Evaluation of Nylon 6 and Nylon 66 Cord Fabrics for Scooter Tyre Production under Different Curing Conditions

Cord fabric is a critical material used in the manufacture of tyres and various composite materials to increase durability and strength. The tyre consists of many layers of cord fabric, with each layer being referred to as a cord ply. These layers are strategically positioned within the tyre’s internal structure, particularly in the tread and sidewall areas, to improve handling, durability and impact resistance. The cord fabric also serves a critical role in maintaining the structural integrity of the tyre, ensuring that it retains its contour and resists deformations under different operating conditions. This study discusses the advantages and disadvantages of using Nylon 6 (NY6) and Nylon 66 (NY66) cord fabrics in scooter tire production, with a focus on their mechanical behavior under varying curing temperatures and pressures. It was observed that while the curing time for both NY6 and NY66 remained consistent across different platen temperatures and pressures, their mechanical properties showed significant differences. NY6, known for its flexibility and impact resistance, exhibited greater changes in cord-breaking strength and elongation with increasing temperature, showing a marked decrease in breaking strength at higher temperatures. In contrast, NY66 maintained better stability and performance under similar conditions.

A sustainable process to 100%bio-based nylons integrated chemical and biological conversion of lignocellulose

Considerable progress has been made in recent years to the development of sustainable polymers from bio-based feedstocks.In this study,100%bio-based nylons were prepared via an integrated chemical and biological process from lignocellulose.These novel nylons were obtained by the melt polymerization of 3-propyladipic acid derived from lignin and 1,5-pentenediamine/1,4-butanediamine derived from carbohydrate sugar.Central to the concept is a three-step noble metal free catalytic chemical funnelling sequence(Raney Ni mediated reductive catalytic fractionation-reductive funnelling-oxidative funnelling),which allowed for obtaining a single component 3-propyladipic acid from lignin with high efficiency.The structural and thermodynamic properties of the obtained nylons have been systematically investigated,and thus obtained transparent bio-based nylons exhibited higher Mw(>32,000)and excellent thermal stability(Td5%>265℃).Considering their moderate Tg and good melt strength,these transparent bio-based nylons could serve as promising functional additives or temperature-responsive materials.

NILIT enabling nylon recycling through products and partnership

Migdal Haemek,Israel,April 2,2024.NILIT,the global market leader,and a producer of high quality Nylon 6.6 for apparel and owner of the SENSIL?brand,introduces SENSIL?Flow,a new approach to Nylon 6.6 circularity that enables yarn,fabric,and,ultimately,apparel recycling to eliminate waste and further reduce apparel’s environmental impact.SENSIL?Flow is more than just a sustainable performance product.It is an innovative approach that engages the entire supply chain to truly attain circularity through product design and partnership.

Nylon innovation to a new height!The digital person“Rong”lights up the fiber highlight moment

Fujian Eversun Jinjiang Co.,Ltd.(hereinafter referred to as“Eversun Jinjiang”)and China International Fabrics Design Competition once again jointly set up the“Nylon Product Development&Application Prize”in 2023.After three consecutive years of growth,the award has brought together high-quality nylon products and high-level fabric development enterprises,and accelerated the process of industrial chain coordination and high-quality development.At the 2023 China International Fabrics Design Competition award ceremony held on August 28,fabrics from six outstanding textile enterprises respectively won the Fashion Color Award for Nylon Fabric,Innovation Award for Nylon Fabric Development,and Market Application Award for Nylon Fabric.The six award-winning fabrics in color,style,feel,technology,function,product fancy application has reached a new level compared to previous years.

苯乙烯-马来酸酐共聚物增容Nylon-6/ABS共混体系的形态和力学性能

通过熔融共混法制备了苯乙烯-马来酸酐共聚物(SMA)增容的尼龙6(Nylon-6)/ABS共混物.采用TEM、SEM、FTIR等研究了SMA增容的Nylon-6/ABS共混物的相形态与性能.发现在Nylon-6和ABS的简单共混体系中,分散相易聚集,相界面清晰,断裂面光滑,呈脆性断裂,相容性差.加入少量SMA后,共混物由共连续相结构转变为典型的"海-岛"结构,分散相分布均匀,界面粘接程度增加,表明SMA对Nylon-6/ABS体系有显著的增容效果.

