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Theoretical characterization of the temperature-dependent saturation magnetization of magnetic metallic materials
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作者 吴金龙 董攀 +6 位作者 贺屹 马艳丽 李梓源 姚沁远 邱俊 麻建坐 李卫国 《Chinese Physics B》 SCIE EI CAS CSCD 2024年第7期577-585,共9页
Based on the force-heat equivalence energy density principle,a theoretical model for magnetic metallic materials is developed,which characterizes the temperature-dependent magnetic anisotropy energy by considering the... Based on the force-heat equivalence energy density principle,a theoretical model for magnetic metallic materials is developed,which characterizes the temperature-dependent magnetic anisotropy energy by considering the equivalent relationship between magnetic anisotropy energy and heat energy;then the relationship between the magnetic anisotropy constant and saturation magnetization is considered.Finally,we formulate a temperature-dependent model for saturation magnetization,revealing the inherent relationship between temperature and saturation magnetization.Our model predicts the saturation magnetization for nine different magnetic metallic materials at different temperatures,exhibiting satisfactory agreement with experimental data.Additionally,the experimental data used as reference points are at or near room temperature.Compared to other phenomenological theoretical models,this model is considerably more accessible than the data required at 0 K.The index included in our model is set to a constant value,which is equal to 10/3 for materials other than Fe,Co,and Ni.For transition metals(Fe,Co,and Ni in this paper),the index is 6 in the range of 0 K to 0.65T_(cr)(T_(cr) is the critical temperature),and 3 in the range of 0.65T_(cr) to T_(cr),unlike other models where the adjustable parameters vary according to each material.In addition,our model provides a new way to design and evaluate magnetic metallic materials with superior magnetic properties over a wide range of temperatures. 展开更多
关键词 magnetic metallic materials temperature dependent saturation magnetization MODELING
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Degree of polarization based on the three-component pBRDF model for metallic materials 被引量:6
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作者 Kai Wang Jing-Ping Zhu Hong Liu 《Chinese Physics B》 SCIE EI CAS CSCD 2017年第2期254-259,共6页
An expression of degree of polarization(DOP) for metallic material is presented based on the three-component polarized bidirectional reflectance distribution function(p BRDF) model with considering specular reflec... An expression of degree of polarization(DOP) for metallic material is presented based on the three-component polarized bidirectional reflectance distribution function(p BRDF) model with considering specular reflection, directional diffuse reflection and ideal diffuse reflection. The three-component p BRDF model with a detailed reflection assumption is validated by comparing simulations with measurements. The DOP expression presented in this paper is related to surface roughness, which makes it more reasonable in physics. Test results for two metallic samples show that the DOP based on the three-component p BRDF model accords well with the measurement and the error of existing DOP expression is significantly reduced by introducing the diffuse reflection. It indicates that our DOP expression describes the polarized reflection properties of metallic surfaces more accurately. 展开更多
关键词 degree of polarization(DOP) polarized bidirectional reflectance distribution function(pBRDF) metallic materials
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Model of bidirectional reflectance distribution function for metallic materials 被引量:1
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作者 王凯 朱京平 +1 位作者 刘宏 侯洵 《Chinese Physics B》 SCIE EI CAS CSCD 2016年第9期337-341,共5页
Based on the three-component assumption that the reflection is divided into specular reflection,directional diffuse reflection,and ideal diffuse reflection,a bidirectional reflectance distribution function(BRDF) mod... Based on the three-component assumption that the reflection is divided into specular reflection,directional diffuse reflection,and ideal diffuse reflection,a bidirectional reflectance distribution function(BRDF) model of metallic materials is presented.Compared with the two-component assumption that the reflection is composed of specular reflection and diffuse reflection,the three-component assumption divides the diffuse reflection into directional diffuse and ideal diffuse reflection.This model effectively resolves the problem that constant diffuse reflection leads to considerable error for metallic materials.Simulation and measurement results validate that this three-component BRDF model can improve the modeling accuracy significantly and describe the reflection properties in the hemisphere space precisely for the metallic materials. 展开更多
