折射率梯度型塑料光纤棒的制备与模拟

采用溴苯作为高折射率掺杂剂，通过界面凝胶聚合法制备了折射率呈梯度型分布的塑料光纤棒，研究发现，在聚合反应前期，混合物在真空与60－70℃的条件下聚合，而后期反应在高压气氛中进行，可以消除光纤棒中的气泡或真空泡，利用Vrentas-Duda自由体积理论，对梯度型折射率分布的形成进行了分析，建立了物理模型，并进行了模拟分析。     

高聚物光纤的研究进展

高聚物光纤具有模量低、直径大、柔韧等优点。它们在数据传输、显示系统、光敏元件上获得广泛的应用。介绍了高聚物光纤，特别是塑料光纤的研究进展，并提出将来的发展方向。     

N-异丙基马来酰亚胺在渐变型耐温塑料光纤中的应用

研究了以N－异丙基马来酰亚胺（IPMI）与甲基丙烯酸甲酯共聚物为基材,制备渐变形耐温塑料光纤的可行性。实验确定了链转移剂和N－烷基马来酰亚胺对体系玻璃化温度的影响。通过Lorentz-Lorenz公式,估算出IPMI在共聚物中的折光率值。用元素分析法证明IPMI在塑料光纤预制棒中呈渐变分布,测定了以此材料制备的塑料光纤预制棒的折光率分别布线,说明IPMI在提高塑料光纤耐温性的同时,可作为参杂剂使用。结果表明：IPM／MMA共聚物是制备渐变型耐温塑料光纤的良好材料。     

聚合反应条件对渐变型塑料光纤预制棒的折射率分布的影响

用甲基丙烯酸甲酯 (MMA)作为基质 ,采用界面 凝胶聚合技术成功地制备了渐变型塑料光纤预制棒 ,并探讨了掺杂剂浓度及其分子体积以及聚合温度对折射率分布的影响 .观察到聚合温度对折射率分布的影响以及掺杂剂分子的分子体积在极端情况下 (如溴苯与MMA分子的分子体积相似 ,联苯分子体积比MMA则要大的多 )对折射率分布的影响 ,清楚地显示出分子体积在界面 凝胶聚合过程中所起的重要作用 .实验结果表明了高温聚合有利于轴心Δn值的升高 ,可得数值孔径NA较大的预制棒 .低温聚合使得折射率分布趋于平缓化 .     

有机光纤研究进展

综述了近年来有机光纤(塑料光纤) 研究状况, 对有机光纤的分类及适用范围也给予了简单的说明。讨论了影响信号传输的因素和有机光纤光传输损耗的极限, 并对当前受到广泛重视的渐变型有机光纤的研究进展给予了特别的关注。     

紫外/可见光谱在有机光纤研制中的应用

有机光导纤维是近十几年来在新型光功能性高分子材料领域中的一支独秀.相对于玻璃光导纤维,有机光导纤维加工容易、口径大、轻而柔软、抗挠曲、抗冲击、耦合容易,更重要的因素是制作成本低和用途广泛.通常光导纤维是一种带包层的透明圆柱型的细丝.芯子的折射率高于包层并且是不变的,这种纤维称为突变型(SI)光纤.由于SI型光纤的带宽小,不能满足高信息量传输的需要,因而渐变型(GI)有机光纤得以发展.在这种光导纤维中,纤芯的折射率是呈抛物线型分布的,其轴心的折射率最大,折射率由纤维轴心沿径向到包层逐渐变小,在芯/包层界面处折射率无突变,光线在这种光纤的传播路径近似正弦波.沿正弦波处的折射率均小于轴心区的折射率.由于光速是反比于折射率的,因此当光沿着正弦途径传输时,其速度大于光沿着轴心传输的速度.于是,较长的光路被较大的光速所补偿,结果是光在正弦波处的传输时间与在轴心处的传输时间上没有大的区别,而脉冲加宽是正比于传输时间的差值,因此有望在GI型有机光纤中得到较小的脉冲加宽.GI型有机光纤的制备一般可在GI型有机预制棒的基础上通过熔融热拉技术拉制而成.因此,制备GI型有机预制棒及其折射率分布的检测成为关键步骤.折射率分布的测量方法有很多,如近场扫描法、折射近场法、切片干涉法等.本文首次介绍了将紫外/可见吸收光谱应用于预制棒折射率分布的定性测试上,得到了在预制棒芯区沿径向掺杂剂分子溴苯的吸收强度呈抛物线型分布.因测试折射率分布的其他方法较为繁杂以及受仪器的限制,所以利用紫外/可见吸收光谱这一非常普通的仪器来估计折射率分布的情况不失为一种简单易行的方法.     

