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Mechanical properties and wear behavior of extruded basalt fibers/7075 aluminum matrix composites used for drill pipes
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作者 MA Yin-long SUN Zhi-gang +3 位作者 XIONG Hong-wei REN Jie ZHAO Jing-jing GUO Cheng-bin 《Journal of Central South University》 2025年第1期21-33,共13页
Basalt fibers/7075 aluminum matrix composites were studied to meet the demand of aluminum alloy drill pipes for material wear resistance.The composites with different basalt fiber additions were prepared by hot presse... Basalt fibers/7075 aluminum matrix composites were studied to meet the demand of aluminum alloy drill pipes for material wear resistance.The composites with different basalt fiber additions were prepared by hot pressed sintering and hot extrusion.The mechanical properties as well as friction and wear properties of the composites were studied by microstructure analysis,tensile experiments,friction and wear experiments.The results showed that basalt fibers were oriented and uniformly distributed and led to local grain refinement in the alloy matrix.The hardness and elongation of the composites were improved.The friction coefficient of the composites increased and then decreased,and the maximum wear depth and wear amount decreased,then increased,then decreased again with the growth of basalt fiber addition.Meanwhile,the inclusion of basalt fibers mitigated the uneven wear of the extruded 7075 aluminum alloy.The value of wear depth difference of 7075-0.2BF was the smallest,and that of 7075-2.0BF was close to it.The maximum wear depth and wear volume the 7075-0.2BF and 7075-2.0BF were also the smallest.The inhibition of uneven wear by basalt fibers enhanced of wear resistance for 7075 aluminum alloy,which has reference significance for improving the performance of aluminum alloy drill pipes. 展开更多
关键词 aluminum matrix composites basalt fibers mechanical properties wear behavior
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Temperature error compensation method for fiber optic gyroscope based on a composite model of k-means,support vector regression and particle swarm optimization
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作者 CAO Yin LI Lijing LIANG Sheng 《Journal of Systems Engineering and Electronics》 2025年第2期510-522,共13页
As the core component of inertial navigation systems, fiber optic gyroscope (FOG), with technical advantages such as low power consumption, long lifespan, fast startup speed, and flexible structural design, are widely... As the core component of inertial navigation systems, fiber optic gyroscope (FOG), with technical advantages such as low power consumption, long lifespan, fast startup speed, and flexible structural design, are widely used in aerospace, unmanned driving, and other fields. However, due to the temper-ature sensitivity of optical devices, the influence of environmen-tal temperature causes errors in FOG, thereby greatly limiting their output accuracy. This work researches on machine-learn-ing based temperature error compensation techniques for FOG. Specifically, it focuses on compensating for the bias errors gen-erated in the fiber ring due to the Shupe effect. This work pro-poses a composite model based on k-means clustering, sup-port vector regression, and particle swarm optimization algo-rithms. And it significantly reduced redundancy within the sam-ples by adopting the interval sequence sample. Moreover, met-rics such as root mean square error (RMSE), mean absolute error (MAE), bias stability, and Allan variance, are selected to evaluate the model’s performance and compensation effective-ness. This work effectively enhances the consistency between data and models across different temperature ranges and tem-perature gradients, improving the bias stability of the FOG from 0.022 °/h to 0.006 °/h. Compared to the existing methods utiliz-ing a single machine learning model, the proposed method increases the bias stability of the compensated FOG from 57.11% to 71.98%, and enhances the suppression of rate ramp noise coefficient from 2.29% to 14.83%. This work improves the accuracy of FOG after compensation, providing theoretical guid-ance and technical references for sensors error compensation work in other fields. 展开更多
关键词 fiber optic gyroscope(FOG) temperature error com-pensation composite model machine learning CLUSTERING regression.
