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Experimental study of solid-liquid origami composite structures with improved impact resistance
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作者 Shuheng Wang Zhanyu Wang +5 位作者 Bei Wang Zhi Liu Yunzhu Ni Wuxing Lai Shan Jiang Yong An Huang 《Theoretical & Applied Mechanics Letters》 CAS CSCD 2024年第2期118-123,共6页
In this paper,a liquid-solid origami composite design is proposed for the improvement of impact resistance.Employing this design strategy,Kresling origami composite structures with different fillings were designed and... In this paper,a liquid-solid origami composite design is proposed for the improvement of impact resistance.Employing this design strategy,Kresling origami composite structures with different fillings were designed and fabricated,namely air,water,and shear thickening fluid(STF).Quasi-static compression and drop-weight impact experiments were carried out to compare and reveal the static and dynamic mechanical behavior of these structures.The results from drop-weight impact experiments demonstrated that the solid-liquid Kresling origami composite structures exhibited superior yield strength and reduced peak force when compared to their empty counterparts.Notably,the Kresling origami structures filled with STF exhibited significantly heightened yield strength and reduced peak force.For example,at an impact velocity of 3 m/s,the yield strength of single-layer STF-filled Kresling origami structures increased by 772.7%and the peak force decreased by 68.6%.This liquid-solid origami composite design holds the potential to advance the application of origami structures in critical areas such as aerospace,intelligent protection and other important fields.The demonstrated improvements in impact resistance underscore the practical viability of this approach in enhancing structural performance for a range of applications. 展开更多
关键词 Solid-liquid design Origami structure impact resistance Shear thickening fluid
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Dynamic Resistance and Energy Absorption of Sandwich Beam via a Micro-Topology Optimization
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作者 Shiqiang Li Yuwei Li +3 位作者 Xiaomin Ma Jianguang Fang Zhifang Liu Zhihua Wang 《Chinese Journal of Mechanical Engineering》 SCIE EI CAS CSCD 2024年第4期146-162,共17页
The current research of sandwich structures under dynamic loading mainly focus on the response characteristic of structure.The micro-topology of core layers would sufficiently influence the property of sandwich struct... The current research of sandwich structures under dynamic loading mainly focus on the response characteristic of structure.The micro-topology of core layers would sufficiently influence the property of sandwich structure.However,the micro deformation and topology mechanism of structural deformation and energy absorption are unclear.In this paper,based on the bi-directional evolutionary structural optimization method and periodic base cell(PBC)technology,a topology optimization frame work is proposed to optimize the core layer of sandwich beams.The objective of the present optimization problem is to maximize shear stiffness of PBC with a volume constraint.The effects of the volume fraction,filter radius,and initial PBC aspect ratio on the micro-topology of the core were discussed.The dynamic response process,core compression,and energy absorption capacity of the sandwich beams under blast impact loading were analyzed by the finite element method.The results demonstrated that the overpressure action stage was coupled with the core compression stage.Under the same loading and mass per unit area,the sandwich beam with a 20%volume fraction core layer had the best blast resistance.The filter radius has a slight effect on the shear stiffness and blast resistances of the sandwich beams.But increasing the filter radius could slightly improve the bending stiffness.Upon changing the initial PBC aspect ratio,there are three ways for PBC evolution:The first is to change the angle between the adjacent bars,the second is to further form holes in the bars,and the third is to combine the first two ways.However,not all three ways can improve the energy absorption capacity of the structure.Changing the aspect ratio of the PBC arbitrarily may lead to worse results.More studies are necessary for further detailed optimization.This research proposes a new topology sandwich beam structure by micro-topology optimization,which has sufficient shear stiffness.The micro mechanism of structural energy absorption is clarified,it is significant for structural energy absorption design. 展开更多
关键词 Topology optimization Sandwich beam impact loading Dynamic resistance Energy absorption Micro mechanism
