Woven Polyester(机织涤纶)研究综述
Woven Polyester 机织涤纶 - The effects of atmospheric air plasma treatment based on dielectric barrier discharge (DBD) technology on the surface alteration of a woven polyester (PET) textile fabric were investigated. [1] The silk composites also contained different amounts of in-woven polyester. [2] Findings The maximum oil sorption of recycled nonwoven polyester is found to be 24. [3] The incorporation of woven polyester in the polymeric system has enhanced the properties of PLA. [4] 6 % for the blank sample (nonwoven polyester). [5] PurposeThe purpose of this research was to find the influence of sublimation process on air permeability and water absorption dynamics of knitted and woven polyester-based fabrics. [6] A CSDO is a double-disc self-expanding closure device made of nitinol and interwoven polyester. [7] A DM was established on woven polyester with a pore size of 50 µm, which achieved a solids retention time to hydraulic retention time ratio of 2. [8]研究了基于介质阻挡放电 (DBD) 技术的大气空气等离子体处理对机织聚酯 (PET) 纺织织物表面变化的影响。 [1] 丝绸复合材料还含有不同数量的编织聚酯。 [2] 发现 发现再生非织造聚酯的最大吸油量为 24。 [3] 在聚合物体系中加入机织聚酯增强了 PLA 的性能。 [4] 空白样品(非织造聚酯)为 6%。 [5] 目的本研究的目的是研究升华过程对针织和机织涤纶基织物透气性和吸水性的影响。 [6] CSDO是一种由镍钛诺和交织聚酯制成的双盘自膨胀闭合装置。 [7] 在孔径为 50 µm 的机织聚酯上建立了 DM,其固体停留时间与水力停留时间之比为 2。 [8]
Standard Woven Polyester 标准机织涤纶
Spray coated organic light emitting electrochemical cells (LECs) have been fabricated on a standard woven polyester cotton textile for wearable display applications. [1] In this article, organic light-emitting electrochemical cells (OLECs) have been fabricated on a substrate consisting of a standard woven polyester cotton textile. [2]喷涂有机发光电化学电池 (LEC) 已在用于可穿戴显示器应用的标准编织聚酯棉织物上制造。 [1] 在本文中,有机发光电化学电池 (OLEC) 是在由标准编织涤棉纺织品组成的基板上制造的。 [2]
woven polyester fabric 机织涤纶面料
As a potential solution, we propose a textile antenna that consists of a copper-plated woven polyester fabric as a radiating patch and a ground plane and a woven polyester fabric as a dielectric substrate and a padding layer. [1] Therefore, in this paper, the non-woven polyester fabric (NWPF)-supported cuprous oxide nanoparticles (Cu2O) decorated on rGO (Cu2O/rGO@NWPF) membrane were suggested to synthesize via chemical reduction method. [2] Syndiotactic polystyrene (sPS) and polyimide (PI) gels that provide respectively majority macropores (diameter > 50 nm) and mesopores (diameter 2 to 50 nm) are coated onto woven polyester fabrics via a dip coating process. [3] Flat sheet PVDF composite membranes containing nanoparticles are prepared by the casting solution method using nanoparticle concentrations that ranged between 2–20% with a non-woven polyester fabric as support. [4] In the first, the woven polyester fabric, after washing to remove lubricant oils, was treated with the dielectric barrier discharge (DBD) plasma at the short plasma exposure time (from 15 to 90 s). [5] It consists of four similar compartments, each containing 40% of a non-woven polyester fabric as a bio-bed. [6] A three-layered PVC sheet consisting of polyvinyl chloride (PVC) and woven polyester fabric was prepared by extrusion and calendering. [7] An integrally skinned polyaniline membrane was cast on a woven polyester fabric and then was chemically crosslinked with glutaraldehyde