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Evaluation of statistical strength of bamboo fiber and mechanical properties of fiber reinforced green composites 被引量:4
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作者 曹勇 吴义强 《Journal of Central South University》 SCIE EI CAS 2008年第S1期564-567,共4页
Green composites made from bamboo fibers and biodegradable resins were fabricated with press molding.On the basis of the Weibull distribution and the weakest-link theory,the statistical strength and distribution of ba... Green composites made from bamboo fibers and biodegradable resins were fabricated with press molding.On the basis of the Weibull distribution and the weakest-link theory,the statistical strength and distribution of bamboo fiber were analyzed,and the tensile strength of green composites was also investigated.The result confirms that the tensile statistical strength of fiber fits well with two-parameter Weibull distribution.In addition,the tensile strength of bamboo fiber reinforced composites is about 330 MPa with the fiber volume fraction of 70%.This value is close to or higher than that of other natural fiber reinforced green composites. 展开更多
关键词 BAMBOO fiber Weibull distribution TENSILE STRENGTH green composite
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Mechanical properties of polyvinyl alcohol-basalt hybrid fiber engineered cementitious composites with impact of elevated temperatures 被引量:5
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作者 WANG Zhen-bo HAN Shuo +2 位作者 SUN Peng LIU Wei-kang WANG Qing 《Journal of Central South University》 SCIE EI CAS CSCD 2021年第5期1459-1475,共17页
In the present study,the mechanical properties of polyvinyl alcohol(PVA)-basalt hybrid fiber reinforced engineered cementitious composites(ECC)after exposure to elevated temperatures were experimentally investigated.F... In the present study,the mechanical properties of polyvinyl alcohol(PVA)-basalt hybrid fiber reinforced engineered cementitious composites(ECC)after exposure to elevated temperatures were experimentally investigated.Five temperatures of 20,50,100,200 and 400℃ were set to evaluate the residual compressive,tensile and flexural behaviors of hybrid and mono fiber ECC.It was shown that partial replacement of PVA fibers with basalt fibers endowed ECC with improved residual compressive toughness,compared to brittle failure of mono fiber ECC heated to 400℃.The tension tests indicated that the presence of basalt fibers benefited the tensile strength up to 200℃,and delayed the sharp reduction of strength to 400℃.Under flexural load,the peak deflections corresponding to flexural strengths of hybrid fiber ECC were found to be less vulnerable ranging from 20 to 100℃.Further,the scanning electron microscopy(SEM)results uncovered that the rupture of basalt fiber at moderate temperature and its pullout mechanism at high temperature was responsible for the mechanical evolution of hybrid fiber ECC.This work develops a better understanding of elevated temperature and basalt fiber impact on the residual mechanical properties and further provides guideline for tailoring ECC for improved fire resistance. 展开更多
关键词 engineered cementitious composites hybrid fiber basalt fiber mechanical properties elevated temperature
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Flexural behavior of reinforced concrete beams with high performance fiber reinforced cementitious composites 被引量:6
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作者 SIVA Chidambaram R PANKAJ Agarwal 《Journal of Central South University》 SCIE EI CAS CSCD 2019年第9期2609-2622,共14页
This article presents an experimental study on the flexural performance of reinforced concrete(RC)beams with fiber reinforced cementitious composites(FRCC)and hybrid fiber reinforced cementitious composites(HFRCC)in t... This article presents an experimental study on the flexural performance of reinforced concrete(RC)beams with fiber reinforced cementitious composites(FRCC)and hybrid fiber reinforced cementitious composites(HFRCC)in the hinge portion.Beam specimens with moderate confinement were used in the study and tested under monotonic loading.Seven diverse types of FRCC including hybrid composites using fibers in different profiles and in different volumes are employed in this study.Companion specimens such as cylindrical specimens and prism specimens are also used to study the physical properties of composites employed.The moment?curvature,stiffness behavior,ductility,crack pattern and modified flexural damage ratio are the main factors considered in this study to observe the efficacy of the employed hybrid composites.The experimental outputs demonstrate the improved post yield behavior with less rate of stiffness degradation and better damage tolerance capacity than conventional technique. 展开更多
