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2003-2020 全部
为您找到包含“皮革”的内容共85

王小卓,姚庆达,温会涛,梁永贤,杨义清,但卫华

2019-10-17

概述了超细纤维合成材料与天然皮革的性能差异,阐述了改善超细纤维合成材料卫生性能、染色性能的方法,同时从感官分析、化学分析、仪器分析3方面归纳整理了鉴别天然皮革与合成材料的方法,为天然皮革和合成材料的

Fujian Key Laboratory of Green Design and Manufacture of Leather, jinjiang 362271,China,Xingye Leather Technology Co., Ltd., Jinjiang 362271,China,Fujian Key Laboratory of Green Design and Manufacture of Leather, jinjiang 362271,China,Xingye Leather Technology Co., Ltd., 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#

姚庆达,梁永贤,王小卓,温会涛,杨义清,但卫华

2020-03-03

负离子含量的高低与分布已成为生态环境的重要指标之一,负离子功能皮革更是逐渐受到消费者的青睐。但是由于负离子携带电荷少、寿命短、极易受环境影响湮灭等特性影响了对负离子发生量的准确测量。本文以常规控制

泉州市科技计划项目(2019G013

福建省自然科学基金(2019J06025

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#

薛朝华,冶怡霖,马建中

2015-07-21

超疏水涂层具有防污、防水、自清洁的特性,被广泛应用到汽车、建筑、国防等领域。本文采用喷涂、刮涂、浸轧的方法将二氧化硅和聚二甲基硅氧烷(PDMS)的四氢呋喃溶液对山羊皮革表面进行处理。采用视频光学

教育部高等学校博士点基金(20136125110003,20116125110002

教育部新世纪优秀人才支持计划(NCET-12-1042

国家自然科学基金(51372146

陕西科技大学资源与环境学院,西安 710021,陕西科技大学资源与环境学院,西安 710021,陕西科技大学资源与环境学院,西安 710021

#化学工程#

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

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#

刘倩,穆畅道,吴博,蔡素梅,周玉玲,林炜

2010-04-22

采用乳液共混的方法,将酸处理的凹凸棒粘土(HAT)添加到聚氨酯皮革涂饰剂乳液中,制备了凹凸棒粘土改性的水性聚氨酯皮革涂饰剂(APU)。通过FT-IR、XRD、SEM对HAT及不同含量HAT改性的

教育部博士点基金(20090181110061

四川大学制革清洁技术国家工程实验室,四川大学化工学院,中国科学技术大学合肥微尺度物质科学国家实验室,四川大学制革清洁技术国家工程实验室,四川大学制革清洁技术国家工程实验室,四川大学制革清洁技术国家工程实验室

#化学工程#

本文收录在《中国皮革》,2010,39(7):19 ~ 21

姚庆达,梁永贤,王小卓,陈军,温会涛,但卫华

2020-02-25

负离子作为一种氧的活性物质与健康息息相关,负离子可有效提高生活质量,促进身体健康。本文使用溶液共混法制备壳聚糖/聚乙二醇改性负离子材料,采用单因素法优化制备工艺,应用于皮革涂饰并测试成革负离子发生量

泉州市科技计划项目(2019G013

福建省自然科学基金(2019J06025

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;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, Jinjia

#化学工程#

Sun Danhong,He Qiang,Zhang Wenjun,Liu Xin,Shi Bi

Leather processing is associated with employment of many kinds of chemicals. These chemicals are usually used excessively in tanneries to ensure the quality of leathers. As a result, a part of the chemicals would inevitably remain in the tannery wastewater and form major pollutants of the leather industry. Biological treatment plays a significant role in removing these chemicals from wastewater and, in fact, biodegradability of these chemicals is directly related to their environmental friendliness. Recently, we have been undertaking a systematic evaluation of biodegradability of typical leather chemicals so as to characterize their environmental impact as exactly as possible. In this paper, the biodegradation behaviours of six typical fatliquor components, including sulfated castor, sulfated neat foot oil, sulfated fish oil, lecithin, chlorinated paraffin and alkyl sulfonyl chloride, were investigated. It has been found that four of them, sulfated castor, neat foot oil, fish oil and lecithin, can be effectively degraded by the activated sludge from the wastewater treating yard of tannery, which suggests that these four kinds of fatliquors are suitable to be used in leather making in consideration of their environmental friendliness. However, two other kinds of fatliquors, chlorinated paraffin and alkyl sulfonyl chloride, can not be degraded by activated sludge, and the presence of alkyl sulfonyl chloride in wastewater will lead to poisoning of activated sludge, which indicates that these two kinds of fatliquors should be limited in use.

2007-12-14

教育部博士点基金(20060610046

The Key Laboratory of Leather Chemistry and Engineering of Ministry of Education, Sichuan University,The Key Laboratory of Leather Chemistry and Engineering of Ministry of Education, Sichuan University,The Key Laboratory of Leather Chemistry and Engineering of Ministry of Education, Sichuan University,The Key Laboratory of Leather Chemistry and Engineering of Ministry of Education, Sichuan University,The Key Laboratory of Leather Chemistry and Engineering of Ministry of Education, Sichuan University

#Chemical Engineering#

简晓昀,滕博,陈武勇

2016-06-17

为了研究微生物对杨梅栲胶的降解过程,利用黄柄曲霉对杨梅栲胶溶液进行降解,每24h取降解液,对降解过程中栲胶溶液的Zeta电位、粒径、电导率、pH等电化学性质及胶体化学性质进行了测定。利用普鲁士蓝法及正丁醇-盐酸法对降解过程中溶液的总酚及可溶性缩合单宁的含量变化进行测定。利用恒重法对降解过程中黄柄曲霉的微生物菌体量进行了测定。结果表明,微生物对杨梅栲胶溶液的降解大致分为3个阶段,分别在降解开始后的1-2天,3-8天和9-15天,各阶段根据微生物数量及活性的不同对杨梅栲胶溶液的各项性质造成了不同的影响。对比降解过程中总酚及聚黄烷醇的含量变化可以看出,微生物在生长过程中会对大分子聚黄烷醇进行降解,而其营养物质应该直接来源于溶液中的小分子酚类物质。

教育部博士点基金(20130181130009

四川大学皮革化学与工程教育部重点实验室,成都,610065,四川大学皮革化学与工程教育部重点实验室,成都,610065,四川大学皮革化学与工程教育部重点实验室,成都,610065;四川大学制革清洁

#化学工程#

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