速冻保健红薯脯生产工艺研究

结合速冻原理及工艺技术,采用真空蜜制工艺,生产出含糖量20g/100g左右的红薯脯,最大限度地保持了产品色、香、味及营养价值,延长产品的贮藏期。

闽西美食速冻笋干扣肉生产工艺研究

以龙岩笋干和猪五花肉为主要原料,采用正交实验和感官评定方法,对速冻笋干扣肉的生产工艺进行研究。扣肉与笋干分开包装,其中肉包150g,笋包350g;调味汁的配方是老抽20g、客家米酒10g、食盐7g、白砂糖4g、干辣椒4g、味精0.3g、羧甲基纤维素CMC1.5g、水50g、大料5g、香叶2g。结果表明,采用此工艺制作的速冻笋干扣肉味道最佳。

绿色天然纤维健康内裤性能研究

采用菠萝叶纤维为原料,通过精细化加工处理得到精干麻,与棉进行混纺,试制30英支菠萝叶纤维/棉(30/70)混纺纱.通过产学研相结合,与纺织企业合作,研发试制了菠萝叶纤维健康内裤,并对其吸湿速干性进行送检,结果表明菠萝叶纤维健康内裤吸水率和透湿率均达到国家纺织品标准指标,旨在为后续其他菠萝叶纤维纺织产品的研发提供理论基础.

铁道车辆用快干清漆的研制及应用

介绍了快干清漆的研制过程、生产工艺、室内各种性能试验、涂车试验及与其他同种用途的漆种的对比情况。试验表明，轮对和铸钢件采用快干清漆，不仅能改善表面涂装质量，提高防腐能力，而且缩短了干燥时间，节省了工作台位。

基于功效成分−药效评价的三七新型饮片质量分析

【目的】通过考察干燥方式引起的成分及药效差异,研究新型饮片鲜三七快干粉、冻干三七粉与传统饮片三七热风干燥粉的质量及生物学效应,寻找内在成分的潜在药效活性,为新型三七饮片开发提供科学依据。【方法】采用高效液相色谱法(HPLC)和紫外分光光度法等分析3种干燥饮片单体皂苷、总多糖、总黄酮、总酚和总蛋白含量;通过建立相关药效模型研究3种不同干燥饮片的药理功效差异,对其结果进行成分—药效相关性分析,根据预测结果进行药效验证试验。【结果】与热风干燥粉相比,鲜三七快干粉人参皂苷Rg_(1)和Rb_(1)、总多糖以及总酚含量分别提高4.02%、4.48%、278.40%和29.33%;冻干三七粉Rg_(1)和Rb_(1)、5种皂苷之和、总多糖以及总蛋白含量分别提高16.33%、12.17%、10.03%、49.76%和22.85%。经成分—药效相关性分析发现:镇痛扭体次数与总多糖含量显著负相关(P<0.05);凝血酶原时间(PT)与Rg_(1)含量极显著正相关(P<0.01)、与Rb1含量显著正相关(P<0.05);凝血酶时间(TT)与人参皂苷Re含量显著正相关(P<0.05);镇痛潜伏时间与Rg_(1)含量极显著正相关(P<0.01)、与总蛋白含量显著正相关(P<0.05)。药效验证试验表明:总多糖与总蛋白具有抗凝和镇痛活性。【结论】冻干三七粉与鲜三七快干粉的成分和药效均有所提高,三七总多糖和总蛋白具有抗凝和镇痛功效,Rg_(1)、Re和Rg_(1)以及Rb_(1)分别在镇痛活性、延长TT和延长PT中起主导作用。

改性醇酸快干工业底漆的研制

采用熔融法,用石油树脂分别对短、中、长油度醇酸树脂进行改性,制备了快干工业底漆,考察了醇酸树脂的油度、石油树脂与醇酸树脂配比对改性的快干工业底漆性能的影响,得到石油树脂与短油度醇酸树脂的最佳配比为2∶1～3∶1。制得的改性快干工业底漆的各项性能指标均达到要求,由于选择了价廉的混合芳烃溶剂,使该漆的生产成本大幅下降。

自催化低温快干氨基漆的试制

介绍了短油度自催化高活性醇酸树脂的合成工艺和由它制备的低温快干氨基磁漆的性能。讨论了合成的醇酸树脂、选用的氨基树脂及溶剂对氨基漆低温快速固化方面的影响。

A real-time and modular approach for quick detection and mechanism exploration of DPIs with different carrier particle sizes

Dry powder inhalers(DPIs) had been widely used in lung diseases on account of direct pulmonary delivery, good drug stability and satisfactory patient compliance. However, an indistinct understanding of pulmonary delivery processes(PDPs) hindered the development of DPIs. Most current evaluation methods explored the PDPs with over-simplified models, leading to uncompleted investigations of the whole or partial PDPs. In the present research, an innovative modular process analysis platform(MPAP) was applied to investigate the detailed mechanisms of each PDP of DPIs with different carrier particle sizes(CPS). The MPAP was composed of a laser particle size analyzer, an inhaler device,an artificial throat and a pre-separator, to investigate the fluidization and dispersion, transportation,detachment and deposition process of DPIs. The release profiles of drug, drug aggregation and carrier were monitored in real-time. The influence of CPS on PDPs and corresponding mechanisms were explored. The powder properties of the carriers were investigated by the optical profiler and Freeman Technology four powder rheometer. The next generation impactor was employed to explore the aerosolization performance of DPIs. The novel MPAP was successfully applied in exploring the comprehensive mechanism of PDPs, which had enormous potential to be used to investigate and develop DPIs.