关键词 reinforced concrete beams fiber reinforced composites flexural behavior flexural damage ratio
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Tensile properties of strain-hardening cementitious composites containing polyvinyl-alcohol fibers hybridized with polypropylene fibers 被引量:5
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作者 H.R.Pakravan M.Jamshidi 《Journal of Central South University》 SCIE EI CAS CSCD 2018年第1期51-59,共9页
Partially replacing polyvinyl-alcohol(PVA)fibers with polypropylene(PP)fibers in strain-hardening cementitious composites(fiber hybridization)modify certain mechanical properties of these materials.The hybridization b... Partially replacing polyvinyl-alcohol(PVA)fibers with polypropylene(PP)fibers in strain-hardening cementitious composites(fiber hybridization)modify certain mechanical properties of these materials.The hybridization based on the introduction of low-modulus hydrophobic polypropylene fibers improves the ductility and the strain-hardening behavior of the cementitious composites containing polyvinyl-alcohol fibers of different types(PVA-SHCC).Pull-out tests indicate that adding PP fibers increases the energy capacity of the hybrid composite with respect to the material containing only PVA fibers under tensile loading,and PP-fiber geometry(i.e.,section shape and length)is a key factor in enhancing the strain capacity. 展开更多
关键词 polyvinyl-alcohol (PVA) strain-hardening cementitious composite (PVA-SHCC) fiber hybridization
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Mechanical properties and failure behavior of 3D printed thermoplastic composites using continuous basalt fiber under high-volume fraction 被引量:2
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作者 Hang Zhang Wei-fu Sun 《Defence Technology(防务技术)》 SCIE EI CAS CSCD 2023年第9期237-250,共14页
Continuous basalt fiber(CBF)is an outstanding inorganic fiber produced from nature,which has a wide range of applications in the field of armor protection of national defense military.However,the mechanical response a... Continuous basalt fiber(CBF)is an outstanding inorganic fiber produced from nature,which has a wide range of applications in the field of armor protection of national defense military.However,the mechanical response and failure mechanism of 3D printed CBF reinforced components are still not well understood.Here,the 3D printing thermoplastic composites with high volume fraction CBF have been successfully prepared by fused deposition modelling(FDM)method.The effects of fiber printing direction and polymer matrix type on the tensile and flexural properties of the 3D printed composites have been explored,and the detailed failure morphology has been characterized using scanning electron microscopy and optical microscopy.It was found that under high fiber volume fraction,3D printed CBF reinforced polyamides(PA)composites have the best ability to maintain material integrity of the composites,followed by acrylonitrile butadiene styrene(ABS)and high impact polystyrene(HIPS).Besides,the results from rule of mixtures can accurately predict the longitudinal Young’s modulus of the 3D printed specimens,but there exists a large discrepancy for the prediction of the tensile strength.The microstructure analysis shows that the failure modes of 3D printed composites mainly include fiber debonding,fiber pull-out,stress whitening and matrix cracking. 展开更多
关键词 Additive manufacturing Continuous basalt fiber Failure behavior Mechanical properties Thermoplastic composites
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Role of matrix structure and flaw size distribution modification on deflection hardening behavior of polyvinyl alcohol fiber reinforced engineered cementitious composites(PVA-ECC) 被引量:2