关键词 bidirectional reflectance distribution function metallic materials scattering
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A review on in vitro corrosion performance test of biodegradable metallic materials 被引量:10
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作者 甄珍 奚廷斐 郑玉峰 《Transactions of Nonferrous Metals Society of China》 SCIE EI CAS CSCD 2013年第8期2283-2293,共11页
Extensive in vitro corrosion test systems have been carried out to simulate the in vivo corrosion behavior of biodegradable metallic materials. Various methods have their own unique benefits and limitations. The corro... Extensive in vitro corrosion test systems have been carried out to simulate the in vivo corrosion behavior of biodegradable metallic materials. Various methods have their own unique benefits and limitations. The corrosion mechanism of biodegradable alloys and in vitro corrosion test systems on biodegradable metallic materials are reviewed, to build a reasonable simulated in vitro test system for mimicking the in vivo animal test from the aspects of electrolyte solution selection, surface roughness influence, test methods and evaluation methodology of corrosion rate. Buffered simulated body fluid containing similar components to human blood plasma should be applied as electrolyte solution, such as simulated body fluid (SBF) and culture medium with serum. Surface roughness of samples and ratio of solution volume to sample surface area should be adopted based on the real implant situation, and the dynamic corrosion is preferred. As to the evaluation methodology of corrosion rate, different methods may complement one another. 展开更多
关键词 biodegradable metallic material in vitro corrosion test Mg FE
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South China University of fechnology Advanced Metallic Materials Research and Processing Technology Center
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《China Foundry》 SCIE CAS 2004年第S1期67-67,共1页
A dvanced Metallic Materials Research and Processing Technology Center was found in December 1998. As a unit under The College of Mechanical Engineering, the Center is an expansion of the former Cast and Composite Mat... A dvanced Metallic Materials Research and Processing Technology Center was found in December 1998. As a unit under The College of Mechanical Engineering, the Center is an expansion of the former Cast and Composite Materials Research Group, which was found in the early eighties of last century. The Center is focusing in the basic and applied research, and development of advanced metallic materials and their processing technology. It also functions as an organization 展开更多
关键词 South China University of fechnology Advanced metallic materials Research and Processing Technology Center HIGH
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Databook on Fatigue Strength of Metallic Materials
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《Journal of Materials Science & Technology》 SCIE EI CAS CSCD 1997年第2期160-160,共1页
关键词 Databook on Fatigue Strength of metallic materials
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EFFECT OF STRAIN RATE(?) ON STRAIN HARDENING EXPONENT n OF SOME METALLIC MATERIALS 被引量:4
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作者 TANG Changguo, ZHU Jinhua, ZHANG Yuhua, ZHOU HuijiuResearch Institute for Strength of Metals. Xi’an Jiaotong University. Xi’an. China 《Acta Metallurgica Sinica(English Letters)》 SCIE EI CAS CSCD 1994年第3期183-186,共4页
Variable strain rate tension tests for 4 metallic materials show that as the strain rate in creases the strain hardening exponent n decreases. The trend follows a two stage linear relation between n and Ig (?). When (... Variable strain rate tension tests for 4 metallic materials show that as the strain rate in creases the strain hardening exponent n decreases. The trend follows a two stage linear relation between n and Ig (?). When (?) < (?)cp, i.e. under quasi-static loading, n can be considered as a constant, but when (?)>(?)cp, n decreases rapidly till an ideal plastic state. n = 0. The characterizations and mechanisms of softening induced by high (?) are discussed. 展开更多
关键词 strain rate strain hardening EXPONENT metallic material
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Novel Ring Compression Test Method to Determine the Stress-Strain Relations and Mechanical Properties of Metallic Materials
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作者 Guangzhao Han Lixun Cai +4 位作者 Chen Bao Bo Liang Yang Lyu Maobo Huang Xiaokun Liu 《Chinese Journal of Mechanical Engineering》 SCIE EI CAS CSCD 2021年第6期114-125,共12页
