Method for measuring protection of sunscreen cosmetic

Abstract

The invention relates to a method for measuring protection of a sunscreen cosmetic, which is characterized by comprising the following steps: a solution to be tested and a blank reference solution containing no cosmetic to be measured are prepared; then an integrating sphere is arranged between an absorption pond and a detector in an ultraviolet-visible spectrophotometer, the blank reference solution is employed for blank correction on the ultraviolet-visible spectrophotometer; the solution to be tested is added in the absorption pond of the ultraviolet-visible spectrophotometer finally, the solution to be tested is tested, the ultraviolet absorption spectrum of the solution to be tested is measured, and the cosmetic to be measured has better protection effect due to higher absorbance. According to the invention, the ultraviolet-visible spectrophotometer of the integrating sphere is increased for measuring the absorbance of the cosmetic to be measured, thereby the sunscreen effect of the cosmetic to be measured can be measured, the measurement method has the advantages of simple operation, low measurement cost, high credibility and accuracy, and easy popularization and application.

Description

technical field [0001] The invention belongs to the detection field of cosmetics, and in particular relates to a method for measuring the protective efficacy of sunscreen cosmetics. Background technique [0002] Ultraviolet rays in the sun are a kind of electromagnetic wave, whose wavelength is distributed between 200nm and 400nm, which can pass through the skin and produce a series of biochemical reactions, including beneficial and harmful. Synthetic, it has a significant bactericidal and disinfecting effect on the skin, therefore, it plays an important role in the prevention of ultraviolet rays on human health and diseases. With the development of skin science and people's further understanding of ultraviolet rays, research has found that UVB with a wavelength of 280nm to 320hm and UVA with a wavelength of 320nm to 400hm can penetrate the skin. The stratum corneum and cortex reach the subcutaneous tissue, thereby causing lasting photooxidative damage to the skin, causing ...