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作者 Kamile TOSUN FELEKOĞLU Eren GÖDEK 《Journal of Central South University》 SCIE EI CAS CSCD 2019年第12期3279-3294,共16页
The multiple cracking and deflection hardening performance of polyvinyl alcohol fiber reinforced engineered cementitious composites(PVA-ECC)under four-point flexural loading have been investigated.Matrices with differ... The multiple cracking and deflection hardening performance of polyvinyl alcohol fiber reinforced engineered cementitious composites(PVA-ECC)under four-point flexural loading have been investigated.Matrices with different binder combinations and W/B ratios(from 0.44 to 0.78)providing satisfactory PVA fiber dispersion were specially designed.Effect of pre-existing flaw size distribution modification on deflection hardening behavior was comparatively studied by adding 3 mm diameter polyethylene beads into the mixtures(6%by total volume).Natural flaw size distributions of composites without beads were determined by cross sectional analysis.The crack number and crack width distributions of specimens after flexural loading were characterized and the possible causes of changes in multiple cracking and deflection hardening behavior by flaw size distribution modification were discussed.Promising results from the view point of deflection hardening behavior were obtained from metakaolin incorporated and flaw size distribution modified PVA-ECCs prepared with W/B=0.53.The dual roles of W/B ratio and superplasticizer content on flaw size distribution,cracking potential and fiber-matrix bond behavior were evaluated.Flaw size distribution modification is found beneficial in terms of ductility improvement at an optimized W/B ratio. 展开更多
关键词 fiber reinforced cementitious composites METAKAOLIN deflection hardening multiple cracking flaw size distribution
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An investigation on anti-impact and penetration performance of basalt fiber composites with different weave and lay-up modes 被引量:1
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作者 Hai-dong Fu Xin-ya Feng +3 位作者 Jin-xu Liu Zhi-ming Yang Chuan He Shu-kui Li 《Defence Technology(防务技术)》 SCIE EI CAS CSCD 2020年第4期787-801,共15页
The woven basalt fiber composites(WBFC) and the unidirectional [0°/90°/45°/-45°]s basalt fiber composites(UBFC) were prepared by hot-pressing.Three-point bending test,low velocity impact test,and b... The woven basalt fiber composites(WBFC) and the unidirectional [0°/90°/45°/-45°]s basalt fiber composites(UBFC) were prepared by hot-pressing.Three-point bending test,low velocity impact test,and ballistic test were performed to the prepared composites.After the tests,the specimens were recovered and analyzed for micromorphology.Three-point bending tests show that both the bending strength and stiffness of the WBFC surpass those of the UBFC.Low velocity impact test results show that the low velocity impact resistance to hemispherical impactor of the UBFC is higher than that of the WBFC,but the low velocity impact resistance to sharp impactor of the UBFC is lower than that of the WBFC.For the ballistic test,it can be found that the ballistic property of the UBFC is higher than that of the WBFC. After the tests,microscopic analysis of the specimens was applied,and their failure mechanism was discussed.The main failure modes of the UBFC are delamination and fibers breakage under the above loading conditions while the main failure mode of the WBFC is fibers breakage.Although delamination damage can be found in the WBFC under the above loading conditions,the degree of delamination is far less than that of the UBFC. 展开更多
关键词 The woven basalt fiber composites The[0°/90°/45°/-45°]_s basalt fiber composites Low velocity impact Ballistic test DELAMINATION
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PET改性高延性碱激发混凝土的断裂性能
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作者 梁振升 张伯涛 +2 位作者 梁瑞庆 曾俊锋 郭永昌 《硅酸盐通报》 北大核心 2025年第7期2503-2513,共11页
利用聚对苯二甲酸乙二醇酯(PET)粉作为骨料制备PET改性高延性碱激发混凝土(PHDAC),在促进高性能混凝土材料绿色发展方面具有巨大潜力。然而,PHDAC的断裂行为模式尚不明确。本文研究了PET粉体积替代石英砂(替代率分别为0%、15%、30%和45%... 利用聚对苯二甲酸乙二醇酯(PET)粉作为骨料制备PET改性高延性碱激发混凝土(PHDAC),在促进高性能混凝土材料绿色发展方面具有巨大潜力。然而,PHDAC的断裂行为模式尚不明确。本文研究了PET粉体积替代石英砂(替代率分别为0%、15%、30%和45%)对PHDAC断裂性能的影响,通过三点弯曲试验分析了PHDAC的破坏模式,基于双K断裂模型计算并分析了PHDAC的起裂韧度K_(IC)^(ini)、失稳韧度K_(IC)^(un)和Ⅰ型断裂能G_(F),并结合扫描电子显微镜分析了材料的微观结构,探讨了PET粉对PHDAC断裂行为演变的影响机理和作用机制。结果表明:添加PET粉的试验组均呈现延性断裂特征,采用15%的PET粉替代石英砂能显著提升材料的Ⅰ型断裂能;PET粉末颗粒因疏水特性,与浆体及其他骨料之间形成明显的界面过渡区(ITZ),该ITZ会削弱基体界面致密程度,促进基体开裂,从而使材料整体更易形成多裂缝开裂。 展开更多
