植物纤维增强聚丙烯复合材料力学性能的研究

以聚丙烯（PP）、废瓦楞纸板制取的植物纤维为原料,采用马来酸酐接枝聚丙烯（MAH-g-PP）、铝酸酯偶联剂、铝钛偶联剂为界面相容剂,研究了植物纤维增强PP复合材料的力学性能。结果表明：未添加界面相容剂时,随着植物纤维用量的增加,复合材料冲击强度急剧下降,弯曲强度和拉伸强度上升;添加界面相容剂MAH—g—PP后。当植物纤维的质量分数为30％时,复合材料的弯曲强度和拉伸强度均达到最大值;在MAH—g-PP、铝酸酯偶联剂、铝钛偶联剂三者中,MAH—g—PP改善植物纤维与PP之间的界面相容性效果最佳;当MAH-g-PP添加质量为植物纤维添加质量的10％时,复合材料的冲击强度、拉伸强度、弯曲强度及综合性能最佳。     

接枝偶联剂对F-12 纤维/环氧复合材料界面改性的研究

采用一种大分子接枝偶联剂对F-12 纤维表面进行等离子体接枝改性, 并采用ESCA 对改性后的纤维表面进行分析, 研究了接枝偶联剂的分子量和浓度对F-12/环氧复合材料横向拉伸强度的影响, 并结合横向拉伸的断口对改性机理进行了分析。实验结果表明: 接枝偶联剂接枝改性以后, 能够有效地改善F-12/环氧复合材料的界面结合状态, 从而提高复合材料的横向拉伸强度。      

废印刷电路板非金属粉增强及磨碎玻璃纤维增强聚丙烯力学性能

分别用废印刷电路板(PCB)非金属粉、磨碎玻璃纤维作为增强材料,采用熔融共混方法制备了聚丙烯(PP)基复合材料,并通过其力学性能试验和缺口冲击断面、废PCB非金属粉、磨碎玻璃纤维的形貌观察,分析研究了两种增强材料及表面改性对复合材料力学性能的影响。实验结果表明：废PCB非金属粉/PP复合材料力学性能得到了明显提高,其中拉伸强度、拉伸模量、弯曲强度和弯曲模量最大增幅分别为28%、41%、86%和133%;废PCB非金属粉与磨碎玻璃纤维都能作为PP增强填料,但其韧性降低;表面改性对废PCB非金属粉/PP复合材料力学性能的影响不大,但是对磨碎玻璃纤维/PP复合材料力学性能的影响大;废 PCB非金属粉/PP复合材料综合力学性能高于磨碎玻璃纤维/PP复合材料,可代替磨碎玻璃纤维作为PP基复合材料的增强填料,不仅可以减少环境污染,实现资源再利用,而且大大降低复合材料成本。     

GF对SPTW/PP电商包装复合材料力学性能的影响

目的研究玻璃纤维(GF)对聚丙烯(PP)/六钛酸钾晶须(SPTW)复合材料力学性能的影响。方法首先选用硅烷偶联剂KH550对六钛酸钾晶须进行改性,采用聚丙烯接枝马来酸酐(PP-g-MAH)作为相容剂,通过在PP/SPTW复合材料中引入不同质量分数的玻璃纤维(GF),利用熔融共混法制得一系列PP/SPTW/GF复合材料。采用SEM观察冲击断面结构和XRD观察复合材料晶型结构,并比较引入不同质量分数的GF后PP/SPTW复合材料力学性能的变化。结果当复合材料中GF质量分数为5%时,复合材料的弯曲强度、拉伸强度和冲击强度达到最佳,分别提升了18.38%,16.31%,20.24%;当复合材料中GF质量分数大于5%时,复材料的力学性能开始下降。结论在复合材料中引入GF后,能够明显改善复合材料的力学性能,且随着GF质量分数的逐渐增加,复合材料的力学性能整体呈现出先上升后下降的趋势。     