Although there are methods for testing the stress-strain relation and strength,which are the most fundamental and important properties of metallic materials,their application to small-volume materials and tube compone... Although there are methods for testing the stress-strain relation and strength,which are the most fundamental and important properties of metallic materials,their application to small-volume materials and tube components is lim-ited.In this study,based on energy density equivalence,a new dimensionless elastoplastic load-displacement model for compressed metal rings with isotropy and constitutive power law is proposed to describe the relations among the geometric dimensions,Hollomon law parameters,load,and displacement.Furthermore,a novel test method was developed to determine the elastic modulus,stress-strain relation,yield and tensile strength via ring compression test.The universality and accuracy of the method were verified within a wide range of imaginary materials using finite element analysis(FEA),and the results show that the stress-strain curves obtained by this method are consistent with those inputted in the FEA program.Additionally,a series of ring compression tests were performed for seven metallic materials.It was found that the stress-strain curves and mechanical properties predicted by the method agreed with the uniaxial tensile results.With its low material consumption,the ring compression test has the potential to be as an alternative to traditional tensile test when direct tension method is limited. 展开更多
关键词 Ring compression Energy density equivalence Stress-strain relation STRENGTH metallic material
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Capillary Property of Entangled Porous Metallic Wire materials and Its Application in Fluid Buffers:Theoretical Analysis and Experimental Study
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作者 Yu Tang Yiwan Wu +1 位作者 Hu Cheng Rong Liu 《Defence Technology(防务技术)》 SCIE EI CAS CSCD 2024年第1期400-416,共17页
Strong impact does serious harm to the military industries so it is necessary to choose reasonable cushioning material and design effective buffers to prevent the impact of equipment.Based on the capillary property en... Strong impact does serious harm to the military industries so it is necessary to choose reasonable cushioning material and design effective buffers to prevent the impact of equipment.Based on the capillary property entangled porous metallic wire materials(EPMWM),this paper designed a composite buffer which uses EPMWM and viscous fluid as cushioning materials under the low-speed impact of the recoil force device of weapon equipment(such as artillery,mortar,etc.).Combined with the capillary model,porosity,hydraulic diameter,maximum pore diameter and pore distribution were used to characterize the pore structure characteristics of EPMWM.The calculation model of the damping force of the composite buffer was established.The low-speed impact test of the composite buffer was conducted.The parameters of the buffer under low-speed impact were identified according to the model,and the nonlinear model of damping force was obtained.The test results show that the composite buffer with EPMWM and viscous fluid can absorb the impact energy from the recoil movement effectively,and provide a new method for the buffer design of weapon equipment(such as artillery,mortar,etc.). 展开更多
关键词 Entangled porous metallic wire materials Capillary property Viscousfluid Low-speed impact Damping force
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A Review of Anode Materials for Dual‑Ion Batteries
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作者 Hongzheng Wu Shenghao Luo +6 位作者 Hubing Wang Li Li Yaobing Fang Fan Zhang Xuenong Gao Zhengguo Zhang Wenhui Yuan 《Nano-Micro Letters》 SCIE EI CAS CSCD 2024年第11期618-674,共57页
Distinct from"rockingchair"lithium-ion batteries(LIBs),the unique anionic intercalation chemistry on the cathode side of dual-ion batteries(DIBs)endows them with intrinsic advantages of low cost,high voltage... Distinct from"rockingchair"lithium-ion batteries(LIBs),the unique anionic intercalation chemistry on the cathode side of dual-ion batteries(DIBs)endows them with intrinsic advantages of low cost,high voltage,and ecofriendly,which is attracting widespread attention,and is expected to achieve the next generation of large-scale energy storage applications.Although the electrochemical reactions on the anode side of DIBs are similar to that of LIBs,in fact,to match the rapid insertion kinetics of anions on the cathode side and consider the compatibility with electrolyte system which also serves as an active material,the anode materials play a very important role,and there is an urgent demand for rational structural design and performance optimization.A review and summarization of previous studies will facilitate the exploration and optimization of DIBs in the future.Here,we summarize the development process and working mechanism of DIBs and exhaustively categorize the latest research of DIBs anode materials and their applications in different battery systems.Moreover,the structural design,reaction mechanism and electrochemical performance of anode materials are briefly discussed.Finally,the fundamental challenges,potential strategies and perspectives are also put forward.It is hoped that this review could shed some light for researchers to explore more superior anode materials and advanced systems to further promote the development of DIBs. 展开更多
