为了研究高压脉冲电场对毛发染色效果的影响,试验以18~28岁年龄段人群的黑色头发和染发剂为试材,以染发后毛发的RGB(red green blue)模型提取值作为响应值,并采用等响应面试验法设计试验,以构建和分析高压脉冲电场的电场强度、脉冲宽度...为了研究高压脉冲电场对毛发染色效果的影响,试验以18~28岁年龄段人群的黑色头发和染发剂为试材,以染发后毛发的RGB(red green blue)模型提取值作为响应值,并采用等响应面试验法设计试验,以构建和分析高压脉冲电场的电场强度、脉冲宽度以及脉冲个数对毛发染色效果影响的数学模型和机理。试验结果表明:高压脉冲电场同时处理头发和染发剂后最高可提升RGB参数中的蓝色通道值B为3.7%,对应的最优化工艺化参数为:电场强度1125 V/mm、脉冲宽度175μs、脉冲个数52个。因此,高压脉冲电场对头发和染发剂进行处理后再进行染色可改善着色效果,并为毛发染色工艺优化奠定一定基础。展开更多
Experimentations have been carried out to characterize the adsorption of Methylene Blue (MB) and Congo Red (CR) dyes in the aqueous phase onto Rice Husk Ash (RHA). Theoretically analyses are also made for describing t...Experimentations have been carried out to characterize the adsorption of Methylene Blue (MB) and Congo Red (CR) dyes in the aqueous phase onto Rice Husk Ash (RHA). Theoretically analyses are also made for describing the sorption and diffusion processes. The effective pore diffusivities of the dye molecules studied in RHA are determined by a suitable global optimization technique. The depth of penetration, on the other hand, has been estimated for various initial concentrations of dyes. Theoretically predicted concentration pro-files are compared with the experimental values at different initial concentrations of these dyes. Such com-parative studies indicate that the predicted values are in excellent agreement with the experimental values.展开更多
文摘为了研究高压脉冲电场对毛发染色效果的影响,试验以18~28岁年龄段人群的黑色头发和染发剂为试材,以染发后毛发的RGB(red green blue)模型提取值作为响应值,并采用等响应面试验法设计试验,以构建和分析高压脉冲电场的电场强度、脉冲宽度以及脉冲个数对毛发染色效果影响的数学模型和机理。试验结果表明:高压脉冲电场同时处理头发和染发剂后最高可提升RGB参数中的蓝色通道值B为3.7%,对应的最优化工艺化参数为:电场强度1125 V/mm、脉冲宽度175μs、脉冲个数52个。因此,高压脉冲电场对头发和染发剂进行处理后再进行染色可改善着色效果,并为毛发染色工艺优化奠定一定基础。
文摘Experimentations have been carried out to characterize the adsorption of Methylene Blue (MB) and Congo Red (CR) dyes in the aqueous phase onto Rice Husk Ash (RHA). Theoretically analyses are also made for describing the sorption and diffusion processes. The effective pore diffusivities of the dye molecules studied in RHA are determined by a suitable global optimization technique. The depth of penetration, on the other hand, has been estimated for various initial concentrations of dyes. Theoretically predicted concentration pro-files are compared with the experimental values at different initial concentrations of these dyes. Such com-parative studies indicate that the predicted values are in excellent agreement with the experimental values.