(pH5~8)水相及低Na+浓度(≤300 mmol/L)水相条件下MCC-猪油Pickering乳液具良好的乳化稳定性,但pH4和pH9及高Na+浓度(>300 mmol/L)水相条件下乳液的稳定性欠佳。探讨不同pH和Na+浓度条件对MCC-猪油Pickering乳液乳化稳定性的影响及其原理,为其在功能性预乳化肉制品的加工与应用提供一定参考。

     

    Abstract: The effects of aqueous phase pH and Na+ concentration on the stability of Pickering emulsions formed by microcrystalline cellulose (MCC) and lard were investigated. MCC-lard Pickering emulsions were prepared by mixing the aqueous phase containing 1% MCC with an equal volume of oil phase at different pH and Na+ concentrations, and the changes in the appearance, emulsion index, microstructure, particle size, zeta potential and rheological properties of the emulsions were measured at different pH (pH4~9) and Na+ concentrations (0~500 mmol/L). The results showed that the MCC-lard Pickering emulsions did not show significant delamination at pH5~8, and the emulsion index did not change, and the particle size of the emulsion droplets was smaller than those at pH4 and pH9, with better viscosity and shear resistance, among which the best stabilization effect was achieved at pH6. When the Na+ concentration was 300 mmol/L and above, the emulsion stability decreased more rapidly with increasing resting time. It was observed that at a Na+ concentration of 400 mmol/L, the emulsions would delaminate after three days of standing. With the increasing of Na+ concentration, the electrostatic shielding effect made the particle size of emulsion increased, the absolute value of zeta potential decreased, and the viscosity and shear resistance decreased. The MCC-lard Pickering emulsions had good emulsion stability at low to medium pH (pH5~8) and low Na+ concentration (≤300 mmol/L) in aqueous phase, but the emulsions were less stable at pH4 and pH9 and high Na+ concentration (>300 mmol/L) in aqueous phase. The effects of different pH and Na+ concentrations on the emulsification stability of MCC-lard Pickering emulsions and their principles were investigated to provide some reference for the processing and application of functionalized pre-emulsified meat products.

     

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