金纳米-Nylon柔性膜基底的制备及其SERS性能研究

表面增强拉曼光谱(SERS)是目前最灵敏的分析技术之一,广泛应用于生命科学、材料科学、环境科学及分析化学等领域。SERS基底的特性决定了该技术的实际应用范围,是推动该技术发展的关键,高活性SERS基底的制备已经逐渐成为SERS研究领域的热点。为了获得最佳的拉曼信号,对具有特殊特性的SERS活性基底的需求一直很大。柔性SERS基底因具有良好的柔韧性,3D支架结构和表面可控的孔径大小等独特优势,在检测化合物和细菌等方面有很好的应用价值。Nylon(尼龙)柔性膜表面具有分级及多孔交错排列3D结构的特点,将固相萃取装置与特殊材料Nylon柔性膜相结合,通过改变金纳米颗粒的附着量以及金纳米颗粒与膜结合次数,制备了高SERS活性的金纳米-Nylon(Au-Nylon)柔性膜基底。研究表明,金纳米颗粒能很好地附着在Nylon纤维上,纳米颗粒与Nylon柔性膜表面等离子共振耦合作用,形成金纳米颗粒与Nylon纤维的复合体,Au-Nylon柔性膜基底的等离子共振吸收峰发生蓝移。首次处理后的Nylon纤维与其所附着的金纳米颗粒形成新的活性截留层,有助于使再次处理时金颗粒更好地附着在柔性膜表面,产生SERS“热点”效应,提高其SERS性能。利用结晶紫(CV)作为SERS探针分子,对Au-Nylon柔性膜基底SERS性能进行分析,发现CV探针分子在Au-Nylon柔性膜基底上的SERS强度随金纳米颗粒的附着量以及金纳米颗粒与膜结合次数而变化。对于面积为1 cm^(2)的Au-Nylon柔性膜基底,当单次过滤金溶胶1 mL,与膜结合2次,总结合量2 mL时,CV探针分子的SERS信号最强,SERS活性最强。采用Au-Nylon柔性膜基底对浓度为2.5×10^(-5),1×10^(-5),1×10^(-6),5×10^(-7)及1×10^(-7) mol·L^(-1)的CV溶液进行的SERS检测,发现Au-Nylon柔性膜基底对CV探针分子检测极限达1×10^(-6) mol·L^(-1),增强因子达到1.0×10^(4)。此外,Au-Nylon柔性膜基底均匀性较好,相对平均偏差为11.8%。Au-Nylon柔性膜基底在微生物检测中,仍具有良好SERS活性,对金黄色葡萄球菌的SERS增强效果优于金溶胶。由此可见,研究中制备的Au-Nylon柔性具有良好的均一性,并具有较好的SERS活性,该方法简单且易批量制备,无论在化合物检测还是微生物检测中都具有良好的实际应用价值。

Nylon6复合材料的阻燃性能研究

针对目前无机阻燃剂对Nylon6阻燃效果差的研究现状,考察了滑石粉、MCA、有机蒙脱土含量对Nylon6复合材料力学性能和阻燃性能的影响.研究结果表明:随着三种阻燃剂用量的增加,Nylon6拉伸强度都有不同程度的增加,其中添加MCA的拉伸强度增加最明显,从纯Nylon6的78.13 MPa增加到90.65 MPa,增加了16%;随着阻燃剂用量的增加,Nylon6冲击强度和熔融指数都有下降;当有机蒙脱土含量为10%时,Nylon6复合材料的氧指数由20.71升高到27.89,增加了35%,继续增加有机蒙脱土用量,氧指数增加不明显.

Nylon-6/PET共混物增容方法的研究

分别用对甲苯磺酸(TsOH)与钛酸酯偶联剂作为Nylon-6与PET酯-酰胺交换反应的催化剂,以达到原位增容Nylon-6/PET共混物的目的,通过扫描电镜(SEM)观察了共混物的结构形态,SEM观察表明这两种催化剂都具有增容作用。共混物的力学性能与熔体流动速率测试结果表明,催化剂的加入,降低了Nylon-6与PET的分子量。

助剂Levegal FTS在Telon类染料上染Nylon的应用

介绍了Telon类染料及匀染剂Levegal FTS,分析了Telon染料用量的计算方法,并通过实验得到了匀染剂Levegal FTS的最佳用量,简要说明了Telon类染料染Nylon的各项最佳染色工艺条件。

KINETICS OF NON-ISOTHERMAL CRYSTALLIZATION OF NYLON-1010

The kineties of non-isothermal crystallization of Nylon-1010 has been investigated by using differential scanning calorimetry(DSC), DSC curves were obtained under cooling rate(R): 2. 5, 5, 10, 20, 40K/min. Applying Mandelkern and Ziabicki theories, the values of the Z kinetic parameter and G the kinetic crystalllzab- ility have been determined. Expenents of Avrami obtained in this work decrease with increase of cooling rate and then level off. The experimental results show disagreements with the Ozawa equation.