聚丙烯/尼龙6挤出原位成纤后的牵引作用

用挤出机共混挤出聚丙烯和尼龙6，加工中尼龙6作为分散相在聚丙烯中形成微纤。改变挤出物挤出模口后所受的牵引作用的速度会产生材料形态与力学性能的变化。发现随牵引速度的提高，尼龙6微纤的平均直径变小，尺寸分布更均匀，力学性能也随之提高。差热分析表明，随牵引速度的增加聚丙烯与尼龙6的相容性略有提高，X-射线衍射分析表明拉伸作用对尼龙纤维晶体中分子链的取向无影响。     

剪切条件下等规聚丙烯的结晶行为

聚丙烯是工业中应用最广泛的聚合物。聚丙烯在静态结晶时生成球晶，剪切后会生成排核，最终长成柱晶或纤维晶；在强剪切条件下会生成串晶。聚丙烯是一种存在多种晶型的聚合物，α型晶是热动力学最稳定的晶型，在一般实验条件下很难得到其他晶型；在剪切条件下聚丙烯会生成β晶-热动力学亚稳晶型。剪切会显著影响聚丙烯的结晶动力学：增加球晶的生长速率，缩短结晶诱导时间，增加活化晶核密度。人们提出了许多模型来解释剪切加速结晶动力学的实验现象，但是都有不足之处。     

塑料挤出吹塑的机理问题

挤出吹塑过程由型坯成型，型坯吹胀与制品冷却三个阶段构成。采用不同的方法对该三阶段的机理问题进行了研究。采用神经网络方法预测了受模口温度和挤出流率影响的型坯成型阶段的膨胀，利用建立起来的神经网络模型预示的膨胀与实验结果很吻合，且可在一定范围内，预示不同工艺条件下型坯的直径膨胀和壁厚膨胀。为型坯的直径和壁厚的在线控制提供了理论依据。基于薄膜近似和noe-Hookean本构关系。建立了描述型坯自由吹胀的数学模型，并通过实验方法获得了型坯吹胀的瞬态图象，比较发现，理论预示的型坯轮廊分布与实验观察结果较吻合，该模型还可预示型坯的自由吹胀对材料性能，型坯尺寸和工艺条件等的依赖性，基于ANSYS有限元软件，对吹塑制品的三维冷却进行了模拟，预示了制品厚度方向任一位置的瞬态温度分布，并可预示成型工艺参数，制品壁厚，塑料与模具材料的热性能以及吹塑模具冷却的强度与时间等对吹塑制品冷却的影响，这可为进一步分析吹塑制品的显微结构和性能提供温度数据。     

耐热性有机高分子的性能研究及其在塑料光纤中的应用

本文以N 环乙基马来酰亚胺 (CHMI)和甲基丙烯酸甲酯 (MMA)共聚得耐热性透明材料 ,讨论了共聚产物的透明性和玻璃化温度与CHMI含量的关系 .以上述材料为基础 ,应用界面凝胶法制备光纤预制棒 ,在探讨了CHMI和PCHMI的折射率的基础上 ,分析并测试了光纤预制棒的折射率分布 ,最后拉制成塑料光纤 (GI POF)并测试了光纤的光透射窗口     

High‐thermally stable and high‐bandwidth graded index plastic optical fiber for vehicle networks