关键词 Dual-ion batteries ANODE Carbonaceous materials metallic materials Organic materials Optimization strategies
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Mechanical behavior of entangled metallic wire materials-polyurethane interpenetrating composites
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作者 Xiao-yuan Zheng Zhi-ying Ren +2 位作者 Hong-bai Bai Zhang-bin Wu You-song Guo 《Defence Technology(防务技术)》 SCIE EI CAS CSCD 2023年第2期120-136,共17页
Composite materials exhibit the impressive mechanical properties of high damping and stiffness,which cannot be attained by employing conventional single materials.Along these lines,a novel material architecture is pre... Composite materials exhibit the impressive mechanical properties of high damping and stiffness,which cannot be attained by employing conventional single materials.Along these lines,a novel material architecture is presented in this work in order to fabricate composites with enhanced mechanical characteristics.More specifically,entangled metallic wire materials were used as the active matrix,whereas polyurethane was employed as the reinforcement elements.As a result,an entangled metallic wire material-polyurethane composite with high damping and stiffness was prepared by enforcing the vacuum infiltration method.On top of that,the mechanical properties(loss factor,energy consumption,and average stiffness)of the proposed composite materials were characterized by performing dynamic tests,and its fatigue characteristics were verified by the micro-interface bonding,as well as the macro-damage factor.The impact of the density,preloading spacing,loading amplitude,and exciting frequency on the mechanical properties of the composites were also thoroughly analyzed.The extracted results indicate that the mechanical properties of the composites were significantly enhanced than those of the pure materials due to the introduction of interface friction.Moreover,the average stiffness of the composites was about 10 times the respective value of the entangled metallic wire material.Interestingly,a rise in the loading period leads to some failure between the composite interfaces,which reduces the stiffness property but enhances the damping dissipation properties.Finally,a comprehensive dynamic mechanical model of the composites was established,while it was experimentally verified.The proposed composites possess higher damping features,i.e.,stiffness characteristics,and maintain better fatigue characteristics,which can broaden the application range of the composites.In addition,we provide a theoretical and experimental framework for the research and applications in the field of metal matrix composites. 展开更多
关键词 Entangled metallic wire material Composites materials Damping property STIFFNESS Fatigue characteristics
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The Anti-Penetration Performance and Mechanism of Metal Materials:A Review
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作者 Jialin Chen Shutao Li +5 位作者 Shang Ma Yeqing Chen Yin Liu Quanwei Tian Xiting Zhong Jiaxing Song 《Engineering》 SCIE EI CAS CSCD 2024年第9期131-157,共27页
This article reviews the anti-penetration principles and strengthening mechanisms of metal materials,ranging from macroscopic failure modes to microscopic structural characteristics,and further summarizes the micro-ma... This article reviews the anti-penetration principles and strengthening mechanisms of metal materials,ranging from macroscopic failure modes to microscopic structural characteristics,and further summarizes the micro-macro correlation in the anti-penetration process.Finally,it outlines the constitutive models and numerical simulation studies utilized in the field of impact and penetration.From the macro perspective,nine frequent penetration failure modes of metal materials are summarized,with a focus on the analysis of the cratering,compression shear,penetration,and plugging stages of the penetration process.The reasons for the formation of adiabatic shear bands(ASBs)in metal materials with different crystal structures are elaborated,and the formation mechanism of the equiaxed grains in the ASB is explored.Both the strength and the toughness of metal materials are related to the materials’crystal structures and microstructures.The toughness is mainly influenced by the deformation mechanism,while the strength is explained by the strengthening mechanism.Therefore,the mechanical properties of metal materials depend on their microstructures,which are subject to the manufacturing process and material composition.Regarding numerical simulation,the advantages and disadvantages of different constitutive models and simulation methods are summarized based on the application characteristics of metal materials in high-speed penetration practice.In summary,this article provides a systematic overview of the macroscopic and microscopic characteristics of metal materials,along with their mechanisms and correlation during the anti-penetration and impact-resistance processes,thereby making an important contribution to the scientific understanding of anti-penetration performance and its optimization in metal materials. 展开更多