热处理对Nylon-11结构的影响

对不同温度热处理过的Nylon－11样品，采用广角X射线衍射（WAXD），根据X射线衍射强度理论，用多重峰图解分峰方法研究了Nylon－11结构的变化，并导出了计算Nylon－11结晶度的公式．所得结果与密度法、DSC法进行了比较．同时也给出了Nylon－11的有关热力学参数，

热致液晶共聚酯／Nylon－1010共混物的研究

利用偏光显微镜（ＰＬＭ），差示扫描量热计及广角Ｘ－射线衍射等手段研究了热致液晶共聚酯／Ｎｙｌｏｎ－１０１０共混体系．发现当热致液晶共聚酯（ＨＴＨ１０）含量达到３０％时共混物微结构与纯ＨＴＨ１０相似．尼龙－１０１０的结晶度先是随ＨＴＨ１０含量增加而增加，随后又随之下降，但其结晶温度却随ＨＴＨ１０加入而单调下降，共混物的熔融热焓△Ｈｍ在ＨＴＨ１０含量为３０％时与计算值有较大的偏差，广角Ｘ－射线衍射结果表明，此时共混物结构发生了较为明显的变化，两组份之间在此时存在一定的相互作用．

PVP对Nylon6形貌及结晶行为影响的研究

采用变温红外光谱、示差扫描量热(DSC)和偏光显微镜(POM)等方法研究了聚乙烯吡咯烷酮(PVP)与尼龙6(nylon6)分子间的相互作用及其对nylon6热行为及结晶形貌的影响。DSC结果表明PVP的加入明显影响了nylon6的熔融和结晶行为:随着PVP含量增加,PVP/nylon6共混物的结晶温度、熔融温度及结晶度均逐渐降低;POM观察显示:随着PVP含量增多,nylon6的球晶尺寸变小、球晶逐渐变得不完善。变温红外光谱结果表明,无定形PVP分子的羰基能够与nylon6分子的N—H基团形成新的氢键,部分破坏了nylon6分子之间的氢键结构,从而阻碍了nylon6分子的规整排列,使其结晶度降低并导致nylon6结晶形貌的变化。

Study on Preparation and Properties of La_2O_3/MC Nylon Nanocomposites

A series of La2O3/MC nylon nanocomposites were prepared via in situ polymerization. The effects of content of nano-La2O3 on the mechanical properties of nanocomposites were studied. Dispersion of nano-La2O3 in MC nylon matrix was observed with SEM. The crystal structure of nanocomposites was characterized by means of XRD. SEM analysis shows that La2O3 nanoparticles are uniformly dispersed in MC nylon matrix and little clustering exists when the content of nano- La2O3 is lower than 1%, however, when the content of nano-La2O3 is more than 1%, it begins to cluster. XRD analysis indicats that nano-La2O3 does not change the crystal structure of MC nylon. Mechanical properties tests show that the tensile strength, elongation at break, impact strength, flexural strength, and flexural modulus of nanocomposites first increase then decrease as the content of nano-La2O3 is increased. When the content of nano-La2O3 is 0.5%, the tensile strength and elongation at break of nanocomposites reach maximum, which are 17.9% and 52.1% higher respectively than those of MC nylon. When the content of nano-La2O3 is 1.0%, the impact strength, flexural strength and flexural modulus of nanocomposites reach maximum, which are 36.6 %, 12.7 % and 16.3 % higher respectively than those of MC nylon.

离子聚合物在Nylon－1010／PP共混物中的增容作用

离子聚合物在Ｎｙｌｏｎ－１０１０／ＰＰ共混物中的增容作用曲桂杰，刘景江（中国科学院长春应用化学研究所长春１３００２２）关键词聚丙烯，Ｎｙｌｏｎ－１０１０，离子聚合物，增容选择离子聚合物作为高聚物共混的增容剂，通过离子间的相互作用可达到增容效果［１］。...

Isothermal and nonisothermal crystallization kinetics of bio-sourced nylon 69

Bio-sourced nylon 69,one of promising engineering plastics,has a great potential in developing sustainable technology and various commercial applications.Isothermal and nonisothermal crystallization kinetics of nylon 69 is a base to optimize the process conditions and establish the structure–property correlations for nylon 69,and it is also highly bene ficial for successful applications of nylon products in industry.Isothermal and nonisothermal crystallization kinetics has been investigated by differential scanning calorimetry for nylon 69,bio-sourced even–odd nylon.The isothermal crystallization kinetics has been analyzed by the Avrami equation,the calculated Avrami exponent at various crystallization temperatures falls into the range of 2.28 and 2.86.In addition,the Avrami equation modi fied by Jeziorny and the equation suggested by Mo have been adopted to study the nonisothermal crystallization.The activation energies for isothermal and nonisothermal crystallization have also been determined.The study demonstrates that the crystallization model of nylon 69 might be a twodimensional(circular)growth at both isothermal and nonisothermal crystallization conditions.Furthermore,the value of the crystallization rate parameter(K)decreases signi ficantly but the crystallization half-time(t1/2)increases with the increase of the isothermal crystallization temperature.To nonisothermal crystallization,the crystallization rate increases as the cooling rate increases according to the analysis of Jeziorny's theory.The results of Mo's theory suggest that a faster cooling rate is required to reach a higher relative degree of crystallinity in a unit of time,and crystallization rate decreases when the relative degree of crystallinity increases at nonisothermal crystallization conditions.

