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Microstructure design of CTAC:FA and BTAC:FA lamellar gels for optimized rheological performance utilizing automated formulation platform.
International Journal of Cosmetic Science ( IF 2.7 ) Pub Date : 2020-04-24 , DOI: 10.1111/ics.12609 A R Davies 1 , S Amin 1
International Journal of Cosmetic Science ( IF 2.7 ) Pub Date : 2020-04-24 , DOI: 10.1111/ics.12609 A R Davies 1 , S Amin 1
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The main objective of this paper was to optimize hair conditioner performance through variation of composition utilizing automated cosmetic formulation platform and advanced characterization techniques as well as develop understanding of how performance (wet combing and wet lubrication) of hair conditioner is affected by its rheology (i.e. yield stress) and controlled breakdown of the formulations (dilution). The experimental results show that yield stress greatly impacts rheology, stability and performance of the lamellar gels for hair conditioning.
中文翻译:
CTAC:FA 和 BTAC:FA 层状凝胶的微观结构设计,利用自动化配方平台优化流变性能。
本文的主要目的是利用自动化化妆品配方平台和先进的表征技术通过改变成分来优化护发素的性能,并了解护发素的性能(湿梳理和湿润滑)如何受其流变学(即屈服应力)和配方的受控分解(稀释)。实验结果表明,屈服应力极大地影响了用于头发调理的层状凝胶的流变性、稳定性和性能。
更新日期:2020-04-24
中文翻译:
CTAC:FA 和 BTAC:FA 层状凝胶的微观结构设计,利用自动化配方平台优化流变性能。
本文的主要目的是利用自动化化妆品配方平台和先进的表征技术通过改变成分来优化护发素的性能,并了解护发素的性能(湿梳理和湿润滑)如何受其流变学(即屈服应力)和配方的受控分解(稀释)。实验结果表明,屈服应力极大地影响了用于头发调理的层状凝胶的流变性、稳定性和性能。
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