相容剂对长玻纤增强热塑性聚氨酯弹性体/聚乳酸复合材料性能的影响

采用熔体浸渍工艺制备长玻纤增强热塑性聚氨酯弹性体(TPU)/聚乳酸(PLA)复合材料;以苯乙烯-丙烯腈接枝甲基丙烯酸缩水甘油酯(SAG)作为相容剂,热塑性弹性体聚氨酯作为增韧剂,聚乳酸为基体树脂,考察苯乙烯-丙烯腈接枝甲基丙烯酸缩水甘油酯用量对长玻璃纤维增强聚TPU/PLA复合材料性能的影响。结果表明,加入苯乙烯-丙烯腈接枝甲基丙烯酸缩水甘油酯能改善长玻璃纤维增强聚TPU/PLA复合材料的相容性;长玻璃纤维增强聚TPU/PLA复合材料的拉伸强度、缺口冲击强度、弯曲强度和模量等力学性能及储能模量随着苯乙烯-丙烯腈接枝甲基丙烯酸缩水甘油酯用量的增加呈先增加后降低的趋势,而长玻璃纤维增强聚TPU/PLA复合材料的损耗因子则随苯乙烯-丙烯腈接枝甲基丙烯酸缩水甘油酯含量的增加呈现降低后增加的趋势;通过复合材料的形态分析表明,加入相容剂的复合材料中玻璃纤维与基体树脂界面强度增加,且玻璃纤维表面有一层包覆的树脂基体;通过分析得出,当相容剂添加量为6%时,长玻璃纤维增强聚TPU/PLA复合材料的拉伸强度、弯曲强度和模量、缺口冲击强度等力学性能最优。     

CaCO3/PP复合材料的制备及力学性能研究

采用钛酸酯偶联剂对CaCO3粒子进行表面处理,通过双辊熔融共混和硫化压机压片技术制备了CaCO3/PP复合材料;测试了其拉伸强度、冲击强度和硬度,探讨了偶联剂用量和CaCO3添加量对复合材料力学性能的影响.研究表明,添加CaCO3粒子能有效提高PP材料的力学性能,且经偶联剂表面处理后的CaCO3粒子对改善PP的力学性能效果更佳,当采用2%钛酸酯偶联剂表面处理后的CaCO3粒子添加量为4%时,CaCO3/PP复合材料综合力学性能最好.     

玻璃纤维布增强聚四氟乙烯复合材料的制备及性能研究

制备了玻璃纤维布增强聚四氟乙烯复合材料;分析了偶联剂对复合材料性能的影响;讨论了树脂含量对材料介电性能和拉伸强度的影响;探讨了烧结工艺对复合材料拉伸强度影响;对复合材料介电性能理论值与试验值进行了对比分析.     

改性油松木粉/不饱和聚酯树脂复合材料界面性能研究

为改善油松木粉与不饱和聚酯树脂(UPR)的界面相容性,采用氢氧化钠处理、偶联剂处理、接枝改性和包覆处理方法对油松木粉进行改性,对改性木粉/UPR复合材料进行冲击和拉伸性能测试;通过观察试样冲击断口形貌,判断两相界面相容性情况。结果表明:木粉经接枝改性后增韧效果最佳,复合材料的冲击强度提高了148.3%;包覆处理后增强效果最佳,复合材料的拉伸强度提高了17.4%。同时碱处理、偶联剂处理和包覆处理能不同程度地提高复合材料的拉伸和冲击性能。接枝改性能大幅提高复合材料的冲击性能,但对拉伸性能提高不明显甚至下降。通过观察试样冲击断口,改性后油松木粉与UPR的界面相容性得到明显改善。     

大分子偶联剂的合成及其对SiO_2/三元乙丙橡胶复合材料性能的影响

为改善SiO2在三元乙丙橡胶(EPDM)复合材料中的分散性并获得良好界面性能,通过传统自由基聚合法合成了一系列不同接枝率的大分子偶联剂,即EPDM、甲基丙烯酸甲酯(MMA)和γ-甲基丙烯酰氧基丙基三甲氧基硅烷(KH-570)的三元共聚物。采用不同接枝率的大分子偶联剂对SiO2/EPDM复合材料进行改性。通过FTIR、1 H-NMR、TGA、DMA和SEM对三元共聚物的结构和SiO2/EPDM复合材料的性能进行研究。结果表明:添加了大分子偶联剂的SiO2/EPDM复合材料的相容性得到了显著改善,拉伸强度和撕裂强度比未经偶联剂处理的SiO2/EPDM复合材料分别提高了109.4%和44.0%;SiO2表面改性后的SiO2/EPDM复合材料的储能模量和玻璃化转变温度有所升高。     

固相接枝PP对PP/GF复合材料力学性能的影响

采用固相接枝的方法对聚丙烯（PP）进行表面改性,提高了其表面极性,增强其与玻纤（GF）之间的界面结合从而改善其与玻纤增强复合材料的力学性能。重点研究了偶联剂的种类、引发剂引发的固相接枝PP及其添加量对玻纤布增强PP复合材料片材的弯曲强度、弯曲模量和层间剪切强度的影响。结果表明,随着接枝PP添加量的增加,层间剪切强度增大,弯曲强度和模量可达到某一最高值。     

The influence of sizing conditions on bending properties of continuous glass fiber reinforced polypropylene composites