关键词 Metal materials Failure model Adiabatic shear band Strengthening mechanisms Numerical simulation
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Twin-roll strip casting of advanced metallic materials 被引量:2
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作者 ZHU ChenYang ZENG Jie WANG WanLin 《Science China(Technological Sciences)》 SCIE EI CAS CSCD 2022年第3期493-518,共26页
Metallic materials have historic and served as critical enablers of human progress,wealth,and wellbeing over millennia.Recently,the global demand for the development of environment-friendly and energy-saving technolog... Metallic materials have historic and served as critical enablers of human progress,wealth,and wellbeing over millennia.Recently,the global demand for the development of environment-friendly and energy-saving technology has been increasing,with the aim to support the sustainability of metallic materials.Twin-roll strip casting(TRC)is one of the most cutting-edge technologies and a near-net-shape manufacturing method in the steel industry,which conforms to the green fabrication trend of next-generation high-performance metallic materials.By utilizing the dominant characteristics of sub-rapid solidification,and integration of solidification,solid-state transformation,and deformation;TRC has become a meaningful way to deal with the most challenging issues in the processing of metallic materials,and made a significant contribution to materials manufacturing.Hence,we review the TRC process of various metallic materials,including plain carbon steels,stainless steels,Fe-Si electrical steels,high-strength steels,clad steels,aluminum alloys,magnesium alloys,metallic glasses,and so on.This paper offers an outlook of future opportunities for various advanced metallic materials development through the TRC process,and inspires more in-depth research. 展开更多
关键词 twin-roll strip casting metallic materials STEELS ALLOYS
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Research perspective and prospective of additive manufacturing of biodegradable magnesium-based materials 被引量:2
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作者 Qingyun Fu Wenqi Liang +6 位作者 Jiaxin Huang Weihong Jin Baisong Guo Ping Li Shulan Xu Paul K.Chu Zhentao Yu 《Journal of Magnesium and Alloys》 SCIE EI CAS CSCD 2023年第5期1485-1504,共20页
Biodegradable metals such as magnesium(Mg)and its alloys have attracted extensive attention in biomedical research due to their excellent mechanical properties and biodegradability.However,traditional casting,extrusio... Biodegradable metals such as magnesium(Mg)and its alloys have attracted extensive attention in biomedical research due to their excellent mechanical properties and biodegradability.However,traditional casting,extrusion,and commercial processing have limitations in manufacturing components with a complex shape/structure,and these processes may produce defects such as cavities and gas pores which can degrade the properties and usefulness of the products.Compared to conventional techniques,additive manufacturing(AM)can be used to precisely control the geometry of workpieces made of different Mg-based materials with multiple geometric scales and produce desirable medical products for orthopedics,dentistry,and other fields.However,a detailed and thorough understanding of the raw materials,manufacturing processes,properties,and applications is required to foster the production of commercial Mg-based biomedical components by AM.This review summarizes recent advances and important issues pertaining to AM of Mg-based biomedical products and discusses future development and application trends. 展开更多
关键词 Magnesium-based materials Additive manufacturing Wires and powders Biomedical metallic materials Medical devices
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Recent advances in tribological and wear properties of biomedical metallic materials
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作者 Hua-Fang Li Jin-Yan Huang +1 位作者 Gui-Cai Lin Peng-Yu Wang 《Rare Metals》 SCIE EI CAS CSCD 2021年第11期3091-3106,共16页
