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为您找到包含“泉州市科技计划项目”的内容共23

史志明

2018-10-09

针对国民日常生活对大气环境监测的需求,设计了一款多功能 PM2.5 检测系统。本文详细介绍了PM2.5检测系统的硬件、软件部分,以及对数据传输、数据分析等关键技术。本系统能够很好地监测大气环境中的各项基本数据,将数据存入数据库,可以调取历史数据。并结合数据分析,进行多种拟合算法的实验对比,得出四次多项式是最优的PM2.5值预测算法。

福建泉州市科技计划项目(Z[2014]0042

Fujian Internet of Things Scientific Research Institute,Quanzhou,362000

#工程与技术科学基础学科#

本文收录在中国科技论文在线精品论文,2018,11(24):2450-2457.

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姚庆达,温会涛,王小卓,梁永贤,杨义清,贾喜庆

2018-11-02

石墨烯以其韧性强、强度高、导电性好、远红外吸收等优势,在制革、电子、能源等领域中展现了广阔的应用前景。实现大规模、高质量、低成本制备石墨烯是石墨烯走向产业化的关键问题。综述了近年来石墨烯固相法、液相法、气相法和混合法等主要制备方法,着重分析了各种方法制备石墨烯的机理,论述了各种方法存在的优缺点,阐述了大规模制备石墨烯的方法,进一步总结了石墨烯在制革工业中的应用研究,并对石墨烯的制备及应用进行了展望。

泉州市科技计划项目(2018G001

Xingye Leather Technology Co., Ltd., Jinjiang 362261, China;Fujian Key Laboratory of Green Design and Manufacture of Leather, Xingye Leather Technology Co., Ltd., Jinjiang 362261, China,Fujian Key Laboratory of Green Design and Manufacture of Leather, Xingye Leather Technology Co., Ltd., Jinjiang 362261, China; National Engineering Laboratory for Clean Technology of Leather Manufacture, Sichuan University, Chengdu 610065, China,Xingye Leather Technology Co., Ltd., Jinjiang 362261, China;Fujian Key Laboratory of Green Design and Manufacture of Leather, Xingye Leather Technology Co., Ltd., Jinjiang 362261, China,Xingye Leather Technology Co., Ltd., Jinjiang 362261, China;Fujian Key Laboratory of Green Design and Manufacture of Leather, Xingye Leather Technology Co., Ltd., Jinjiang 362261, China,Xingye Leather Technology Co., Ltd., Jinjiang 362261, China;Fujian Key Laboratory of Green Design and Manufacture of Leather, Xingye Leather Technology Co., Ltd., Jinjiang 362261, China,Xingye Leather Technology Co., Ltd

#化学工程#

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王小卓,温会涛,梁永贤,姚庆达,杨义清,但卫华

2018-11-20

制革含铬革屑主要成分为胶原蛋白和铬,具有较大的资源化利用价值。国内外对含铬革屑资源化作了大量的工作,提出了氧化法、水解法及结合法等脱铬提取胶原蛋白技术。为实现含铬革屑资源化,促进制革工业生态化和可持续发展。以含铬革屑脱铬率与胶原蛋白提取率为主要评价指标,简要介绍了各种含铬革屑的资源化技术,分析各种资源化技术的特点与优缺点。提出结合法作为含铬革屑脱铬提取胶原蛋白的最佳方法,并对含铬革屑的资源化利用前景作了展望。

泉州市科技计划项目(2016Z020

Xingye Leather Technology Co., Ltd., Jinjiang 362271,China,Fujian Key Laboratory of Green Design and Manufacture of Leather, jinjiang 362271,China,Fujian Key Laboratory of Green Design and Manufacture of Leather, jinjiang 362271,China,National Engineering Laboratory for Clean Technology of Leather Manufacture, Sichuan University, Chengdu 610065, China,Xingye Leather Technology Co., Ltd., Jinjiang 362271,China,Fujian Key Laboratory of Green Design and Manufacture of Leather, jinjiang 362271,China

#化学工程#

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姚庆达,王小卓,温会涛,杨义清,梁永贤,但卫华

2019-01-18

以有机硅为基质,改性氧化石墨烯粉体为填料,采用溶胶-凝胶法制备了石墨烯改性有机硅手感剂。采用单因素法优化了最佳工艺,应用于皮革涂饰并测试其物理机械性能。结果表明,最优制备工艺为:在110 C下反应4h,其中KH550用量为4%,封端剂用量为0.4%,催化剂四甲基羟胺用量为0.09%,溶胶凝胶过程三乙胺用量为8%;石墨烯改性有机硅可将耐磨性提升至4级,耐干/湿擦提升至5级,耐曲折度符合基本要求,静态吸水性能降低至102.35%,相比普通有机硅手感剂均有所提高。