In this study, the interphase construction by using binding agents was proposed in continuous glass fiber reinforced polypropylene composites. Two types of binding agents modified with maleic anhydride, i.e. low- and high-molecular-weight PP binders were employed. Amino silane coupling agent was also used for the sizing of the glass fibers. In the first step, the sizing conditions with non-binding, low- and high-molecular-weight PP binders were compared for bending properties. According to the near infra-red (NIR) analysis of the sized glass fibers, the glass fiber finished with the low-molecular-weight PP binders greatly indicated the existence of the amide bond between the PP binder and the silane coupling agent. This result implies that the matrix PP chain tends to entwine with the PP binder chain. As a consequence, low-molecular-weight PP binder specimens gave the highest bending strength. Furthermore, the concentration ratio of the low-molecular-weight PP binder was varied with three steps. Matrix PP modified with maleic anhydride was also used in order to investigate the effect of matrix modification on bending properties. The interphase structure formed by a binder agent and a silane coupling agent in the continuous glass fiber reinforced polypropylene composites was discussed in detail.     

The effect of molecular weight on the interfacial properties of GF/PP injection molded composites

It is well established that the molecular weight of recycled PP decreases significantly as compared to the virgin material. Hence this study involved 2 PP grades of different molecular weights in order to simulate the recycling process. The effect of weight–average molecular weight on interfacial adhesion between GF and PP was investigated. Tensile test was done and the fiber length distribution around the fracture zone in both composites was compared with the distributions from similar locations of unstressed composites. The effect of PP-grafted maleic anhydride coupling agent was also studied. It was found that a decrease in weight–average molecular weight of PP improved interfacial adhesive strength between GF/PP. The lower molecular weight matrix has a lower viscosity that enables its molecules to penetrate easily into the silane interphase. In that case, the interfacial area that is available for coupling is higher, leading to a more effective coupling. The higher interfacial shear strength between the glass fiber and the lower molecular weight matrix induced more breakage of the glass fiber during tensile test.     

不同偶联剂改性PTW对PP/GF复合材料性能的影响

目的研究六钛酸钾晶须表面改性对聚丙烯复合材料的力学性能影响,以探索最佳表面改性手段。方法分别采用硅烷偶联剂KH550、KH570、正十二烷基三甲氧基硅烷,钛酸酯偶联剂NDE311、改性六钛酸钾晶须(PTW),然后将改性过的六钛酸钾晶须、玻璃纤维、聚丙烯通过熔融共混制得聚PP/GF/PTW复合材料。结果比较六钛酸钾晶须经不同偶联剂改性前后对聚丙烯/玻璃纤维复合材料性能的影响,发现改性过的六钛酸钾晶须可改善复合材料的力学性能。比较不同偶联剂改性六钛酸钾晶须对聚丙烯/玻璃纤维复合材料性能的影响,发现经KH550偶联剂处理后,与未改性相比,复合材料的弯曲性能提高了58.63%,拉伸性能提高了16.07%,冲击性能提高了63.1%。结论六钛酸钾晶须经KH550偶联剂处理后,复合材料的综合性能最好。     

玻纤增强聚丙烯复合材料的应变率敏感特性

采用层合热压实验法将玻璃纤维基毡与聚丙烯薄膜复合制成不同玻纤含量的玻纤增强聚丙烯(GF/PP)复合板材,在不同的加载速率下进行拉伸测试,研究GF/PP复合材料的应变率敏感特性,分析Burgers模型对该材料本构关系拟合预测的可行性。结果表明:GF/PP复合材料在低应变率范围内对应变率是敏感的,随应变率的增加,其断裂应力和抗拉强度增大;随玻璃纤维含量的增加,其所对应的应变率效应反而有所下降。同时,Burgers模型能够有效地拟合预测出该材料的拉伸应力-应变曲线,与实验曲线相比,进一步验证了GF/PP复合材料的应变率敏感特性及其变化趋势。     

过氧化物的引发作用对玻璃纤维增强聚丙烯界面结合的影响

采用过氧化物溶液涂覆玻璃纤维,将处理过的玻璃纤维丙烯复合,采用单丝临界长度法测定了复合体系的界面剪切强度,研究了过氧化物的引发作用对玻璃纤维／聚丙烯复合体系界面结合的影响,探索了复合工艺条件对体系界面结合的影响,并考察了所形成界面的耐水性能,结果表明,涂覆于玻纤表面的过氧化物在复合过程中能引发聚丙烯与玻璃纤维表面含双键的偶联剂反应,在纤维与基体之间形成较界面结合,过氧化物的这种引发作用对界面的耐水     

The role of poly(ethylene terephthalate-co-isophthalate) as interfacial agent in polypropylene–matrix composites