Tribological Behavior of MC Nylon6 Composites Filled with Glass Fiber and Flyash

To improve tribological property of MC Nylon6, the glass fiber and fly ash reinforced monomer casting nylon compogites （GFFAPA） were prepared by anionic polymerization of e-caprolactam. The friction and wear behaviors of composites under dry condition, water lubrication and oil lubrication were investigated through a ring-black wear tester. Worn surfaces were analyzed using a scanning electron microscope. The experimental results show that the tensile strength and hardness of nylon composites are obviously improved with reinforcement increasing. Compared to MC nylon, the lowest friction coefficient and wear rate of glass fiber reinforced nylon composites （GFPA） with GF30% respectively decrease by 33.1% and 65.3%, of fly ash reinforced nylon composites （FAPA） with FA20% decrease by 5.2% and 68.9% and of GFFAPA composites with GF30% and FA10% decrease by 57.8% and 89.9%. The main wear mechanisms of FAPA composites are adhesive and abrasive wear and of GFPA composites with high proportion are abrasive and fatigue wear. The wom surfaces of GFFAPA composites are much multiplex and the optional distributing glass fiber and fly ash have a synergetic effect on the wear resistance for GFFAPA composites. Compared with dry friction, the friction coefficient and wear rate under oil lubricated conditions decrease sharply while the latter reversely increase under water lubricated conditions. The wear mechanisms under water lubricated condition are principally chemical corrosion wear and abrasive wear and they become boundary friction under oil lubricated condition.

THE EFFECT OF BLENDING SEQUENCE ON PHASE MORPHOLOGY OF NYLON 6/ABS/SMA BLENDS

The preparation process-dependent phase morphology of blends composed of nylon 6 and acrylonitrile-butadiene- styrene(ABS)over a composition range of 30-70 wt% using a styrene-maleic anhydride(SMA)copolymer as the compatibilizing agent with a constant content(5phr)was investigated.The results of the scanning electron microscope (SEM)observation revealed that compared with the binary blends of nylon 6 and ABS,the existence of SMA caused a composition shift of phase inversion to a higher weight fraction of ny...

Non-isothermal crystallization kinetics of Nylon 10T and Nylon 10T/1010 copolymers:Effect of sebacic acid as a third comonomer

Nylon 10 T and Nylon 10T/1010 samples were synthesized by direct melt polymerization. The non-isothermal crystallization kinetics of Nylon 10 T and Nylon 10T/1010 was investigated by means of differential scanning calorimetry(DSC). Jeziorny equation and Mo equation were applied to describe the non-isothermal crystallization kinetics of the Nylon 10 T and the Nylon 10T/1010. The activation energies for non-isothermal crystallization were obtained by Vyazovkin's method and Friedman's method, respectively. These results showed that Jeziorny equation and Mo equation well described the non-isothermal crystallization kinetics of the Nylon 10 T and the Nylon 10T/1010. It was found that the values of the activation energy for non-isothermal crystallization of the Nylon 10T/1010 were lower than those of the Nylon 10 T at a given temperature or relative crystallinity degree,which revealed that crystallization ability of the Nylon 10T/1010 was higher. The crystal morphology was observed by means of a polarized optical microscope(POM) and X-ray diffraction(XRD). It was found that the addition of sebacic acid comonomer not only did not change the crystal form of the Nylon 10 T, but also significantly increased the number and decreased the size of spherulites. Comparing with the Nylon 10 T, the crystallization rate was increased with the addition of the sebacic acid comonomer.

MELTING CRYSTALLIZATION BEHAVIOR OF NYLON 66

Analysis of isothermal and nonisothermal crystallization kinetics of nylon 66 was carried out using differential scanning calorimetry (DSC). The commonly used Avrami equation and that modified by Jeziorny were used, respectively, to fit the primary stage of isothermal and nonisothermal crystallizations of nylon 66. In the isothermal crystallization process, mechanisms of spherulitic nucleation and growth were discussed. The lateral and folding surface free energies determined from the Lauritzen-Hoffman treatment are sigma = 9.77 erg/cm(2) and sigma (e) = 155.48 erg/cm(2), respectively; and the work of chain folding is q = 33.14 kJ/mol. The nonisothermal crystallization kinetics of nylon 66 was analyzed by using the Mo method combined with the Avrami and Ozawa equations. The average Avrami exponent (n) over bar was determined to be 3.45. The activation energies (DeltaE) were determined to be -485.45 kJ/mol and -331.27 kJ/mol, respectively, for the isothermal and nonisothermal crystallization processes by the Arrhenius and the Kissinger methods.