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Multiscale Study on Low Temperature Crack Resistance Mechanism of Steel Slag Asphalt Mixture
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作者 白雪峰 王岚 CHEN Xiunan 《Journal of Wuhan University of Technology(Materials Science)》 SCIE EI CAS CSCD 2024年第3期705-715,共11页
The objective of this paper was to study low temperature crack resistance mechanism of steel slag asphalt mixture(SAM).Thermal stress restrained specimen test(TSRST)and three-point bending test were carried out to eva... The objective of this paper was to study low temperature crack resistance mechanism of steel slag asphalt mixture(SAM).Thermal stress restrained specimen test(TSRST)and three-point bending test were carried out to evaluate the low-temperature crack resistance of SAM and basalt asphalt mixture(BAM).Based on the digital image correlation technique(DIC),the strain field distribution and crack propagation of SAM were analyzed from the microscopic point of view,and a new index,crack length factor(C),was proposed to evaluate the crack resistance of the asphalt mixture.The crystal phase composition and microstructure of steel slag aggregate(SA)and basalt aggregate(BA)were studied by X-ray diffraction(XRD)and scanning electron microscopy(SEM)to explore the low-temperature crack resistance mechanism of SAM.Results show that the low-temperature crack resistance of SAM is better than that of BAM;SAM has good integrity and persistent elastic deformation,and its bending failure mode is a hysteretic quasi-brittle failure;The SA surface is evenly distributed with pores and has surface roughness.SA has the composition phase of alkaline aggregate-calcite(CaCO3),so it has good adhesion to asphalt,which reveals the mechanism of excellent low-temperature crack resistance of SAM. 展开更多
关键词 steel slag asphalt mixture ·low-temperature crack resistance ·strain energy density ·XRD SEM
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Trifunctional strategy for the design and synthesis of a Ni-CeO_(2)@SiO_(2)catalyst with remarkable low-temperature sintering and coking resistance for methane dry reforming 被引量:5
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作者 Sixue Lin Jing Wang +5 位作者 Yangyang Mi Senyou Yang Zheng Wang Wenming Liu Daishe Wu Honggen Peng 《Chinese Journal of Catalysis》 SCIE EI CAS CSCD 2021年第10期1808-1820,共13页
In this study,a trifunctional strategy was developed to prepare a confined Ni-based catalyst(Ni-CeO_(2)@SiO_(2))for dry reforming of methane(DRM)of two main greenhouse gases-CO_(2)and CH_(4).The Ni-CeO_(2)@SiO_(2)cata... In this study,a trifunctional strategy was developed to prepare a confined Ni-based catalyst(Ni-CeO_(2)@SiO_(2))for dry reforming of methane(DRM)of two main greenhouse gases-CO_(2)and CH_(4).The Ni-CeO_(2)@SiO_(2)catalyst was fabricated by utilizing the confinement effect of the SiO_(2)shell and the synergistic interaction between Ni-Ce and the decoking effect of CeO_(2).The catalysts were systematically characterized via X-ray diffraction,N_(2 )adsorption/desorption,transmission electron microscopy,energy dispersive X-ray spectroscopy,hydrogen temperature reduction and desorption set by program,oxygen temperature program desorption,Raman spectroscopy,thermogravimetric analysis,and in situ diffuse reflectance infrared Fourier transform spectroscopy measurements to reveal their physicochemical properties and reaction mechanism.The Ni-CeO_(2)@SiO_(2)catalyst exhibited higher activity and stability than the catalyst synthesized via the traditional impregnation method.In addition,no carbon deposition was detected over Ni-CeO_(2)@SiO_(2)after a 100 h durability test at 800℃,and the average particle size of Ni nanoparticles(NPs)in the catalyst increased from 5.01 to 5.77 nm.Remarkably,Ni-CeO_(2)@SiO_(2)also exhibited superior low-temperature stability;no coke deposition was observed when the catalyst was reacted at 600℃ for 20 h.The high coking and sintering resistance of this confined Ni-based DRM catalyst can be attributed to its trifunctional effect.The trifunctional strategy developed in this study could be used as a guideline to design other high-performance catalysts for CO_(2)and CH4 dry forming and accelerate their industrialization. 展开更多
关键词 Methane dry forming low-temperature stability Coke resistance Tri functional strategy CO_(2)utilization
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Combined effect of steel fibres and steel rebars on impact resistance of high performance concrete 被引量:9
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作者 陈相宇 丁一宁 C.Azevedo 《Journal of Central South University》 SCIE EI CAS 2011年第5期1677-1684,共8页
