Treated Polyester(处理过的聚酯)研究综述
Treated Polyester 处理过的聚酯 - With EA, both the acid/EA-treated and alkali/EA-treated polyesteramide membranes exhibited a significant increase in water flux; moreover, the acid/EA-treated membranes showed a simultaneous increase in water flux and salt rejection within a treatment time of 24 h, due to the increase in hydrophilicity and the partial dissolution of small polymer fragments on membrane surface. [1] LCA “gate-to-grave” approach was employed to study two technical textiles with the same weight but different functionalities, one is flame retardant (FR) treated wool and the other is silver nanoparticles (AgNPs) treated polyester. [2]使用 EA,酸/EA 处理和碱/EA 处理的聚酯酰胺膜均显示出水通量显着增加;此外,由于亲水性的增加和膜表面小聚合物碎片的部分溶解,酸/EA 处理的膜在 24 小时的处理时间内显示出水通量和盐截留率同时增加。 [1] LCA“从门到坟”方法用于研究两种重量相同但功能不同的技术纺织品,一种是阻燃 (FR) 处理的羊毛,另一种是银纳米粒子 (AgNPs) 处理的聚酯。 [2]
Plasma Treated Polyester 等离子处理的聚酯
Sufficiently, higher dyeing performances were noted for plasma treated polyester when compared to the untreated fabric. [1] Dyeing of plasma treated polyester fiber with a bio-based logwood dye without any addition of metallic mordant while imparting antibacterial properties, was found to be a promising strategy opening up a suitable eco-option for replacing some of the hazardous dyes and intermediates used in textile dyeing. [2]与未经处理的织物相比,等离子体处理的涤纶具有更高的染色性能。 [1] 在不添加任何金属媒染剂的情况下,用生物基原木染料对等离子处理的聚酯纤维进行染色,同时赋予抗菌性能,这是一种有前途的策略,为替代纺织品中使用的一些危险染料和中间体开辟了合适的生态选择染色。 [2]
treated polyester fabric 处理过的涤纶面料
The presence of chitosan on the fabric was verified by scanning electron microscopy and by dyeing of the pretreated polyester fabric using a reactive dye with sulfonated groups that are able to be absorbed by electrostatic attraction because of the created cationic nature of the fiber surface treated by chitosan. [1] The breaking strength and elongation at break of treated polyester fabric increases and decreases, respectively. [2] Disperse Yellow 211 to dye ozone-treated polyester fabrics and evaluated the effects of ozone treatment using FTIR-ATR, Raman spectroscopy, SEM imaging, rubbing tests, and capillarity measurements. [3] Dispersive X-ray spectroscopy (EDX) of the untreated and treated polyester fabrics was measured. [4] The effect of water content on hydrophobicity was evaluated by manual testing on the treated polyester fabric samples. [5] Without appreciable deterioration in its inherent properties, the different structures of treated polyester fabric exhibited induced hydrophilicity, enhanced electrical conductivity, improved resistance to ultraviolet radiation and better water vapour permeability. [6] Activated post-treated polyester fabrics exhibited outstanding antimicrobial and UV protection efficiency. [7] Magnetization measurements revealed the saturation magnetization of 14 emu/g for the treated polyester fabric resulted in the noticeable improvement in the magnetic properties. [8] The printing accuracy of disperse inks was evaluated by inkjet printing quality of lines on untreated polyester fabrics. [9]通过扫描电子显微镜和通过使用具有磺化基团的活性染料对预处理的聚酯织物进行染色来验证织物上壳聚糖的存在,由于壳聚糖处理的纤维表面产生的阳离子性质,该磺化基团能够被静电吸引吸收. [1] 处理过的涤纶织物的断裂强力和断裂伸长率分别增加和减少。 [2] 将 Yellow 211 分散到经臭氧处理的聚酯织物上染色,并使用 FTIR-ATR、拉曼光谱、SEM 成像、摩擦测试和毛细现象测量来评估臭氧处理的效果。 [3] 测量了未处理和处理过的聚酯织物的色散 X 射线光谱 (EDX)。 [4] 通过对处理过的聚酯织物样品进行人工测试来评估含水量对疏水性的影响。 [5] 经处理的聚酯织物的不同结构在其固有性能没有明显下降的情况下表现出诱导亲水性、增强的导电性、改善的抗紫外线辐射和更好的水蒸气渗透性。 [6] 活化后处理的涤纶织物表现出出色的抗菌和紫外线防护效率。 [7] 磁化测量表明,处理过的聚酯织物的饱和磁化强度为 14 emu/g,导致磁性能显着提高。 [8] 通过在未经处理的涤纶织物上喷墨打印线条的质量来评估分散油墨的打印精度。 [9]
treated polyester sample
Mechanically-treated polyester samples, dominated by fleeces and jerseys, released six times more microfibers (161 ± 173 mg kg-1 per wash) than did nylon samples with woven construction and filamentous yarns (27 ± 14 mg kg-1 per wash). [1] The treated polyester samples dyed with dispersing dyes and the fastness properties were carried out. [2]机械处理的聚酯样品(以羊毛和平纹针织物为主)释放的微纤维(每次洗涤 161 ± 173 mg kg-1)是织造结构和丝状纱线的尼龙样品(每次洗涤 27 ± 14 mg kg-1)的六倍。 [1] 对用分散染料染色的处理过的聚酯样品和牢度性能进行了测试。 [2]
treated polyester net 处理过的聚酯网
Untreated polyester nets may be made long-lastingly insecticidal in Africa through simple household treatment using ICON Maxx pyrethroid-binder kits. [1] Untreated polyester nets may be made long-lastingly insecticidal in Africa through simple household treatment using ICON Maxx pyrethroid-binder kits. [2]通过使用 ICON Maxx 拟除虫菊酯粘合剂套件进行简单的家庭处理,未经处理的聚酯网可以在非洲制成持久的杀虫剂。 [1] 通过使用 ICON Maxx 拟除虫菊酯粘合剂套件进行简单的家庭处理,未经处理的聚酯网可以在非洲制成持久的杀虫剂。 [2]