Radial refractive index profiles within the graded index plastic optical fiber (GI‐POF) is formed by adding a dopant to a polymer. This addition of the dopant significantly decreased the T_g of the polymer due to the plasticization. This disadvantage made the installation of the GI‐POF difficult, especially in vehicle networks in which high thermal stability is required. We have suggested 9‐bromophenanthrene (BPT) as a novel dopant induced less plasticization for poly(methyl methacrylate) (PMMA) than the conventional dopants. However, although the fabricated GI‐POF using BPT had high enough thermal stability for vehicle networks, the attenuation was 800 dB/km and it could not be used. This high attenuation was caused by contaminant in the fabrication process of fibers. In this study, we succeeded to fabricate a GI‐POF with low‐attenuation and high‐thermal stability using highly pure BPT. Its attenuation was improved to 240 dB/km at 650 nm, which was enough transparency for vehicle networks. The T_g of the GIPOF was improved to 107 °C from 90 °C. The thermal stability of the GI‐POF below 85 °C/dry and 75 °C/85%RH was demonstrated to be as high as that of the commercially available step index POF. The bandwidth of the GI‐POF could be estimated over 4.0 GHz for the 50‐m fiber. These results demonstrated that our GI‐POF should qualify to be used in vehicle network. © 2011 Wiley Periodicals, Inc. J Polym Sci Part B: Polym Phys 49: 1464–1469, 2011     

梯度折射率聚合物细棒的制备和数学模拟

在聚甲基丙烯酸甲酯 (Poly(methylmethacrylate) ,PMMA)管中 ,加入单体甲基丙烯酸甲酯 (Methylmethacrylate ,MMA)和另一种高折射率的掺杂剂溴苯 (Bromobenzene ,BB) ,用界面凝胶均聚合方法制备了梯度折射率聚合物光纤预制棒 .这种光纤预制棒的梯度折射率是通过具有不同折射率的分子扩散而形成的 .通过对界面凝胶聚合过程的描述 ,该工作讨论了预制棒中聚合物的浓度分布及边界条件的假设 .并根据自由体积理论对其折射率分布进行理论模拟 .将得到的折射率抛物线分布与实验结果进行对比 ,结果表明聚合浓度的分布为ω =a(r/R) 2 +b时 ,理论预计的光纤预制棒的折射率分布与实验结果有着较好的符合 .同时 ,对聚合体系中BB对聚合物浓度分布的影响进行了讨论     

Porous‐Organic‐Framework‐Templated Nitrogen‐Rich Porous Carbon as a More Proficient Electrocatalyst than Pt/C for the Electrochemical Reduction of Oxygen

Porous nitrogen‐rich carbon (POF‐C‐1000) that was synthesized by using a porous organic framework (POF) as a self‐sacrificing host template in a nanocasting process possessed a high degree of graphitization in an ordered structural arrangement with large domains and well‐ordered arrays of carbon sheets. POF‐C‐1000 exhibits favorable electrocatalytic activity for the oxygen‐reduction reaction (ORR) with a clear positive shift of about 40 mV in the onset potential compared to that of a traditional, commercially available Pt/C catalyst. In addition, irrespective of its moderate surface area (785 m² g^?1), POF‐C‐1000 showed a reasonable H₂ adsorption of 1.6 wt % (77 K) and a CO₂ uptake of 3.5 mmol g^?1 (273 K).     

松花粉干预卵巢早衰大鼠肝脏的广泛靶向代谢组学分析

卵巢早衰是妇科领域的常见病,中医认为卵巢早衰与肝肾的正常与否息息相关,通过药食两用物质对肝脏代谢的调理是治疗卵巢早衰的一种重要手段。该研究基于超高效液相色谱-三重四极杆质谱(UHPLC-MS/MS)建立的广泛靶向代谢组学技术,探讨破壁松花粉对环磷酰胺诱导的卵巢早衰模型大鼠肝脏代谢的影响,旨在通过测定对照组、模型组、雌激素阳性对照组及施以不同剂量的松花粉干预组的SD大鼠肝脏组织中代谢物的含量变化,结合主成分分析(PCA)、正交偏最小二乘判别分析(OPLS-DA)等多元统计方法揭示松花粉干预卵巢早衰大鼠肝脏代谢的作用机制。通过正、负离子模式共检测出687种肝脏代谢物,PCA与OPLS-DA显示环磷酰胺诱导的模型组能够与对照组、阳性对照组、松花粉干预组等组别之间的代谢物较好的分离。通过单变量分析中的t检验(p<0.05)、变异倍数(FC>2或<0.5)与多变量分析中变量投影重要性(VIP值)>1相结合对差异代谢物进行筛选。与对照组相比,模型组SD大鼠肝脏中的32个生物标志物含量显著升高,28个生物标志物含量显著降低,主要涉及α-亚麻酸代谢、维生素B6代谢、嘌呤代谢、赖...     