The impact properties of normal concrete (NC) and reinforced concrete (RC) specimens,steel fibre reinforced concrete (SFRC) specimens and RC+SFRC specimens with different steel fibre dosages were investigated with the... The impact properties of normal concrete (NC) and reinforced concrete (RC) specimens,steel fibre reinforced concrete (SFRC) specimens and RC+SFRC specimens with different steel fibre dosages were investigated with the drop-weight impact test recommended by ACI Committee 544.The results indicate that the number of blows to final failure is greatly increased by addition of steel fibres.Moreover,the combination of steel fibres and steel rebars demonstrates a significant positive composite effect on the impact resistance,which results in the improvement in impact toughness of concrete specimens.In the view of variation of impact test results,the two-parameter Weibull distribution was adopted to analyze the experimental data.It is proved that the probabilistic distributions of the blows to first crack and to final failure of six types of samples approximately follow two-parameter Weibull distribution. 展开更多
关键词 impact resistance high performance concrete FIBRE Weibull distribution
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Penetration and impact resistance of PDC cutters inclined at different attack angles 被引量:3
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作者 李夕兵 《中国有色金属学会会刊:英文版》 CSCD 2000年第2期275-279,共5页
In order to develop a rotary percussive bit with diamond enhanced cutters assisted by high pressure water jets, it is necessary to study the damage mechanism and the penetration properties of PDC cutters subject to di... In order to develop a rotary percussive bit with diamond enhanced cutters assisted by high pressure water jets, it is necessary to study the damage mechanism and the penetration properties of PDC cutters subject to different impact load level and rock types. Therefore the impact experiments of the single PDC cutters with different attack angles in four rocks: black basalt, Missouri red granite, Halston limestone, and a very soft (Roubidoux) sandstone were carried out, and the effects of rake angles of PDC cutters on both the penetration and impact resistance of PDC cutters have been discussed in detail. Test results show that a PDC insert can withstand a very strong impact in compression but is easily damaged by impact shearing, the PDC cutters are more easily damaged by shearing if the attack angles are relatively small, the 45? PDC cutters have the least penetration resistance among the cutters tested. Thus it is suggested that the attack angles of PDC cutters should be larger than 30? for bits which must withstand impact from a hammer. 展开更多
关键词 PDC cutters PENETRATION and impact resistance ROTARY percussive DRILL BITS
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Detecting Impact Damage in Carbon Fabric/epoxy-matrix Composites by Ultrasonic F-scan and Electrical Resistance Measurement 被引量:3
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作者 谢小林 《Journal of Wuhan University of Technology(Materials Science)》 SCIE EI CAS 2010年第2期214-217,共4页
The status and the variation of electrical resistance of impacted carbon fiber/epoxy-matrix composites were studied by ultrasonic F-scan and electrical resistance measurement The experimental results shows that impact... The status and the variation of electrical resistance of impacted carbon fiber/epoxy-matrix composites were studied by ultrasonic F-scan and electrical resistance measurement The experimental results shows that impact damage energy threshold value of carbon fabric/epoxy-matrix composites can determine by using ultrasonic F-scan. When the impact energy exceeds the threshold value, damage is generated in composites. Electrical resistance of impacted composites is changed owing to the contact of each carbon fiber unit in composites, which cause a change of the series-parallel in conductors. The veracity of detecting impact damage in composites can be improved in this case. 展开更多
关键词 carbon fabric/epoxy-matrix composites impact damage ultrasonic F-scan electrical resistance measurement
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Effect of T6I6 treatment on dynamic mechanical behaviour of Al-Si-Mg-Cu cast alloy and impact resistance of its cast motor shell 被引量:1
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作者 CHEN Yu-qiang XU Jia-bei +6 位作者 PAN Su-ping LI Ning-bo OU Chen-gui LIU Wen-hui SONG Yu-feng TAN Xin-rong LIU Yang 《Journal of Central South University》 SCIE EI CAS CSCD 2022年第3期924-936,共13页
