碳素纤维在近岸海洋污染物磷酸盐、硅酸盐处理中的应用

对碳素纤维进行氧化改性,利用改性后的碳素纤维处理近岸污染海水,重点研究了改性碳素纤维对海水中活性磷酸盐和活性硅酸盐的吸附作用。考察了碳素纤维液相改性时间、碳素纤维投加量、活性磷酸盐初始浓度、活性硅酸盐初始浓度、吸附时间、海况、pH值等单因素对近岸海洋污染物磷酸盐、硅酸盐吸附效果的影响。研究结果表明:改性碳素纤维对硅酸盐的吸附效果较好,去除率可达70%,对活性磷酸盐的去除率为31%左右。通过正交实验确定改性碳素纤维材料修复模拟近岸海水的优化条件为:碳素纤维改性时间为1.5 h,投加量为0.01 g,硅酸盐初始浓度为3mg/L,磷酸盐初始浓度为20 mg/L,海况为3级,pH值为8,吸附时间为3 h。在此条件下,碳素纤维对磷酸盐的去除率可达31.06%,硅酸盐去除率可达70.88%。     

C/YAG复合材料的抗烧蚀性能研究

目的对C/YAG复合材料的烧蚀性能和烧蚀机理进行研究。方法以高固相含量Y_2O_3-Al_2O_3溶胶为原料,低成本的碳纤维针刺毡为增强体,通过浸渍-干燥-热处理工艺制备C/YAG复合材料,利用SEM和XRD对烧蚀后材料的微观结构和物相组成进行分析。结果复合材料的质量烧蚀率和线烧蚀率分别为0.05g/s和0.12 mm/s。结论 C/YAG复合材料高的质量烧蚀率和线烧蚀率主要归因于氧乙炔焰高热流和强剪切力作用。烧蚀后材料的微观形貌可以分为中心区、过渡区和边缘区三个区域。其中烧蚀中心区主要受到热化学腐蚀和机械剥蚀的作用,而过渡区和边缘区主要受到热化学腐蚀和热物理侵蚀的作用。     

Investigation of acetylated kapok fibers on the sorption of oil in water

Kapok fibers have been acetylated for oil spill cleanup in the aqueous environment. The structures of raw and acetylated kapok fiber were characterized using Fourier transform infrared (FT-IR) spectroscopy and scanning electron microscopy (SEM). Without severe damage to the lumen structures, the kapok fibers were successfully acetylated and the resulting fibers exhibited a better oil sorption capacity than raw fibers for diesel and soybean oil. Compared with high viscosity soybean oil, low viscosity diesel shows a better affinity to the surface of acetylated fibers. Sorption kinetics is fitted well by the pseudo second-order model, and the equilibrium data can be described by the Freundlich isotherm model. The results implied that acetylated kapok fiber can be used as the substitute for non-biodegradable oil sorption materials.     

GO-TiO2改性中空纤维膜的制备条件及抗污染性能研究

以氧化石墨烯(GO)与纳米二氧化钛(TiO_2)为改性剂,采用界面聚合法与抽滤吸附结合,对聚偏氟乙烯中空纤维超滤膜(简称原膜)进行表面改性,得到新型纳米改性膜(简称GO-TiO_2改性膜).研究改性膜的制备工艺条件及其对腐殖酸(HA)的吸附截留性能与抗污染特性.结果表明:(1)最佳制备工艺条件为:钛酸丁酯2 m L、GO 1 mg、间苯二胺1%(质量分数)、间苯二胺浸泡时间8 min、均苯三甲酰氯0.2%(质量分数)、均苯三甲酰氯浸泡时间10 min;(2)亲水性提高显著,亲水性表面为GO-聚酰胺-TiO_2复合结构,改性膜接触角由80.6°±1.8°下降到38.6°±1.2°;(3)抗污染性能提高明显.改性膜通量总衰减率由改性前的51.2%下降到35.6%,过滤周期约为原膜的2.5倍;反冲洗后膜通量恢复率由69%提高到96%.     

基于光纤免疫传感器的壬基酚快速检测方法

壬基酚（NP）作为一种内分泌干扰物,越来越受到人们的关注。基于倏逝波光纤免疫传感器,利用间接竞争免疫反应原理,建立了一种NP的快速检测方法。通过对预反应时间、进样时间及抗体质量浓度等反应条件进行优化,提高了检测方法的灵敏度。结果表明,检测标准曲线符合Logistic模型,NP的定量检测区间为41.7~487μg/L,检出限为20μg/L,检测方法的半抑制质量浓度（IC₅₀值）为143 μg/L。利用建立的检测方法对实际水样进行加标回收实验,回收率为86%~114%,表明该方法可用于较清洁水样中NP的快速检测。     