泉州市科技计划项目(2018G001

Xingye Leather Technology Co., Ltd., Jinjiang 362261, China; Fujian Key Laboratory of Green Design and Manufacture of Leather, Jinjiang 362271, China,Xingye Leather Technology Co., Ltd., Jinjiang 362261, China; Fujian Key Laboratory of Green Design and Manufacture of Leather, Jinjiang 362271, China,Fujian Key Laboratory of Green Design and Manufacture of Leather, Jinjiang 362271, China; National Engineering Laboratory for Clean Technology of Leather Manufacture, Sichuan University, Chengdu 610065, China,Xingye Leather Technology Co., Ltd., Jinjiang 362261, China; Fujian Key Laboratory of Green Design and Manufacture of Leather, Jinjiang 362271, China,Xingye Leather Technology Co., Ltd., Jinjiang 362261, China; Fujian Key Laboratory of Green Design and Manufacture of Leather, Jinjiang 362271, China,Fujian Key Laboratory of Green Design and Manufacture of Leather, Jinjiang 362271, China; National Engineering Laboratory for Clean Technology of Leather Manufacture, Sichuan University, Chengdu 610065, China

#化学工程#

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姚庆达,梁永贤,温会涛,王小卓,杨义清,但卫华

2019-06-12

随着经济的高速发展,污染环境和危害人体的废水亟需分离处理。氧化石墨烯(GO)优越的综合性能和膜技术的广泛应用使多层GO膜成为解决水环境污染和水资源短缺问题最具潜力的方法之一。简要介绍了多层GO膜的制备方法,重点梳理了控制GO膜分离性能的方法,详细介绍了GO膜的层数、氧化程度、改性对分离性能的影响,并通过分子动力学对多层GO膜模拟分析,对多层GO薄膜在去除重金属离子、脱盐、有机物脱除等方面的应用进行了综述。最后,展望了多层GO膜在水处理领域未来的发展和面临的挑战。

泉州市科技计划项目(2018G001

Fujian Key Laboratory of Green Design and Manufacture of Leather, Jinjiang 362271, China;Xingye Leather Technology Co., Ltd., Jinjiang 362261, China,Fujian Key Laboratory of Green Design and Manufacture of Leather, Jinjiang 362271, China;Xingye Leather Technology Co., Ltd., Jinjiang 362261, China,Fujian Key Laboratory of Green Design and Manufacture of Leather, Jinjiang 362271, China;National Engineering Laboratory for Clean Technology of Leather Manufacture, Sichuan University, Chengdu 610065, China,Fujian Key Laboratory of Green Design and Manufacture of Leather, Jinjiang 362271, China;Xingye Leather Technology Co., Ltd., Jinjiang 362261, China,Fujian Key Laboratory of Green Design and Manufacture of Leather, Jinjiang 362271, China;Xingye Leather Technology Co., Ltd., Jinjiang 362261, China,Fujian Key Laboratory of Green Design and Manufacture of Leather, Jinjiang 362271, China;National Engineering Laboratory for Clean Technology of Leather Manufacture, Sichuan University, Chengdu 610065, China

#化学工程#

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姚庆达,王小卓,温会涛,梁永贤,杨义清,但卫华

2019-06-12

以石墨烯改性有机硅为原料,山梨醇酐单月桂酸酯(Span 20)和聚氧乙烯山梨糖醇酐单棕榈酸酯(Tween 40)为复配型乳化剂,丙三醇为助乳剂,乳化制备石墨烯基有机硅皮革手感剂。结果表明:当Span 20 : Tween 40为73:27时,此时HLB值为10.5,控制乳化剂用量为15%,助乳化剂用量为2.5%,pH值为7,剪切速率为1000r/min,剪切时间为90min,所得乳液透光率为69.8%,具有极强的耐酸稳定性和耐碱稳定性。将制备的石墨烯改性有机硅作为手感剂应用于皮革顶层涂饰,可提升皮革的耐磨、耐干/湿擦性能。