The effect of T6I6 treatment on the dynamic mechanical and microstructure behaviour of Al-Si-Mg-Cu cast alloy was investigated using split Hopkinson pressure bar(SHPB), transmission electron microscopy(TEM), and highr... The effect of T6I6 treatment on the dynamic mechanical and microstructure behaviour of Al-Si-Mg-Cu cast alloy was investigated using split Hopkinson pressure bar(SHPB), transmission electron microscopy(TEM), and highresolution transmission electron microscopy(HRTEM). Besides, the impact resistances of T6I6 and T6 motor shells of new energy vehicles made of Al-Si-Mg-Cu cast alloy were compared using a trolley crash test. The results indicated that the main strengthening-phases of the T6 peak-aged and T6I6 peak-aged alloy were GP zone and β″ precipitates. T6I6treatment can increase the density and size of β″ precipitates in peak-aged alloy and enhance both its tensile strength(σb)and elongation(δ). The dynamic toughness values of T6I6 samples are 50.34 MJ/m^(3) at 2000 s^(-1) and 177.34 MJ/m^(3) at 5000 s^(-1) which are 20% and 12% higher than those of T6 samples, respectively. Compared with a T6 shell, the overall deformation of T6I6 shell is more uniform during the crash test. At an impact momentum of 3.5×10;kg·m/s, the T6I6shell breaks down at 0.38 s which is 0.10 s later than the T6 shell. 展开更多
关键词 Al-Si-Mg-Cu cast alloy motor shells T6I6 treatment dynamic mechanical behaviour impact resistance
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Failure pattern in ceramic metallic target under ballistic impact
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作者 M.A.Iqbal M.K.Khan 《Defence Technology(防务技术)》 SCIE EI CAS CSCD 2024年第10期173-190,共18页
The ballistic resistance and failure pattern of a bi-layer alumina 99.5%-aluminium alloy 1100-H12 target against steel 4340 ogival nosed projectile has been explored in the present experimental cum numerical study.In ... The ballistic resistance and failure pattern of a bi-layer alumina 99.5%-aluminium alloy 1100-H12 target against steel 4340 ogival nosed projectile has been explored in the present experimental cum numerical study.In the experimental investigation,damage induced in the ceramic layer has been quantified in terms of number of cracks developed and failure zone dimensions.The resultant damage in the backing layer has been studied with variation in the bulge and perforation hole in the backing layer with the varying incidence velocity.The discussion of the experimental results has been further followed by three dimensional finite element computations using ABAQUS/Explicit finite code to investigate the behaviour of different types of bi-layer targets under multi-hit projectile impact.The JH-2 constitutive model has been used to reproduce the behaviour of alumina 99.5%and JC constitutive model has been used for steel 4340 and aluminium alloy 1100-H12.The total energy dissipation has been noted to be of lesser magnitude in case of sub-sequential impact in comparison to simultaneous impact of two projectiles.The distance between the impact points of two projectiles also effected the ballistic resistance of bi-layer target.The ballistic resistance of single tile ceramic front layer and four tile ceramic of equivalent area found to be dependent upon the boundary conditions provided to the target. 展开更多
关键词 Ballistic resistance Bi-layer target Ceramic metal armour Multi-hit impact Finite element modelling
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Improved impact resistance of PDC and test of it in laboratory
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作者 Choi Dong-ik Park Byong-joon Oh Jeang Ook. 《金刚石与磨料磨具工程》 CAS 北大核心 2008年第S1期77-79,共3页
A study is performed on a newly developed Polycrystalline Diamond Cutter(PDC) with improved impact resistance.Impact resistance of PDC is dependent on diamond grain size,binder content and property of the substrate.A ... A study is performed on a newly developed Polycrystalline Diamond Cutter(PDC) with improved impact resistance.Impact resistance of PDC is dependent on diamond grain size,binder content and property of the substrate.A crack might initiate in the substrate by the impact transferred from the diamond layer if substrate is not tough enough to absorb it.This failure is caused by the residual stress at the interface resulting from the difference of thermal expansion coefficient between diamond and substrate. This kind of failure could be reduced to some extent by optimizing the grain size of WC and content of Co in the substrate.PDC with much improved impact resistance is produced by also optimizing the diamond size and the content of binder phase in the layer. Drop-test with different conditions of energy and speed are carried out on the newly developed PDC and wear resistance test is done and the result is compared with that of previous PDC. It is found that the newly developed PDC shows 40%better impact resistance than previous PDC. 展开更多