in order to further increase the membranes resistant in a methyl ethyl ketone and toluene mixture. [8] The membranes were supported by nonwoven polyester fabric with a special cellular structure. [9] KEyWoRdS Annular Ring Antenna, Circular Polarization, Conductive Fabrics Configuration, Probe Feed, Stacked, Wearable Textile Antenna, Woven and Non-Woven Polyester Fabrics. [10] The speaker designs were printed on woven polyester fabric and produced a measured peak sound output level of 85 dB with a wide frequency response from 20 Hz to 20 kHz. [11] The Cu inner layer was obtained by electroless plating on nonwoven polyester fabrics. [12]作为一种潜在的解决方案,我们提出了一种纺织天线,它由作为辐射贴片和接地平面的镀铜编织聚酯织物和作为电介质基板和衬垫层的编织聚酯织物组成。 [1] 因此,在本文中,建议通过化学还原法合成装饰在 rGO (Cu2O/rGO@NWPF) 膜上的无纺聚酯织物 (NWPF) 负载的氧化亚铜纳米粒子 (Cu2O)。 [2] 通过浸涂工艺将分别提供主要大孔(直径 > 50 nm)和中孔(直径 2 至 50 nm)的间规聚苯乙烯 (sPS) 和聚酰亚胺 (PI) 凝胶涂覆到机织聚酯织物上。 [3] 含有纳米粒子的平板 PVDF 复合膜是通过浇铸溶液法制备的,纳米粒子浓度在 2-20% 之间,以无纺聚酯织物为支撑。 [4] 首先,涤纶机织织物在洗涤去除润滑油后,在短等离子体暴露时间(从 15 到 90 秒)下用介电阻挡放电 (DBD) 等离子体处理。 [5] 它由四个类似的隔间组成,每个隔间都包含 40% 的无纺聚酯织物作为生物床。 [6] 通过挤出和压延制备了由聚氯乙烯(PVC)和机织聚酯织物组成的三层PVC片材。 [7] 将整体结皮的聚苯胺膜浇铸在机织聚酯织物上,然后与戊二醛化学交联,以进一步提高膜在甲基乙基酮和甲苯混合物中的耐受性。 [8] 膜由具有特殊蜂窝结构的非织造聚酯织物支撑。 [9] KEYWoRdS 环形天线、圆极化、导电织物配置、探头馈电、堆叠、可穿戴纺织天线、织造和非织造聚酯织物。 [10] 扬声器设计印在编织涤纶织物上,测得的峰值声音输出电平为 85 dB,频率响应范围为 20 Hz 至 20 kHz。 [11] 铜内层通过化学镀在非织造聚酯织物上获得。 [12]
woven polyester fiber
These results indicate the applicability of the PVDF-PTFE nanocomposite membranes supported on non-woven polyester fiber for desalination. [1] The aim of this work is to investigate the drilling behavior of multiple layer orthotropic polyester composite reinforced with woven polyester fiber and PTFE particle. [2] The major reasons for this response were higher surface energy of the PVDF membrane and the non-woven polyester fibers present as a support layer in the membrane. [3]这些结果表明了支撑在无纺聚酯纤维上的 PVDF-PTFE 纳米复合膜用于脱盐的适用性。 [1] 这项工作的目的是研究编织聚酯纤维和 PTFE 颗粒增强的多层正交各向异性聚酯复合材料的钻孔行为。 [2] 这种反应的主要原因是 PVDF 膜具有较高的表面能,并且无纺聚酯纤维作为支撑层存在于膜中。 [3]
woven polyester substrate
Fabrication of the antenna is done using polyimide copper laminates etched with ultra thin size 150 µm on a woven polyester substrate of 310 µm thickness. [1] The antenna has been fabricated on a 310 μm woven polyester substrate using etched ultra-thin Polyimide copper laminates with a minimum feature size of 150μm. [2]天线的制造是在 310 µm 厚的编织聚酯基板上使用蚀刻有 150 µm 超薄尺寸的聚酰亚胺铜层压板完成的。 [1] 该天线采用最小特征尺寸为 150μm 的蚀刻超薄聚酰亚胺铜层压板在 310 μm 编织聚酯基板上制造。 [2]
woven polyester graft
Development of perigraft seroma is an uncommon complication that occurs after the surgical repair of the thoracic aorta using woven polyester grafts. [1] The arch was replaced using 28-mm collagen impregnated, woven polyester graft. [2]移植物周围血清肿的发展是一种罕见的并发症,发生在使用编织聚酯移植物对胸主动脉进行手术修复后。 [1] 使用 28 毫米胶原蛋白浸渍的编织聚酯移植物替换了足弓。 [2]
woven polyester cotton 机织涤棉
Spray coated organic light emitting electrochemical cells (LECs) have been fabricated on a standard woven polyester cotton textile for wearable display applications. [1] In this article, organic light-emitting electrochemical cells (OLECs) have been fabricated on a substrate consisting of a standard woven polyester cotton textile. [2]喷涂有机发光电化学电池 (LEC) 已在用于可穿戴显示器应用的标准编织聚酯棉织物上制造。 [1] 在本文中,有机发光电化学电池 (OLEC) 是在由标准编织涤棉纺织品组成的基板上制造的。 [2]