泉州市科技计划项目(2018G001

Fujian Key Laboratory of Green Design and Manufacture of Leather, Jinjiang 362271, China;Xingye Leather Technology Co., Ltd., Jinjiang 362261, China,Fujian Key Laboratory of Green Design and Manufacture of Leather, Jinjiang 362271, China;Xingye Leather Technology Co., Ltd., Jinjiang 362261, China,Fujian Key Laboratory of Green Design and Manufacture of Leather, Jinjiang 362271, China;National Engineering Laboratory for Clean Technology of Leather Manufacture, Sichuan University, Chengdu 610065, China,Fujian Key Laboratory of Green Design and Manufacture of Leather, Jinjiang 362271, China;Xingye Leather Technology Co., Ltd., Jinjiang 362261, China,Fujian Key Laboratory of Green Design and Manufacture of Leather, Jinjiang 362271, China;Xingye Leather Technology Co., Ltd., Jinjiang 362261, China,Fujian Key Laboratory of Green Design and Manufacture of Leather, Jinjiang 362271, China;National Engineering Laboratory for Clean Technology of Leather Manufacture, Sichuan University, Chengdu 610065, China

#化学工程#

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姚庆达,王小卓,温会涛,梁永贤,杨义清,但卫华

2019-10-08

石墨烯基聚硅氧烷因优异的物理化学性能得到了广泛研究,但是因活性过强,易交联固化而影响使用性能。以石墨烯基聚硅氧烷为原料,盐酸、乙醇和三氯化铝为稳定剂,稳定石墨烯基聚硅氧烷溶液。通过对比不同酸、醇、共价卤化物对石墨烯基聚硅氧烷的解聚性能,以黏度和紫外光透光率为指标,得出最佳组合,而后通过正交试验将三元稳定体系组装,研究结果表明:稳定剂的解聚性能不宜过强,因此当乙醇用量为7.5%,三氯化铝用量为2.5%时,用盐酸将pH值调节至4.0,此组合下,石墨烯基聚硅氧烷乳液三个月内黏度基本保持不变,恒定为135mPa s,透光率稳定为67.8±1.2%,具有广泛的应用前景。

泉州市科技计划项目(2018G001

Fujian Key Laboratory of Green Design and Manufacture of Leather, Jinjiang 362271, China;Xingye Leather Technology Co., Ltd., Jinjiang 362261, China,Fujian Key Laboratory of Green Design and Manufacture of Leather, Jinjiang 362271, China;Xingye Leather Technology Co., Ltd., Jinjiang 362261, China,Fujian Key Laboratory of Green Design and Manufacture of Leather, Jinjiang 362271, China;National Engineering Laboratory for Clean Technology of Leather Manufacture, Sichuan University, Chengdu 610065, China,Fujian Key Laboratory of Green Design and Manufacture of Leather, Jinjiang 362271, China;Xingye Leather Technology Co., Ltd., Jinjiang 362261, China,Fujian Key Laboratory of Green Design and Manufacture of Leather, Jinjiang 362271, China;Xingye Leather Technology Co., Ltd., Jinjiang 362261, China,Fujian Key Laboratory of Green Design and Manufacture of Leather, Jinjiang 362271, China;National Engineering Laboratory for Clean Technology of Leather Manufacture, Sichuan University, Chengdu 610065, China

#化学工程#

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姚庆达,王小卓,温会涛,梁永贤,杨义清,但卫华

2019-12-16

硅氧烷功能化石墨烯具有良好的分散性与稳定性,功能化石墨烯改性有机硅具有良好的耐酸、耐碱能力。本文使用纳米粒度及电位分析仪、Taber耐磨试验机、摩擦褪色试验机等测试了硅氧烷功能化石墨烯改性有机硅的zeta电位、纳米粒度、粒径分布及成革物理机械性能,结果表明:石墨烯改性有机硅在pH值为0.5-11.5时稳定性高;碱性越强,纳米粒度越大,粒径分布越集中,粒径分布系数越小;酸性越强,粒径分布越分散,粒径分布系数越大。将硅氧烷功能化石墨烯与聚氨酯光亮剂或硝化棉光亮剂共混应用于皮革顶层涂饰,能显著提升涂层物理机械性能,且石墨烯改性有机硅对聚氨酯光亮剂的增强效果高于硝化棉光亮剂。

泉州市科技计划项目(2018G001

Fujian Key Laboratory of Green Design and Manufacture of Leather, Jinjiang 362271, China;Xingye Leather Technology Co., Ltd., Jinjiang 362261, China,Fujian Key Laboratory of Green Design and Manufacture of Leather, Jinjiang 362271, China;Xingye Leather Technology Co., Ltd., Jinjiang 362261, China,Fujian Key Laboratory of Green Design and Manufacture of Leather, Jinjiang 362271, China;National Engineering Laboratory for Clean Technology of Leather Manufacture, Sichuan University, Chengdu 610065, China,Fujian Key Laboratory of Green Design and Manufacture of Leather, Jinjiang 362271, China;Xingye Leather Technology Co., Ltd., Jinjiang 362261, China,Fujian Key Laboratory of Green Design and Manufacture of Leather, Jinjiang 362271, China;Xingye Leather Technology Co., Ltd., Jinjiang 362261, China,Fujian Key Laboratory of Green Design and Manufacture of Leather, Jinjiang 362271, China;National Engineering Laboratory for Clean Technology of Leather Manufacture, Sichuan University, Chengdu 610065, China