关键词 pet 断裂性能 碱激发复合材料 起裂断裂韧度 失稳断裂韧度 Ⅰ型断裂能
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Thermo-physical Properties of Continuous Carbon Fiber Reinforced Copper Matrix Composites
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作者 曹金华 黄俊波 陈先有 《材料工程》 EI CAS CSCD 北大核心 2007年第z1期61-65,共5页
Continuous carbon fiber reinforced copper matrix composites with 70%(volume fraction) of carbon fibers prepared by squeeze casting technique have been used for investigation of the coefficient of thermal expansion(CTE... Continuous carbon fiber reinforced copper matrix composites with 70%(volume fraction) of carbon fibers prepared by squeeze casting technique have been used for investigation of the coefficient of thermal expansion(CTE) and thermal conductivity.Thermo-physical properties have been measured in both,longitudinal and transversal directions to the fiber orientation.The results showed that Cf/Cu composites may be a suitable candidate for heat sinks because of its good thermo-physical properties e.g.the low CTE(4.18×10-6/K) in longitudinal orientation and(14.98×10-6/K) in transversal orientation at the range of 20-50℃,a good thermal conductivity(87.2 W/m·K) in longitudinal orientation and(58.2 W/m·K) in transversal orientation.Measured CTE and thermal conductivity values are compared with those predicted by several well-known models.Eshelby model gave better results for prediction of the CTE and thermal conductivity of the unidirectional composites. 展开更多
关键词 carbon fiber copper MATRIX composites THERMAL EXPANSION THERMAL CONDUCTIVITY
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Orthogonal design of experiment and analysis of abrasive water jet cutting on carbon fiber reinforced composites
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作者 HE Binjie DAI Jinchun +3 位作者 ZHAO Deng HUANG Nuodi WU Shijing HAN Caihong 《排灌机械工程学报》 EI CSCD 北大核心 2020年第9期928-932,共5页
The carbon fiber reinforced composite is a new type of composite material with an excellent property in strength and elastic modulus,and has found extensive applications in aerospace,energy,automotive industry and so ... The carbon fiber reinforced composite is a new type of composite material with an excellent property in strength and elastic modulus,and has found extensive applications in aerospace,energy,automotive industry and so on.However,this composite has a strict requirement on processing techniques,for example,brittle damage or delamination often exists in conventional processing techniques.Abrasive water jet machining technology is a new type of green machining technique with distinct advantages such as high-energy and thermal distortion free.The use of abrasive water jet technique to process carbon fiber composite materials has become a popular trend since it can significantly improve the processing accuracy and surface quality of carbon fiber composite materials.However,there are too many parameters that affect the quality of an abrasive water jet machining.At present,few studies are carried out on the parameter optimization of such a machining process,which leads to the unstable quality of surface processing.In this paper,orthogonal design of experiment and regression analysis were employed to establish the empirical model between cutting surface roughness and machining process parameters.Then a verified model was used to optimize the machining process parameters for abrasive water jet cutting carbon fiber reinforced composites. 展开更多
关键词 abrasive water jet carbon fiber reinforced composites surface roughness orthogonal experiment regression analysis
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Advanced composite wing design for next-generation military UAVs:A progressive numerical optimization framework
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作者 M.Atif Yilmaz Kemal Hasirci +1 位作者 Berk Gündüz Alaeddin Burak Irez 《Defence Technology(防务技术)》 2025年第6期141-155,共15页