关键词 POLYCRYSTALLINE DIAMOND CUTTER SUBSTRATE impact resistance
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Effect of Rare Earths-Treated Glass Fiber on Impact Wear-Resistance of Metal-Plastic Multilayer Composites 被引量:2
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作者 程先华 薛玉君 谢超英 《Journal of Rare Earths》 SCIE EI CAS CSCD 2002年第4期282-286,共5页
The friction and wear properties under impact load and dry friction conditions of metal-plastic multilayer composites filled with glass fiber, treated with rare earth elements, were investigated. The worn surfaces wer... The friction and wear properties under impact load and dry friction conditions of metal-plastic multilayer composites filled with glass fiber, treated with rare earth elements, were investigated. The worn surfaces were observed and analyzed by scanning electron microscopy (SEM). It shows that applying rare earth elements surface modifier to treat the glass fiber surface can enhance the interfacial adhesion between the glass fiber and polytetrafluoroethylene (PTFE), as well as promote the interface properties of the composites. This helps to form a uniformly distributed and high adhesive transfer film on the counterface and abate the friction between the composite and the counterface. As a result, the wear of composite is greatly reduced. The composite exhibits excellent friction properties and impact wear-resistance. 展开更多
关键词 rare earths metal-plastic multilayer composites friction properties impact wear-resistance
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Effect of Rare Earth Elements on the Impact Wear Resistance of Nitrocarburizing Layers
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作者 程先华 丁定远 +2 位作者 陆明炯 刘家浚 陈南平 《Journal of Rare Earths》 SCIE EI CAS CSCD 1991年第2期129-133,共5页
In this paper the effect of rare earth elements on the toughness and impact wear resistance of nitrocarburiz- ing layers is studied.The experimental results show that the toughness and impact wear resistance of RE-nit... In this paper the effect of rare earth elements on the toughness and impact wear resistance of nitrocarburiz- ing layers is studied.The experimental results show that the toughness and impact wear resistance of RE-nitrocarburizing layers are increased significantly compared with that of conventional nitrocarburizing lay- ers.The service life of hot die for manufacturing bicycle bolts increased more than 100%.The impact wear mechanism of RE-nitrocarburizing layers is investigated by SEM as well. 展开更多
关键词 RE Nitrocarburizing impact wear resistance
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Evaluation of Impact Damage Tolerance in Carbon Fabric/epoxy-matrix Composites by Electrical Resistance Measurement
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作者 李志鹏 谢小林 《Journal of Wuhan University of Technology(Materials Science)》 SCIE EI CAS 2012年第3期484-488,共5页
Impact damage tolerance is provided in intensity design on composites. The compression intensity of impacted composites requires more than 60% of its original intensity. The influence of impact on compressive intensit... Impact damage tolerance is provided in intensity design on composites. The compression intensity of impacted composites requires more than 60% of its original intensity. The influence of impact on compressive intensity and electrical resistance of carbon fabric/epoxy-matrix composites was studied in this paper. The experimental results shows that impact can cause damage in composites, degenerate compressive intensity, and increase resistance. The electrical resistance change rate was used as an evaluation indicator of impact damage tolerance of composites. Impact damage, which results from the applying process of composites, can be identified in time by electrical resistance measurement. So, the safety performance of composites can also be improved. 展开更多
关键词 carbon fabric/epoxy-matrix composites impact damage tolerance compressive intensity after impacted electrical resistance measurement
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Impact Resistance of a Novel Expanded Polystyrene Cement-based Material
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作者 朱洪波 LI Chen +2 位作者 WANG Peiming WU Mengxue YAN Meizhu 《Journal of Wuhan University of Technology(Materials Science)》 SCIE EI CAS 2014年第2期284-290,共7页