Biomedical metallic materials are commonly used in the repair and replacement of human tissues.After the materials are implanted in the human body,the implants can rub against human tissue or other implants,resulting ... Biomedical metallic materials are commonly used in the repair and replacement of human tissues.After the materials are implanted in the human body,the implants can rub against human tissue or other implants,resulting in wear and tear of the implants.The wear and tear of implants in the human body can lead to osteolysis and inflammation,which can affect the longevity of the implant and human health.For the sake of human health and the longevity of implants,it is essential to study the frictional and wear properties of biomedical metallic materials.The present review summarizes the current research on the frictional and wear properties of biomedical metallic materials in recent years,as well as the methods and techniques to improve the frictional and wear properties of the materials.The significance of the present review lies in that it could provide momentus information for further investigation of the tribological properties of biomedical metallic materials. 展开更多
关键词 FRICTION WEAR metallic materials Wear resistance TRIBOCORROSION
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Research of Electromagnetic Field on Several Metallic Materials and Processing
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作者 WANG En-gang HE Ji-cheng 《Journal of Iron and Steel Research International》 SCIE EI CAS CSCD 2012年第S1期25-33,共9页
The research activities in EPM for several metallic materials are classified in the application of different magnetic field.The following research is exhibited in this article,(1)Effect of magnetic field on solidifica... The research activities in EPM for several metallic materials are classified in the application of different magnetic field.The following research is exhibited in this article,(1)Effect of magnetic field on solidification process of monotectic alloys;(2)Effect of high magnetic field on fabrication of high-strength and high-conductivity copper alloys;(3)Numerical simulation of magnetic field and fluid flow in continuous casting mold with vertical electromagnetic brake;(4)Research on solidification structure of superalloy with EMS;(5)Effects of static magnetic field on the behavior of meniscus in a mold under argon gas injection. 展开更多
关键词 Electromagnetic field metallic materials PROCESSING
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STUDY ON A NEW APPROACH OF CAVITATION EROSION TEST FOR NONMETALLIC MATERIALS
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作者 Liu Zhi ping, Zhang Dong, Jin Tai lai China Institute of Water Resources and Hydropower Reserarch, Beijing 100038, P.R.China (Received Nov.9, 1998) 《Journal of Hydrodynamics》 SCIE EI CSCD 1999年第3期75-82,共8页
This paper deals with the reconstruction and innovation of an ordinary magnetostriction apparatus for cavitation erosion tests of non metallic materials. It aims at making testing specimen to be independent of amplit... This paper deals with the reconstruction and innovation of an ordinary magnetostriction apparatus for cavitation erosion tests of non metallic materials. It aims at making testing specimen to be independent of amplitude amplifier rod, thus overcoming the difficulties of fixing tightly the non metallic specimen to the vibrating rod. Such approach makes the exposure area greatly increased and effectively mitigates the effect of non homogeneity of non metallic specimen on the testing results, thus extending the application of magnetostriction apparatus to carry out cavitation erosion tests to larger size of non metallic and non homogeneous materials. It will render a set of new innovative apparatus and recently developed method to conduct fast and simple cavitation erosion test in days to come. Simultaneously, several tests on non metallic materials have been made by means of such new apparatus, yielding satisfactory results and witnessing the availability of new methods. 展开更多
关键词 cavitation erosion non metallic materials MAGNETOSTRICTION
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Experimental Research of Electronic Devices Thermal Control Using Metallic Phase Change Materials 被引量:1
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作者 Ai-Gang Pan Jun-Biao Wang +1 位作者 Xian-Jie Zhang Xiao-Bao Cao 《Journal of Harbin Institute of Technology(New Series)》 EI CAS 2014年第2期113-121,共9页
A Phase-change thermal control unit( PTCU) filled with metallic phase change material( PCM) Bismuth alloy for electric devices thermal protection was developed and investigated experimentally. The PTCU filled with PCM... A Phase-change thermal control unit( PTCU) filled with metallic phase change material( PCM) Bismuth alloy for electric devices thermal protection was developed and investigated experimentally. The PTCU filled with PCM was designed and manufactured. Resistance heating components( RCHs) produced 1 W,3 W, 5 W,7W,and 10 W for simulating heat generation of electronic devices. At various heating power levels,the performance of PTCU were tested during heating period and one duty cycle period. The experimental results show that the PTCU delays RCH reaching the maximum operating temperature. Also,a numerical model was developed to enable interpretation of experimental results and to perform parametric studies. The results confirmed that the PTCU is suitable for electric devices thermal control. 展开更多