The effect of modifying the particle/matrix interfacial region on the morphology and tensile behaviour of glass bead-filled polypropylene (PP) composites was studied. The interface modification was promoted by blending PP with a small concentration (5% by weight) of poly(ethylene terephthalate-co-isophthalate) (co-PET). Ten different PP/co-PET/glass beads ternary composites were prepared, characterized and compared with the homologous PP/glass beads binary ones. Maleic anhydride-grafted PP was added as a compatibilizing agent for PP and co-PET in some of the studied formulations, and its effect studied. Furthermore, four different silane-treated glass beads were used to prepare the composites (50 wt.%). Results showed that three different interfaces, corresponding to three different levels (low, middle and high) of particle/matrix adhesion, could be obtained in these composites by varying the matrix composition and the silane coupling agent on the glass bead surface, which resulted in a wide range of tensile properties, from ductile composites with low tensile strength and high elongation to brittle ones with high tensile strength. It was found that co-PET embeds glass bead surface independently of the silane coupling agent employed. Finally, the adhesion degree differences between the different composite phases seemed to be the main cause to explain the differences found in the sensitivity of the composite tensile characteristics to the strain rate.     

聚丙烯/热致液晶聚合物/玻璃纤维混杂复合材料 Ⅱ: 混杂复合材料的静态及动态力学性能

对具有良好液晶聚合物微纤结构的聚丙烯/热致液晶聚合物/玻璃纤维 (PP/TLCP/GF) 混杂复合材料,使用静态拉伸和动态力学分析 (DMA) 的方法研究了材料的力学性能。拉伸实验结果表明,混杂复合材料的拉伸强度和模量随着PP和TLCP挤出后的牵伸速率增大而上升,并且含有增容剂PP-g-MAH的体系,力学性能更优异。DMA测试结果表明,混杂复合材料的动态模量E'随着体系中玻纤的含量增加而增大;当体系中加入增容剂后,复合材料的刚性得到进一步提高。但无论是否使用了增容剂PP-g-MAH,当体系中玻纤含量高于20%后,模量随玻纤含量增大的趋势变缓。当体系中增强相的含量增加,以及加入增容剂使增强相与基体的界面粘结得到改善后,PP基体的损耗因子 (tanδ) 峰值都有一定的减小。      

接头尺寸对玻璃纤维/热塑性树脂复合材料机械连接性能的影响接头尺寸对玻璃纤维/热塑性树脂复合材料机械连接性能的影响

对玻璃纤维/聚酰胺（GF/PA）、玻璃纤维/聚甲醛（GF/POM）、玻璃纤维/聚丙烯（GF/PP）这三种玻璃纤维增强热塑性树脂基复合材料进行机械连接试样的常规拉伸试验,以及低周疲劳拉伸试验,并对疲劳前后的试样断裂面进行SEM观察,研究了接头尺寸（宽径比w/d （试样宽度/开孔直径）和端径比e/d （试样端距/开孔直径））对机械连接件破坏载荷和破坏模式的影响。实验结果表明:玻璃纤维增强纤热塑性树脂复合材料机械连接件的承载能力在一定的宽径比时会随着e/d的增加而增加,当w/d≥3、e/d≥2时趋于稳定;破坏模式以拉伸破坏为主;低周疲劳拉伸对GF/POM和GF/PA机械连接试样拉伸强度产生一定的影响,而对GF/PP的拉伸强度无明显影响,低周疲劳拉伸对玻璃纤维增强热塑性树脂复合材料机械连接试样的破坏模式没有影响。SEM观察显示,随着疲劳载荷水平的增加,GF/POM和GF/PA的断裂面上被抽拔纤维数量增加,而GF/PP断裂面纤维与基体的存在状态无明显变化。      

Date palm wood flour/glass fibre reinforced hybrid composites of recycled polypropylene: Mechanical and thermal properties

Recycled polypropylene (RPP) based hybrid composites of date palm wood flour/glass fibre were prepared by different weight ratios of the two reinforcements. Mixing process was carried out in an extruder and samples were prepared by injection molding machine. Recycled PP properties were improved by reinforcing it by wood flour. The tensile strength and Young’s modulus of wood flour reinforced RPP increased further by adding glass fibre. Glass fibre reinforced composites showed higher hardness than other composites. Morphological studies indicated that glass fiber has good adhesion with recycled PP supporting the improvement of the mechanical properties of hybrid composites with glass fiber addition. Addition of as little 5 wt% glass fibre to wood flour reinforced RPP increases the tensile strength by about 18% relative to the wood flour reinforcement alone. An increase in wood particle content in the PP resulted in a decrease in the degree of crystallinity of the polymer. The tensile strength of the composites increased with an increase in the percentage of crystallinity when adding the glass fibre. The improvement in the mechanical properties with the increase in crystallinity percentage (and with the decrease of the lamellar thicknesses) can be attributed to the constrained region between the lamellae because the agglomeration is absent in this case.