The mechanical property of a novel expanded polystyrene cement-based material (EPS-C), which was prepared by compressing semi-dry materials molding, was investigated. The compressive behavior was analyzed by compres... The mechanical property of a novel expanded polystyrene cement-based material (EPS-C), which was prepared by compressing semi-dry materials molding, was investigated. The compressive behavior was analyzed by compression tests to gain the energy absorbed during failure. Performance for impact resistance was tested by a self-made device. The results figures out that the EPS-C has good toughness and can reach swain of 0.7 without failure. The stress-strain curve is quite different from that of normal EPS concrete. It can be divided into three stages and in the third stage the compressing exhibits the highest energy absorption. With the rising of cement ratio, the impact force absorption (IEA) decreases first and then increases. The impact energy absorption (IEA) increases first and then decreases. The lowest IEA and the highest lEA appear at the cement dosage from 233 g/L to 267 g/L and from 233 g/L to 300 g/L, respectively. 展开更多
关键词 expanded polystyrene (EPS) CEMENT compressing semi-dry materials molding compressive'behavior impact resistance
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Low-Energy Multi-Impact Fracture Resistance of Cross Rolled Low Chromium Cast Semi-Steel Containing Rare Earth Grinding Ball
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作者 王海燕 《Journal of Rare Earths》 SCIE EI CAS CSCD 2004年第S1期154-156,共3页
The low-energy multi-impact fracture resistance of the cross rolled low chromium cast semi-steel containing RE grinding balls was studied. Moreover, its damage mode was analyzed by means of metallographic examination,... The low-energy multi-impact fracture resistance of the cross rolled low chromium cast semi-steel containing RE grinding balls was studied. Moreover, its damage mode was analyzed by means of metallographic examination, scanning electron microscopic examination and drop ball test. The results show that it can obtain extractive impact fracture resistance after proper heat treatment. More advantages were obtained for the ball worked in the condition of low-imp ductility act. The main reasons are the function of RE and the change in morphology of eutectic carbide network. 展开更多
关键词 cross rolled low chromium cast semi-steel grinding ball impact fracture resistance rare earths
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Hygrothermal effect on high-velocity impact resistance of woven composites
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作者 Xiao-chen Yang Nan Jia 《Defence Technology(防务技术)》 SCIE EI CAS CSCD 2022年第5期823-833,共11页
The woven glass fiber reinforced composites(GFRP)subjected to high-speed impact is investigated to identify the hygrothermal aging effect on the impact resistance.Both the hygrothermal aged and unaged glass/epoxy lami... The woven glass fiber reinforced composites(GFRP)subjected to high-speed impact is investigated to identify the hygrothermal aging effect on the impact resistance.Both the hygrothermal aged and unaged glass/epoxy laminates are subjected to different impact velocities,which is confirmed as a sensitive factor for the failure modes and mechanisms.The results show the hygrothermal aging effect decreases the ballistic limit by 14.9%,but the influence on ballistic performance is limited within the impact velocity closed to the ballistic limit.The failure modes and energy dissipation mechanisms are confirmed to be slightly influenced by the hygrothermal aging effect.The hygrothermal aging effect induced localization of structural deformation and degradation of mechanical properties are the main reasons for the composite undergoing the same failure modes at smaller impact velocities.Based on the energy absorption mechanisms,analytical expressions predict the ballistic limit and energy absorption to reasonable accuracy,the underestimated total energy absorption results in a relatively poor agreement between the measured and predicted energy absorption efficiency. 展开更多
关键词 Hygrothermal aging effect Woven glass/epoxy composite impact resistance Dynamic failure Energy absorption
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Influence of hot deformation quantity on impact fatigue resistance of low alloy wear resistant cast iron 被引量:1
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作者 LIU Jian-hua MENG De-liang +2 位作者 GUO Yu-xing ZHU Guo-he ZHANG Rui-jun 《材料科学与工程(中英文版)》 2009年第8期60-64,共5页
关键词 耐疲劳性能 热变形量 耐磨铸铁 低合金 疲劳裂纹 界面生成 光学显微镜 疲劳试验
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Effects of Exogenous Glycine Betaine on Oxidation Metabolism in Cucumbers during Low-temperature Storage
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作者 许丽 陈湘宁 +2 位作者 张海英 韩涛 王富贵 《Agricultural Science & Technology》 CAS 2015年第5期857-861,867,共6页