负载稀土元素活性碳纤维在微型反应器中净化NO废气

以NH3为还原剂，以活性碳纤维（ACF）、HNO，浸渍的ACF、负载CuO的ACF和负载La2O3的ACF为催化剂，在微型反应器中考察各种催化剂对NO催化还原的活性，并进行了差热-热重、扫描电镜分析。实验结果表明，ACF负载La能有效地改善催化剂的活性，且催化活性中心为非晶态的氧化物；当ACF负载20％的La2O3时具有最好的低温活性，NO的去除率最高可达92％以上。     

Novel Biocomposites Sheet Molding Compounds for Low Cost Housing Panel Applications

Biocomposites were made by a novel high volume processing technique named biocomposite sheet molding compound panel (BCSMCP) manufacturing process. This process design was inspired by the commercial glass fiber–polyester resin composite fabrication method called sheet molding compounding (SMC). This process yields continuous production of biocomposites on a large scale, and thus can be easily adopted in industries. A unique fiber dispersion method, which enabled uniform distribution of natural fibers, was used in this process. Consistency of the process was tested by evaluating the repeatability of the resultant materials mechanical properties. The low cost biocomposites produced as a result of the processing will be used for various panel applications such as housing and transportation. The molded samples were tested for various mechanical and thermal properties, in accordance with ASTM procedures. The biocomposites were made with various natural fibers including, big blue stem grass, jute, and industrial hemp. By combining different natural fibers in varying mass fractions, hybrid biocomposites were made using this process. Grass fiber reinforced polyester biocomposites processed by the SMC line showed very promising results.     

Processing and Characterization of Short-Fiber Reinforced Jute/Poly Butylene Succinate Biodegradable Composites: The Effect of Weld-Line

Fabrication of complex injection molded parts often involves the use of multiple gates. In such situations, polymer melts from different gates meld to form the molded part (weld line). This paper reports on the fabrication and characterization of the mechanical and morphological properties of short fiber reinforced jute/poly butylene succinate (PBS) biodegradable composites. The effect of a dual gated mold in the fabrication of welded specimens was a key focus of the investigation. It was observed that incorporation of jute fiber (10 wt%) conferred drastic changes on the stress–strain properties of the matrix as the elongation at break (EB), dropped from 160% in the matrix to just 10% in the composite. The tensile strength of the composite was lower than that of the matrix. However, it is noteworthy that the tensile modulus of the composite increased. Bending test also revealed that both bending strength and modulus increased with the incorporation of jute. Morphological studies of the tensile fracture surface using SEM revealed two types of failure mode. Ductile failure was indicated by plastic deformation at the initiation of fracture followed by brittle failure. The good interfacial bonding indicated between jute and PBS was attributed to positive interaction between the two polar polymers. A comparison of the non-weld and weld-line samples revealed that the weld-line composites have better mechanical integrity than the corresponding polymer matrix with weld line. The results also revealed that elongation at break and toughness are most sensitive to the presence of the weld-line whereas flexural properties are least sensitive.     

Role of Amino Acids on <Emphasis Type="Italic">In Situ</Emphasis> Photografting of Jute Yarn with 3-(Trimethoxysilyl) Propylmethacrylate

To improve the mechanical performance of natural lignocellulosic jute yarn, grafting with [3-(trimethoxysilyl) propylmethacrylate] (TMSPM) monomer has been performed on in situ UV radiation and optimized the monomer concentration (30%) and irradiation time (30 min). Effect of various amino acids (1%) as additives in TMSPM with photografted jute yarn at optimized system has been studied. The polymer loading (PL) and tensile properties like tensile strength (TS) and elongation at break (Eb) of treated samples were enhanced by incorporation of amino acids and the highest properties (TS = 300% and Eb = 386%) achieved by the sample treated with l-Arginine (Arg) with 32.5% PL value. Weak acid like 3% acetic acid and inorganic acid like 1% sulfuric acid were also incorporated in the optimized system of TMSPM grafting and compared their effect on the tensile properties with amino acid treated samples. Water absorption and weathering resistance of treated and untreated samples were also performed and treated sample showed lesser water uptake as well as less weight loss and mechanical properties as compared to untreated samples.     

我国腈纶废水物化预处理方法的研究进展

结合我国腈纶废水的特征,系统归纳了近年来我国腈纶废水常用物化预处理方法的研究进展。物化预处理方法包括内电解法、混凝法、Fenton氧化法、电解法、臭氧氧化法、光催化氧化法、微波法等。这些方法普遍存在高成本、高能耗、实际运行费用大等问题。对未来物化预处理方法的研究方向提出了建议。最后指出,腈纶废水的处理应朝着节能高效和资源化的方向发展,推动我国腈纶废水处理技术的不断进步和完善。