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Dynamic fracture behavior and coupled impact effect of as-cast W-Zr-Ti energetic structural material
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作者 Yuxuan Qi Liang Mao +3 位作者 Chunlan Jiang Guitao Liu Kongxun Zhao Mengchen Zhang 《Defence Technology(防务技术)》 2026年第1期422-435,共14页
This paper prepared a novel as-cast W-Zr-Ti metallic ESM using high-frequency vacuum induction melting technique.The above ESM performs a typical elastic-brittle material feature and strain rate strengthening behavior... This paper prepared a novel as-cast W-Zr-Ti metallic ESM using high-frequency vacuum induction melting technique.The above ESM performs a typical elastic-brittle material feature and strain rate strengthening behavior.The specimens exhibit violent chemical reaction during the fracture process under the impact loading,and the size distribution of their residual debris follows Rosin-Rammler model.The dynamic fracture toughness is obtained by the fitting of debris length scale,approximately 1.87 MPa·m~(1/2).Microstructure observation on residual debris indicates that the failure process is determined by primary crack propagation under quasi-static compression,while it is affected by multiple cracks propagation in both particle and matrix in the case of dynamic impact.Impact test demonstrates that the novel energetic fragment performs brilliant penetration and combustion effect behind the front target,leading to the effective ignition of fuel tank.For the brittleness of as-cast W-ZrTi ESM,further study conducted bond-based peridynamic(BB-PD)C++computational code to simulate its fracture behavior during penetration.The BB-PD method successfully captured the fracture process and debris cloud formation of the energetic fragment.This paper explores a novel as-cast metallic ESM,and provides an available numerical avenue to the simulation of brittle energetic fragment. 展开更多
关键词 Energetic structural material Dynamic fracture behavior coupled impact effect Mechanical property Peridynamics As-cast W-Zr-Ti alloy
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Coupling Effect of Water and Fertilizer on Soybean Yield and Nutrient Absorption 被引量:2
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作者 HAO Li ZU Wei +2 位作者 SUN Cong-shu LEI Shu-xia LIU Li-jun 《Journal of Northeast Agricultural University(English Edition)》 CAS 2003年第2期105-114,共10页
Soybean cultivar Bei 92-28 was tested in this experiment in 2000 to study the coupling effect of water and ferilizer on soybean yield.The results showed that the effect of irrigation varied among the levels of fertili... Soybean cultivar Bei 92-28 was tested in this experiment in 2000 to study the coupling effect of water and ferilizer on soybean yield.The results showed that the effect of irrigation varied among the levels of fertilizer application,and vice versa;pods per plant,seeds per pod.and 100-seed weight had positive correlations with soybean yield,but the degrees of correlations of different treatments were various;LAI and dry matter accumulation could be significantly increased when watered and applied fertilizer with different levels,but high fertilizer application treatment didn't obtain the highest yield;watering could increase the absolute absorption amount of N,P,K in seeds,but the accumulation rates were various. 展开更多
关键词 coupling effect WATER FERTILIZER soybean yield
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Coupling effect of evaporation and condensation processes of organic Rankine cycle for geothermal power generation improvement 被引量:4
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作者 YANG Hua MENG Nan LI Tai-lu 《Journal of Central South University》 SCIE EI CAS CSCD 2019年第12期3372-3387,共16页
Organic Rankine cycle(ORC)is widely used for the low grade geothermal power generation.However,a large amount of irreversible loss results in poor technical and economic performance due to its poor matching between th... Organic Rankine cycle(ORC)is widely used for the low grade geothermal power generation.However,a large amount of irreversible loss results in poor technical and economic performance due to its poor matching between the heat source/sink and the working medium in the condenser and the evaporator.The condensing temperature,cooling water temperature difference and pinch point temperature difference are often fixed according to engineering experience.In order to optimize the ORC system comprehensively,the coupling effect of evaporation and condensation process was proposed in this paper.Based on the laws of thermodynamics,the energy analysis,exergy analysis and entropy analysis were adopted to investigate the ORC performance including net output power,thermal efficiency,exergy efficiency,thermal conductivity,irreversible loss,etc.,using geothermal water at a temperature of 120℃as the heat source and isobutane as the working fluid.The results show that there exists a pair of optimal evaporating temperature and condensing temperatures to maximize the system performance.The net power output and the system comprehensive performance achieve their highest values at the same evaporating temperature,but the system comprehensive performance corresponds to a lower condensing temperature than the net power output. 展开更多
关键词 Organic Rankine cycle geothermal power generation coupling effect of evaporation and condensation exergy analysis
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Interfacial coupling effects in g-C_(3)N_(4)/In_(x)Sb_(2-x)S_(3) heterojunction for enhanced photocatalytic activity under visible light 被引量:7
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作者 YANG Ting HU Xin-yu +2 位作者 WANG Jun-tao YANG Tian-li WANG Wen-lei 《Journal of Central South University》 SCIE EI CAS CSCD 2022年第5期1447-1462,共16页