梯度折射率塑料光纤的研究进展

论述了梯度折射率塑料光纤的研究背景。并对当前梯度折射率塑料光纤的制备方法,梯度折率塑料光纤的折射率梯度的形成机理的研究,及功能梯度折射率塑料光纤的研究状况进行综述。同时展望了梯度折射塑料光纤的发展趋势。     

Design,synthesis, and characterization of a partially chlorinated acrylic copolymer for low‐loss and thermally stable graded index plastic optical fibers

As a novel material of low loss and high thermal stability, a graded index plastic optical fiber (GI POF) comprised of a copolymer of methyl α‐chloro acrylate (MCA) and 2,2,2‐trichloroethyl methacrylate (TCEMA) was prepared and the thermal, mechanical, and optical characteristics were investigated. Although each homopolymer had low loss and desirable high thermal stability, they had crucial disadvantages for the fiber fabrication process. To draw a MCA polymer (PMCA) fiber, it has to be heated above 270 °C. However, the polymer started to decompose at a lower temperature and produced numerous bubbles. In contrast, TCEMA polymer (PTCEMA) is too brittle to roll up during heat drawing. In this study, we succeeded to improve the strong viscoelasticity and the low decomposition temperature of PMCA and the brittleness of PTCEMA by copolymerizing MCA and TCEMA. In addition, the glass transition temperatures (T_g) of the copolymers were in the range of 133–147 °C and the transmittances of the copolymers were much higher than that of PMMA which has been commonly used as a base material of POF. A suitable GI POF was obtained using the MCA and TCEMA copolymer. © 2009 Wiley Periodicals, Inc. J Polym Sci Part A: Polym Chem 47: 3352–3361, 2009     

Status and dreams of photonics polymer for IT

We have proposed a low-loss, high-bandwidth and large-core graded-index plastic optical fiber (GI POF) in data-corn, area. The GI POF enables us to eliminate the “modal noise” problem which is observed in medium-core silica fibers. Therefore, stable high-speed data transmission can be realized by the GI POF rather than medium-core silica fibers. Furthermore, advent of perfluorinated (PF) polymer based GI POF network can support higher transmission than silica fibers network because of the small material dispersion of PF polymer compared with silica. In addition, we proposed a “highly scattering optical transmission (HSOT) polymer” and applied it to a light guide plate of a liquid crystal display backlight. The HSOT polymer backlight that was designed using the HSOT designing simulator demonstrated twice the brightness of the conventional taransparent backlight with sufficient color uniformity. Furthermore, we proposed the two types of zero-birefringence polymers synthesized by the random copolymerization method and the anisotropic molecule dopant method. Both of the polymers exhibited no orientational birefringence for any orientation of polymer chains.     

梯度型聚合物光纤中折射率分布的洛仑兹函数模型应用

利用洛仑兹函数对梯度型聚合物光纤(棒)中折射率分布曲线进行模拟,建立折射率分布的洛仑兹函数模型.该模型只需掺杂物的初始浓度、分子体积和聚合温度3个基本参数.利用该模型对各种高折射率的掺杂物掺杂聚甲基丙烯酸甲酯(PMMA)制备的梯度型聚合物光纤中的折射率分布进行了预测,发现掺杂物的折射率比分子体积对折射率梯度的影响更大;惰性掺杂物中二苯硫(DPS)掺杂效率最高;共聚掺杂物中苯甲酸乙烯酯(VB)掺杂效率最高.     

PMMA塑料光纤中C-H谐波吸收损耗的计算

通过对PMMA塑料光纤中的主要损耗因素C-H谐波吸收进行了理论分析,并进行了定量计算,结果与实际测量数据一致.并从理论上验证了氘化、氟化降低塑料光纤损耗的机理.得到不同量子数的伸缩振动和弯曲振动的吸收波数和损耗.随着波长的增加,C-H谐波吸收损耗增加,而伸缩振动的吸收损耗比弯曲振动高一个数量级,且两者分别与量子数呈线性关系.