The design of unmanned aerial vehicles(UAVs)revolves around the careful selection of materials that are both lightweight and robust.Carbon fiber-reinforced polymer(CFRP)emerged as an ideal option for wing construction... The design of unmanned aerial vehicles(UAVs)revolves around the careful selection of materials that are both lightweight and robust.Carbon fiber-reinforced polymer(CFRP)emerged as an ideal option for wing construction,with its mechanical qualities thoroughly investigated.In this study,we developed and optimized a conceptual UAV wing to withstand structural loads by establishing progressive composite stacking sequences,and we conducted a series of experimental characterizations on the resulting material.In the optimization phase,the objective was defined as weight reduction,while the Hashin damage criterion was established as the constraint for the optimization process.The optimization algorithm adaptively monitors regional damage criterion values,implementing necessary adjustments to facilitate the mitigation process in a cost-effective manner.Optimization of the analytical model using Simulia Abaqus~(TM)and a Python-based user-defined sub-routine resulted in a 34.7%reduction in the wing's structural weight after 45 iterative rounds.Then,the custom-developed optimization algorithm was compared with a genetic algorithm optimization.This comparison has demonstrated that,although the genetic algorithm explores numerous possibilities through hybridization,the custom-developed algorithm is more result-oriented and achieves optimization in a reduced number of steps.To validate the structural analysis,test specimens were fabricated from the wing's most critically loaded segment,utilizing the identical stacking sequence employed in the optimization studies.Rigorous mechanical testing revealed unexpectedly high compressive strength,while tensile and bending strengths fell within expected ranges.All observed failure loads remained within the established safety margins,thereby confirming the reliability of the analytical predictions. 展开更多
关键词 Aircraft wing Carbon fiber composite Optimization UAV
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PET复合纤维的制备及其隔热性能
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作者 韩娜 陈永昌 +3 位作者 沙乾坤 陈冲 杨田 张兴祥 《天津工业大学学报》 CAS 北大核心 2024年第5期8-15,23,共9页
为改善聚对苯二甲酸乙二醇酯(PET)纤维的保温隔热性能,使用熔融纺丝工艺制备具有保温隔热性能的PET/二氧化硅气凝胶(SA)/气相SiO2(FS)复合纤维,并用NaOH溶液对纤维进行碱处理,以在纤维表面形成孔隙;采用SEM、XRD、TG、DSC和导热系数仪... 为改善聚对苯二甲酸乙二醇酯(PET)纤维的保温隔热性能,使用熔融纺丝工艺制备具有保温隔热性能的PET/二氧化硅气凝胶(SA)/气相SiO2(FS)复合纤维,并用NaOH溶液对纤维进行碱处理,以在纤维表面形成孔隙;采用SEM、XRD、TG、DSC和导热系数仪等表征技术对复合纤维进行了表征,探究了碱处理时间对纤维表面形貌、拉伸强度、导热系数等物化性质的影响。结果表明:碱处理之后的PET/SA/FS复合纤维表面出现孔隙,断裂强度降低24.5%;热导率从纯PET纤维的0.0894 W/(m·K)最低降低到PET/SA/FS复合纤维的0.0400 W/(m·K),降低了55.3%,从而显著提高了纤维的保温隔热性能。 展开更多
关键词 pet复合纤维 隔热性能 SIO2气凝胶 气相SiO2 熔融纺丝
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碱溶性聚酯/碳酸钙/聚酯(COPET/CaCO_(3)/PET)多孔纤维制备及性能研究
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作者 赵艳娇 刘蕴莹 +3 位作者 宋若晨 潘茹男 李君美 刘丽芳 《东华大学学报(自然科学版)》 CAS 北大核心 2024年第4期122-131,共10页
采用自制的碱溶性聚酯/碳酸钙(COPET/CaCO_(3))母粒与聚酯(PET)母粒,经熔融纺丝实现对传统PET纤维的改性,结合单因子控制变量法优选碱酸处理制备COPET/CaCO_(3)/PET多孔纤维的最佳工艺参数,并对纤维性能进行测试与表征。结果表明,当NaO... 采用自制的碱溶性聚酯/碳酸钙(COPET/CaCO_(3))母粒与聚酯(PET)母粒,经熔融纺丝实现对传统PET纤维的改性,结合单因子控制变量法优选碱酸处理制备COPET/CaCO_(3)/PET多孔纤维的最佳工艺参数,并对纤维性能进行测试与表征。结果表明,当NaOH质量分数为4%、HCL质量分数为3%时,纤维具有较好的表观形态和孔隙结构。在最优处理条件下,纤维内部含有较多分布均匀的孔隙,孔径主要集中分布在15~54nm。此时,纤维的断裂强度、线密度、比表面积和熔融温度分别为1.29cN/dtex、4.84dtex、5.5273m^(2)/g和253.85℃。 展开更多
关键词 碱溶性聚酯/碳酸钙(COpet/CaCO_(3))母粒 聚酯(pet)母粒 碱溶性聚酯/碳酸钙/聚酯(COpet/CaCO_(3)/pet)多孔纤维 熔融纺丝 碱酸处理
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A review on machinability of carbon fiber reinforced polymer(CFRP)and glass fiber reinforced polymer(GFRP)composite materials 被引量:51
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作者 Meltem Altin Karatas Hasan Gokkaya 《Defence Technology(防务技术)》 SCIE EI CAS CSCD 2018年第4期318-326,共9页
Fiber reinforced polymer(FRP) composite materials are heterogeneous and anisotropic materials that do not exhibit plastic deformation. They have been used in a wide range of contemporary applications particularly in s... Fiber reinforced polymer(FRP) composite materials are heterogeneous and anisotropic materials that do not exhibit plastic deformation. They have been used in a wide range of contemporary applications particularly in space and aviation,automotive,maritime and manufacturing of sports equipment. Carbon fiber reinforced polymer(CFRP) and glass fiber reinforced polymer(GFRP) composite materials,among other fiber reinforced materials,have been increasingly replacing conventional materials with their excellent strength and low