#化学工程#

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姚庆达,梁永贤,王小卓,温会涛,杨义清,但卫华

2020-03-20

聚乙二醇因其优异的两亲性、柔韧性使其在诸多领域备受关注。聚乙二醇的端羟基具有伯醇活性,易与活性官能团缔合形成功能化修饰聚乙二醇,进一步扩宽了其应用范围。综述了近年来非共价键及共价键功能化修饰聚乙二醇的研究进展,讨论了基于氢键缔合和共价键结合的不同功能化修饰方法并分析功能化修饰聚乙二醇改性高分子材料的性能,论述了功能化修饰聚乙二醇改性丙烯酸、聚氨酯传统涂饰材料和壳聚糖等新型涂饰材料,最后展望了功能化修饰聚乙二醇在制革涂饰材料中的应用前景。

泉州市科技计划项目(2019G013),福建省自然科学基

Fujian Key Laboratory of Green Design and Manufacture of Leather, Jinjiang 362271, China;Xingye Leather Technology Co., Ltd. National Enterprise Technical Center, Jinjiang 362261, China,Fujian Key Laboratory of Green Design and Manufacture of Leather, Jinjiang 362271, China;Xingye Leather Technology Co., Ltd. National Enterprise Technical Center, Jinjiang 362261, China,Fujian Key Laboratory of Green Design and Manufacture of Leather, Jinjiang 362271, China;Xingye Leather Technology Co., Ltd. National Enterprise Technical Center, Jinjiang 362261, China,Fujian Key Laboratory of Green Design and Manufacture of Leather, Jinjiang 362271, China;National Engineering Laboratory for Clean Technology of Leather Manufacture, Sichuan University, Chengdu 610065, China,Fujian Key Laboratory of Green Design and Manufacture of Leather, Jinjiang 362271, China;Xingye Leather Technology Co., Ltd. National Enterprise Technical Center, Jinjiang 362261, China,Fujian Key Laboratory of Green Design and Manufacture of Leather, Jinjia

#化学工程#

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梁永贤,姚庆达,温会涛,杨义清,王小卓,但卫华

2020-03-30

以负离子材料、氯化铬、柠檬酸为原料,通过络合反应制备出一种新型负离子-铬配合鞣剂,并通过正交试验,探讨了氯化铬与负离子材料的质量比、氯化铬与柠檬酸的质量比、反应温度、反应pH对配合鞣剂纳米粒度及粒径分布系数的影响,负离子-铬配合鞣剂应用于制革复鞣工序并测试成革负离子发生量与物理机械性能。结果表明:当氯化铬与负离子材料质量比为1:0.5,氯化铬与柠檬酸质量比为1:2,温度为60 C,pH值为5时,此时鞣剂的粒径分布系数最大,纳米粒度在1000-3000 d nm的范围内。将负离子-铬配合鞣剂用于制革复鞣工序,与未改性负离子材料相比,负离子发生量可提升20%左右,成革物理机械性能均有所提高。

泉州市科技计划项目(2019G013

Fujian Key Laboratory of Green Design and Manufacture of Leather, Xingye Leather Technology Co., Ltd., Jinjiang 362271,China;Xingye Leather Technology Co.,Ltd.,jinjiang 362261,China,Fujian Key Laboratory of Green Design and Manufacture of Leather, Xingye Leather Technology Co., Ltd., Jinjiang 362271,China;Xingye Leather Technology Co.,Ltd.,jinjiang 362261,China,Fujian Key Laboratory of Green Design and Manufacture of Leather, Xingye Leather Technology Co., Ltd., Jinjiang 362271,China;National Engineering Laboratory for Clean Technology of Leather Manufacture, Sichuan University, Chengdu 610065, China,Fujian Key Laboratory of Green Design and Manufacture of Leather, Xingye Leather Technology Co., Ltd., Jinjiang 362271,China;Xingye Leather Technology Co.,Ltd.,jinjiang 362261,China,Fujian Key Laboratory of Green Design and Manufacture of Leather, Xingye Leather Technology Co., Ltd., Jinjiang 362271,China;Xingye Leather Technology Co.,Ltd.,jinjiang 362261,China,Fujian Key Laboratory of Green Design and Manufactur

#化学工程#

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