关键词 bismuth alloy metallic phase change materials thermal control electronic device
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Quasi-static and low-velocity impact mechanical behaviors of entangled porous metallic wire material under different temperatures
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作者 Yi-wan Wu Hu Cheng +3 位作者 Shang-zhou Li Yu Tang Hong-bai Bai Chun-hong Lu 《Defence Technology(防务技术)》 SCIE EI CAS CSCD 2023年第1期143-152,共10页
To improve the defense capability of military equipment under extreme conditions,impact-resistant and high-energy-consuming materials have to be developed.The damping characteristic of entangled porous metallic wire m... To improve the defense capability of military equipment under extreme conditions,impact-resistant and high-energy-consuming materials have to be developed.The damping characteristic of entangled porous metallic wire materials(EPMWM)for vibration isolation was previously investigated.In this paper,a study focusing on the impact-resistance of EPMWM with the consideration of ambient temperature is presented.The quasi-static and low-velocity impact mechanical behavior of EPMWM under different temperatures(25℃-300℃)are systematically studied.The results of the static compression test show that the damping energy dissipation of EPMWM increases with temperature while the nonlinear damping characteristics are gradually enhanced.During the impact experiments,the impact energy loss rate of EPMWM was between 65%and 85%,while the temperatures increased from 25℃to 300℃.Moreover,under the same drop impact conditions,the overall deformation of EPMWM decreases in the temperature range of 100℃-200℃.On the other hand,the impact stiffness,energy dissipation,and impact loss factor of EPMWM significantly increase with temperature.This can be attributed to an increase in temperature,which changes the thermal expansion coefficient and contact state of the internal wire helixes.Consequently,the energy dissipation mode(dry friction,air damping,and plastic deformation)of EPMWM is also altered.Therefore,the EPMWM may act as a potential candidate material for superior energy absorption applications. 展开更多
关键词 Entangled porous metallic wire material Low-velocity impact High temperature Energy dissipation characteristics Mechanical behavior
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Numerical and experimental evaluation for density-related thermal insulation capability of entangled porous metallic wire material
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作者 Tao Zhou Rong-zheng Fang +3 位作者 Di Jia Pei Yang Zhi-ying Ren Hong-bai Bai 《Defence Technology(防务技术)》 SCIE EI CAS CSCD 2023年第5期177-188,共12页
Entangled porous metallic wire material(EPMWM)has the potential as a thermal insulation material in defence and engineering.In order to optimize its thermophysical properties at the design stage,it is of great signifi... Entangled porous metallic wire material(EPMWM)has the potential as a thermal insulation material in defence and engineering.In order to optimize its thermophysical properties at the design stage,it is of great significance to reveal the thermal response mechanism of EPMWM based on its complex structural effects.In the present work,virtual manufacturing technology(VMT)was developed to restore the physics-based 3D model of EPMWM.On this basis,the transient thermal analysis is carried out to explore the contact-relevant thermal behavior of EPMWM,and then the spiral unit containing unique structural information are further extracted and counted.In particular,the thermal resistance network is numerically constructed based on the spiral unit through the thermoelectric analogy method to accurately predict the effective thermal conductivity(ETC)of EPMWM.Finally,the thermal diffusivity and specific heat of the samples were obtained by the laser thermal analyzer to calculate the ETC and thermal insulation factor of interest.The results show that the ETC of EPMWM increases with increasing temperature or reducing density under the experimental conditions.The numerical prediction is consistent with the experimental result and the average error is less than 4%. 展开更多
关键词 Entangled porous metallic wire material (EPMWM) Virtual manufacturing technology(VMT) Thermal resistance network Effective thermal conductivity(ETC) Thermal insulation factor
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