specific weight properties. Their manufacturability in varying combinations with customized strength properties,also their high fatigue,toughness and high temperature wear and oxidation resistance capabilities render these materials an excellent choice in engineering applications.In the present review study,a literature survey was conducted on the machinability properties and related approaches for CFRP and GFRP composite materials. As in the machining of all anisotropic and heterogeneous materials,failure mechanisms were also reported in the machining of CFRP and GFRP materials with both conventional and modern manufacturing methods and the results of these studies were obtained by use of variance analysis(ANOVA),artificial neural networks(ANN) model,fuzzy inference system(FIS),harmony search(HS) algorithm,genetic algorithm(GA),Taguchi's optimization technique,multi-criteria optimization,analytical modeling,stress analysis,finite elements method(FEM),data analysis,and linear regression technique. Failure mechanisms and surface quality is discussed with the help of optical and scanning electron microscopy,and profilometry. ANOVA,GA,FEM,etc. are used to analyze and generate predictive models. 展开更多
关键词 compositE MATERIALS fiber reinforced polymer compositE MATERIALS CFRP GFRP Machining Wear Surface damage
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高湿度下具有荧光指示功能的PET复合膜的制备与性能
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作者 西鹏 褚君广 《天津工业大学学报》 CAS 北大核心 2024年第4期12-18,共7页
为了制备出能在高湿度、易结雾环境下可持续发光的薄膜,以聚对苯二甲酸乙二醇酯(PET)膜为基底,将具有优异疏水功能的新型稀土发光配合物和聚甲基丙烯酸甲酯(PMMA)均匀分散制成发光涂覆液,通过涂覆刮膜技术,制备出PET-PMMA发光复合膜,并... 为了制备出能在高湿度、易结雾环境下可持续发光的薄膜,以聚对苯二甲酸乙二醇酯(PET)膜为基底,将具有优异疏水功能的新型稀土发光配合物和聚甲基丙烯酸甲酯(PMMA)均匀分散制成发光涂覆液,通过涂覆刮膜技术,制备出PET-PMMA发光复合膜,并对其进行测试表征。荧光分光光度计和共聚焦显微镜测试的结果表明:发光材料占聚合物PMMA的质量分数为1.50%时所制备的PET发光膜具有良好的表面均匀性和最佳的荧光性能,荧光强度可达到9979 a.u.,在不同激发波长下PET-PMMA发光复合膜均可以显现出发光材料中Eu3+的特征荧光发射峰;测得发光复合膜的最佳紫外激发波长为350 nm,在最佳激发波长下发光复合膜具有较好的色纯度;通过对比发光复合膜浸泡在水溶液7 d内每天的荧光强度值,发现在发光材料仅有1.50%的前提下,样品的荧光强度损失仅有5%,这表明所制备的发光复合膜遇水易猝灭的弊端得到极大改善,这为PET农膜在潮湿、易结雾环境下实现长期稳定的荧光指示功能提供了重要基础。 展开更多
关键词 pet复合膜 有机稀土发光材料 荧光指示 高湿度
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A comprehensive review on material selection for polymer matrix composites subjected to impact load 被引量:4
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作者 Vishwas Mahesh Sharnappa Joladarashi Satyabodh M.Kulkarni 《Defence Technology(防务技术)》 SCIE EI CAS CSCD 2021年第1期257-277,共21页
Polymer matrix composites(PMC)are extensively been used in many engineering applications.Various natural fibers have emerged as potential replacements to synthetic fibers as reinforcing materials composites owing to t... Polymer matrix composites(PMC)are extensively been used in many engineering applications.Various natural fibers have emerged as potential replacements to synthetic fibers as reinforcing materials composites owing to their fairly better mechanical properties,low cost,environment friendliness and biodegradability.Selection of appropriate constituents of composites for a particular application is a tedious task for a designer/engineer.Impact loading has emerged as the serious threat for the composites used in structural or secondary structural application and demands the usage of appropriate fiber and matrix combination to enhance the energy absorption and mitigate the failure.The objective of the present review is to explore the composite with various fiber and matrix combination used for impact applications,identify the gap in the literature and suggest the potential naturally available fiber and matrix combination of composites for future work in the field of impact loading.The novelty of the present study lies in exploring the combination of naturally available fiber and matrix combination which can help in better energy absorption and mitigate the failure when subjected to impact loading.In addition,the application of multi attributes decision making(MADM)tools is demonstrated for selection of fiber and matrix materials which can serve as a benchmark study for the researchers in future. 展开更多
关键词 Polymer matrix composites Natural fibers Green composite Impact characterization Flexible composite MADM Approach
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Ablation properties of C/C composites with various needled preforms prepared by isothermal chemical vapor infiltration 被引量:5
