共查询到18条相似文献,搜索用时 171 毫秒
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大豆蛋白纤维的丝胶改性及其性能研究 总被引:3,自引:0,他引:3
用丝胶和阳离子交联剂改性大豆蛋白纤维和织物,对丝胶改性大豆蛋白纤维的工艺条件进行了优化。研究了丝胶改性大豆蛋白纤维的染色性能,同时对染色效果及其他性能如折皱回复角、毛细管效应、白度等指标进行了测试,并与未改性、阳离子单独改性的大豆蛋白纤维进行了比较。结果表明。用丝胶和阳离子交联剂对大豆蛋白纤维改性。织物的性能明显改善。 相似文献
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用生物酶对涤纶(PET)织物进行改性增强亲水性,然后用交联剂聚乙烯醇缩水甘油醚(PVAGE)将大豆蛋白接枝到织物表面,制备大豆蛋白接枝改性PET功能织物,并对织物进行结构表征及性能测试。大豆蛋白接枝改性的优化工艺:大豆蛋白5%,PVAGE 1.5%,100℃,30 min。结构表征显示制备的大豆蛋白接枝改性PET功能织物纤维表面有一层均匀的大豆蛋白薄膜,改性PET纤维的N从0%增加到2.13%;织物纤维表面出现了氨基和酰胺基的吸收峰,进一步证明大豆蛋白已被成功接枝到PET纤维上。服用性能表明改性织物的亲水性和耐洗性较好,断裂强力显著增强,并很好地保持了原织物的柔软性,广泛应用于各类服装面料的制作。 相似文献
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纤维用丝胶改性加工技术的进展 总被引:5,自引:1,他引:5
论述了丝胶的特点及其在纤维改性中的作用,概述了丝胶高效率萃取的方法,着重介绍纤维用丝胶改性的方法,如戊二醛溶液处理法和树脂处理法等。 相似文献
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羊绒纤维利用氨气低温等离子体预处理后,在乙二醇二缩水甘油醚(EGDE)、戊二醛(GA)、六亚甲基二异氰酸酯(HDI)交联剂的架桥作用下分别进行丝胶蛋白在其表面的接枝改性。通过探讨羊绒的染色效果与纤维强度,优化了氨气等离子体处理条件。对比常温浸渍反应与浸轧烘两种方式对接枝的影响,优化交联剂的用量。结果表明:浸轧烘的方式要优于常温接枝,丝胶经不同交联剂在羊绒的接枝率顺序为GA﹥EGDE﹥HDI,但GA交联后纤维白度下降严重,EGDE及HDI交联绒的染色能力不受影响;抗菌和抗氧化剂测试发现,丝胶改性羊绒具备了良好的生物活性;另外,改性绒具备了较持久的耐洗牢度。 相似文献
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以二氯均三嗪化合物作为交联剂,采用丝胶对棉织物进行改性,探讨了不同丝胶质量浓度对改性棉织物性能的影响。结果表明,棉织物用丝胶改性,能提高其尺寸稳定性、抗皱性、吸湿性,但对白度影响不大。 相似文献
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涤纶具有突出的服用性能,丝胶蛋白具有良好生物相容性,因此结合涤纶与丝胶蛋白可望得到服用性能和生物相容性都良好的高功能复合面料。本文研究了在涤纶表面层半镶嵌蔗糖脂肪酸酯赋予其可反应基团,并通过交联剂,制备了涤纶/丝胶蛋白复合面料。扫描电镜结果表明:半镶嵌后涤纶表面明显覆盖了一层化合物,接枝后表面覆盖层更厚;红外光谱显示,丝胶蛋白接枝在涤纶上;DSC分析表明复合面料热稳定性增加;X射线衍射表明镶嵌后涤纶结晶度有所下降,但用醋酸处理后结晶度略有上升。服用性能测试表明:丝胶蛋白牢固的接枝在涤纶表面;织物吸湿性、抗静电性明显改善,折皱弹性保持良好,并通过柔软剂处理保持良好的柔软度。 相似文献
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就丝胶蛋白用于涤纶、棉等纤维改性的原理、方法及改性后纤维的性能等方面的研究成果作了简要综述,同时指出了丝胶改性纤维过程中存在的问题. 相似文献
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ANTIOXIDANT ACTIVITIES OF SILK SERICIN FROM SILKWORM BOMBYX MORI 总被引:2,自引:0,他引:2
JIN-BO FAN LI-PING WU LI-SHUI CHEN XUE-YING MAO FA-ZHENG REN 《Journal of Food Biochemistry》2009,33(1):74-88
This study was conducted to investigate the free-radical-scavenging activity and antioxidant activity of silk sericin. Silk sericin was prepared from silkworm Bombyx mori and its ability to scavenge hydroxyl, superoxide and 1,1-diphenyl-2-picrylhydrazyl (DPPH) radicals was determined by Electron Spin Resonance (ESR) and ultraviolet spectrophotometry, respectively. The antioxidant activities of the silk sericin, including lipid peroxidation in the linoleic acid system, reducing power and ferrous-ion-chelating ability, were evaluated. The results showed that silk sericin had a strong scavenging capacity for hydroxyl, superoxide and DPPH radicals. The results also showed that silk sericin had potent antioxidative activity on the peroxidation of linoleic acid. The reducing power and ferrous-ion-chelating ability of silk sericin were significant. These results indicated that silk sericin from silkworm B. mori was a natural antioxidant with potent antioxidative activity.