[Objective] This study aimed to analyze the effects of different concentrations of glycine betaine(GB) on oxidation metabolism in cucumbers under low-temperature stress and to investigate the possible mechanism of l... [Objective] This study aimed to analyze the effects of different concentrations of glycine betaine(GB) on oxidation metabolism in cucumbers under low-temperature stress and to investigate the possible mechanism of low-temperature resistance in cucumber during low-temperature storage. [Method] Cucumber cultivar Zhongnong No.8 was treated with 0, 5, 10 and 15 mmol/L GB solutions for 15 min and stored at 4 ℃. Changes in oxidative metabolism-related parameters were observed. [Result] Increasing exogenous GB concentration could enhance GB content in cucumbers, decline lipoxygenase(LOX) activity, improve peroxidase(POD) and catalase(CAT) activities, remove effectively hydrogen peroxide(H2O2) and reduce the accumulation of malondialdehyde(MDA). [Conclusion] Treating cucumbers with10 mmol/L GB exhibited the most remarkable effect. 展开更多
关键词 CUCUMBER Glycine betaine (GB) low-temperature resistance Oxidation metabolism
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Research on the Dynamic Compressibility of Polyurethane Microcellular Elastomer and its Application for Impact Resistance
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作者 Zhi-Ying Zhao Hao Jiang +3 位作者 Xiao-Dong Li Xu-Dong Zhang Xing Su Mei-Shuai Zou 《Chinese Journal of Polymer Science》 SCIE EI CAS CSCD 2024年第8期1185-1197,共13页
The packaging materials with cushioning performance are used to prevent the internal contents from being damaged by the impact and vibration of external forces.The polyurethane microcellular elastomers(PUMEs)can absor... The packaging materials with cushioning performance are used to prevent the internal contents from being damaged by the impact and vibration of external forces.The polyurethane microcellular elastomers(PUMEs)can absorb energy through cell collapse and molecular chain creep.In this study,PUMEs with different densities were investigated by scanning electron microscopy,dynamic mechanical analysis and dynamic compression tests.PUMEs exhibited significant im pact resistance and the maximum peak stress attenuation ratio reached 73.33%.The protective equipment was made by PUME with the optimal density of 600 kg/m^(3),and then the acceleration sensing device installed with the same protective equipment fell from a height of 3,5 and 10 m to evaluate the energy-absorbing property and reusability of PUMEs.The results showed that PUMEs equipment reduced the peak acceleration of the device by 93.84%,with a maximum deviation of 9%between actual test and simulation,and shortened the impact time of first landing by 57.39%.In addition,the equipment PUMEs equipment could effectively reduce the stress on the protected items. 展开更多
关键词 Polyurethane microcellular elastomer impact velocity Stress attenuation ratio impact resistance
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Constitutive modelling of concrete material subjected to low-velocity projectile impact:insights into damage mechanism and target resistance
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作者 Shen LIU Xieping HUANG +1 位作者 Xiangzhen KONG Qin FANG 《Journal of Zhejiang University-Science A(Applied Physics & Engineering)》 SCIE EI CAS CSCD 2024年第2期161-182,共22页
This paper presents a numerical study to improve the understanding of the complex subject of penetration and perforation of concrete targets impacted by low-velocity projectiles.The main focus is on the damage mechani... This paper presents a numerical study to improve the understanding of the complex subject of penetration and perforation of concrete targets impacted by low-velocity projectiles.The main focus is on the damage mechanisms and the major factors that account for the target resistance of the concrete.An improved continuous surface cap model recently proposed was employed.The model was first equipped with element erosion criteria and was adequately validated by comparisons with ballistic experiments.Comprehensive numerical simulations were carried out where the individual influence of tensile,shear,and volumetric behaviors(pore collapse)of a concrete target on its ballistic performance was investigated.Results demonstrated that cratering on the front face and scabbing on the rear face of the concrete target were mainly dominated by its tensile behavior.The major target resistance came from the second tunneling stage which was primarily governed by the shear and volumetric behaviors of the concrete.Particularly,this study captured the pore collapse-induced damage phenomenon during the high-pressure tunneling stage,which has been extensively reported in experiments but has usually been neglected in previous numerical investigations. 展开更多
关键词 PENETRATION PERFORATION Damage mechanism Target resistance Projectile impact Pore collapse
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