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作者 汤素芳 王道岭 +2 位作者 邓景屹 刘文川 杨柯 《Journal of Central South University of Technology》 EI 2007年第1期13-18,共6页
The ablation properties of C/C composites with four different needled preforms prepared by isothermal chemical vapor infiltration (ICVI), which are super-thin mat lay-up, 0°/90° weftless fabric lay-up, 0&#... The ablation properties of C/C composites with four different needled preforms prepared by isothermal chemical vapor infiltration (ICVI), which are super-thin mat lay-up, 0°/90° weftless fabric lay-up, 0°/45° weftless fabric lay-up and 0°/45° twill fabric lay-up, were quantitatively evaluated by performing the ablation tests with an engine torch. And their ablation discrepancies were analyzed according to the surface characteristic, porosity and thermal diffusivity. The results show that the 0°/45° weftless composite has a fiat eroded surface with no obvious macroscopic pits. Its thickness and mass erosion rates are decreased by about 46.8% and 34.8%, 25.0% and 27.5%, and 17.5% and 19.4% compared with those of the mat, the 0°/90° weftless and the 0°/45° twill composites, respectively. The ablation properties are mainly controlled by the thermo-chemical effect (oxidation), and a little by the thermo-mechanical effect (mechanical denudation). The needling fiber bundles play an important role in accelerating the ablation process and resulting in the heterogeneous ablation. 展开更多
关键词 C/C composites ablation fiber architecture isothermal chemical vapor infiltration thermal diffusivity
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Effects of irrigation and planting geometry on cotton(Gossypium hirsutum L.)fiber quality and seed composition 被引量:2
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作者 PINNAMANENI Srinivasa R. ANAPALLI Saseendran S. +2 位作者 SUI Ruixiu BELLALOUI Nacer REDDY Krishna N. 《Journal of Cotton Research》 2021年第1期1-11,共11页
Background:Cotton fiber quality and seed composition play vital roles in the economics of cotton production systems and the cottonseed meal industry.This research aimed to examine the effects of different irrigation l... Background:Cotton fiber quality and seed composition play vital roles in the economics of cotton production systems and the cottonseed meal industry.This research aimed to examine the effects of different irrigation levels and planting geometries on fiber quality and seed composition of cotton(Gossypium hirsutum L.).We conducted a 2-year study in 2018 and 2019 in a warm,humid area in the Southeast United States on Dundee silt loam soil.There were three irrigation treatments in the study.The treatments included irrigating every furrow,or full irrigation(FI),every alternate furrow,or half irrigation(HI),and no irrigation,or rain-fed(RF).Planting geometries were on ridges spaced 102 cm apart and either a single-row(SR)or twin-rows(TR).Results:The results of high-volume instrument(HVI),advanced fiber information systems(AFIS)and near-infrared reflectance spectroscopy(NIRS)showed that irrigation and planting treatments played a significant role in fiber quality and seed composition.Across irrigation treatments,significant differences were seen in fiber properties,including fineness,maturity ratio,micronaire,neps,short fiber,strength,uniformity,upper half mean length(UHML),upper quartile length by weight(UQLw),and yellowness(+b).Irrigation and planting geometry(PG)had a significant effect on micronaire,strength,and UHML while their interaction was significant only for micronaire.The micronaire was negatively affected by irrigation as FI-SR,FI-TR,HI-SR,and HI-TR recorded 11%~12%lower over the RF-SR and TR treatments.The PG played a minor role in determining fiber quality traits like micronaire and nep count.Irrigation treatments produced significantly lower(3%~4%)protein content than rain-fed,while oil content increased significantly(6%~10%).Conclusions:The study results indicate a potential for improving cotton fiber and seed qualities by managing irrigation and planting geometries in cotton production systems in the Mississippi(MS)Delta region.The HI-TR system appears promising for lint and seed quality. 展开更多
关键词 COTTON fiber quality Seed composition MICRONAIRE fiber length
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