Most of silk sericin must be removed during raw silk production at the reeling mill and other stages of silk processing. At present, silk sericin is mostly discarded in silk processing waste water. If silk sericin is recovered and recycled, it can represent a significant economic and social benefit. Silk sericin is a natural macromolecular protein derived from the silkworm Bombyx mori . Silk sericin is useful because of its antioxidant activity. Silk sericin can be cross linked, copolymerized and blended with other macromolecular materials, especially artificial polymers, to produce materials with improved properties. The protein is also used as an improving reagent or a coating material for natural and artificial fibers, fabrics and articles. The materials modified with silk sericin and sericin composites are useful as degradable biomaterials, biomedical materials and functional membranes. 相似文献
PRACTICAL APPLICATIONS
Most of silk sericin must be removed during raw silk production at the reeling mill and other stages of silk processing. At present, silk sericin is mostly discarded in silk processing waste water. If silk sericin is recovered and recycled, it can represent a significant economic and social benefit. Silk sericin is a natural macromolecular protein derived from the silkworm Bombyx mori . Silk sericin is useful because of its antioxidant activity. Silk sericin can be cross linked, copolymerized and blended with other macromolecular materials, especially artificial polymers, to produce materials with improved properties. The protein is also used as an improving reagent or a coating material for natural and artificial fibers, fabrics and articles. The materials modified with silk sericin and sericin composites are useful as degradable biomaterials, biomedical materials and functional membranes. 相似文献
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为了获得大豆蛋白/棉混纺织物的深浓染色效果,研究DE改性的大豆蛋白/棉混纺织物对双活性基B型活性染料染色性能的影响,确定出了DE改性的大豆蛋白/棉混纺织物的较佳染色工艺,并对其染色效果进行评定.结果表明,DE改性的大豆蛋白/棉混纺织物显著改善了对B型活性染料的染色性能,而且皂洗牢度令人满意,从而为大豆蛋白/棉混纺织物深浓染色提供一条途径. 相似文献
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为提高聚丁二酸丁二醇酯(PBS)纤维的服用舒适性,将PBS与天然高分子丝胶蛋白共混,经熔融纺丝制成PBS/丝胶蛋白共混纤维,研究了丝胶蛋白质量分数对纤维形态结构、化学结构、热性能、力学性能与降解性能的影响。结果表明:共混纤维具有丝胶蛋白为分散相,PBS为连续相的形态结构;丝胶蛋白的存在改善了PBS纤维断裂伸长率过高的问题,当其质量分数达到15%时,共混纤维的断裂伸长率为8.9%;共混纤维的饱和回潮率为3.90%,接近于合成纤维中的锦纶,说明共混纤维亲肤性能优良;此外,土埋降解实验6周后共混纤维的质量损失率可达53.6%,具有快速降解的能力。 相似文献
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大豆蛋白是大豆水酶法的主要副产物,提高大豆蛋白提取率对于更好地实现大豆水酶法副产物的综合利用意义重大。通过将琥珀酰化与水酶法相结合,研究了加酶量、液料比、琥珀酸酐添加量、酶解时间和改性时间对总蛋白提取率的影响,并利用响应面分析法优化出最佳改性工艺参数:加酶量为2.24%,液料比为5.25∶1,琥珀酸酐添加量为5.13%,酶解时间为3.21 h,改性时间为1.64 h。在此条件下的总蛋白提取率为93.01%,多肽提取率为66.02%,与改性前相比分别提高了4.37%和23.46%。 相似文献