A series of In_(x)Sb_(2-x)S_(3) nanosheets modified g-C_(3)N_(4)(In_(x)Sb_(2-x)S_(3)-TCN)heterojunctions with different g-C_(3)N_(4) contents were fabricated by an in situ deposition method.All the In_(x)Sb_(2-x)S_(3)... A series of In_(x)Sb_(2-x)S_(3) nanosheets modified g-C_(3)N_(4)(In_(x)Sb_(2-x)S_(3)-TCN)heterojunctions with different g-C_(3)N_(4) contents were fabricated by an in situ deposition method.All the In_(x)Sb_(2-x)S_(3)-TCN composites were applied as photocatalysts in Cr(Ⅵ)polluted water treatment and the results displayed that In_(x)Sb_(2-x)S_(3)-TCN could effectively remove Cr(Ⅵ)under visible light through synergistic effects of adsorption and photocatalytic reduction.Especially,In_(x)Sb_(2-x)S_(3)-TCN-70(70 mg g-C_(3)N_(4)) exhibited the most excellent adsorption and photocatalytic reduction performance among all composites,which possessed a high equilibrium adsorption capacity of 12.45 mg/g in a 30.0 mg/L Cr(Ⅵ)aqueous solution,and reduced Cr(Ⅵ)to Cr(Ⅲ)within 10 min under visible light irradiation.DRS and PL results indicated that the interfacial coupling effect between g-C_(3)N_(4)and In_(x)Sb_(2-x)S_(3) enhanced the utilization efficiency of visible light and suppressed photoinduced carrier recombination,which improved the photocatalytic activity of composites.Moreover,the photocatalyst exhibited satisfactory reduction activity and good stability after 5 cycles of Cr(Ⅵ)adsorptionphotoreduction. 展开更多
关键词 In_(x)Sb_(2-x)S_(3)-TCN PHOTOCATALYST interfacial coupling effects Cr(Ⅵ)-contained wastewater adsorption photocatalytic reduction
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Thermomechanical coupling effect of PVC sheet with defects
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作者 杨占宇 罗迎社 +6 位作者 粟建新 张永忠 邓旭华 陈胜铭 邓瑞基 马敏伟 张亮 《Journal of Central South University》 SCIE EI CAS 2008年第S1期568-572,共5页
Thermomechanical coupling of PVC sheet with defects under uniaxial loading at different rates and different sizes of microbores was studied.The local temperature field of the dynamic damage-rupture process zone at cra... Thermomechanical coupling of PVC sheet with defects under uniaxial loading at different rates and different sizes of microbores was studied.The local temperature field of the dynamic damage-rupture process zone at crack tip was surveyed with infrared thermographic sensor.Based on the irreversible thermomechanics theory,the dissipation law of deformation-heat effect during the whole process was found.Furthermore,the effect of thermoelasticity in the initial stage of extension was explained. 展开更多
关键词 THERMOMECHANICAL coupling IRREVERSIBLE THERMOMECHANICS DISSIPATION THERMOELASTICITY effect
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Radiated noise correction model for the dominant scale correlation of aerodynamic sound generation in pantograph cavity coupling system
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作者 TAN Xiao-ming FU Bao-jun +4 位作者 CHEN Zheng-wei LIU Jia-ming WU Yu-cai YANG Zhi-gang HUANG Sha 《Journal of Central South University》 2025年第12期4850-4867,共18页
The pantograph cavity coupling system(PCCS)of high-speed trains,as a representative region for aerodynamic noise generation,merits further investigation into its scale effects.In this paper,the large-eddy simulation(L... The pantograph cavity coupling system(PCCS)of high-speed trains,as a representative region for aerodynamic noise generation,merits further investigation into its scale effects.In this paper,the large-eddy simulation(LES)and the Ffowcs Williams-Hawkings(FW-H)integral equation are used to calculate and analyze the sound energy intensity distribution pattern and spectral characteristics of the PCCS at different scales(1/1,1/2,1/4,1/8,1/16,1/25,1/50).The research shows that as the scaled model decreases,the relative area of the pantograph submerged by the vehicle boundary layer increases,and its inflow velocity decreases,thereby reducing the overall radiated sound pressure level in this area.For the segments 1/1-1/2 and 1/4-1/16,the dominant scale of sound generation is typical pure tone noise,with distinct similar features in the spectral discrete scales.For the segments 1/25-1/50,the turbulent fluctuation characteristics of the vehicle boundary layer mask the peak features,and the spectrum is dominated by broadband characteristics.Combining the PCCS sound source energy scale correction model and the dimensionless spectrum correction function,a scale correction model for the sound power spectrum of the sound source is obtained,so that the noise results of the reduced-scale model can be corresponded to the full-scale model.This work advances the comprehension of high-speed train aerodynamic noise generation mechanisms and offers critical references for developing precision noise control technologies. 展开更多
关键词 pantograph cavity coupling aerodynamic noise scale effect large eddy simulation high-speed trains
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Size dependent free vibration analysis of functionally graded piezoelectric micro/nano shell based on modified couple stress theory with considering thickness stretching effect 被引量:5
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作者 Maryam Lori Dehsaraji Mohammad Arefi Abbas Loghman 《Defence Technology(防务技术)》 SCIE EI CAS CSCD 2021年第1期119-134,共16页
Higher-order shear and normal deformation theory is used in this paper to account thickness stretching effect for free vibration analysis of the cylindrical micro/nano shell subjected to an applied voltage and uniform... Higher-order shear and normal deformation theory is used in this paper to account thickness stretching effect for free vibration analysis of the cylindrical micro/nano shell subjected to an applied voltage and uniform temperature rising.Size dependency is included in governing equations based on the modified couple stress theory.Hamilton’s principle is used to derive governing equations of the cylindrical micro/nano shell.Solution procedure is developed using Navier technique for simply-supported boundary conditions.The numerical results are presented to investigate the effect of significant parameters such as some dimensionless geometric parameters,material properties,applied voltages and temperature rising on the free vibration responses. 展开更多
关键词 Thickness stretching effect Shear and normal deformation theory Vibration analysis Length scale parameter Modified couple stress theory
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Coupled thermo-hydro-mechanical process in buffer material and self-healing effects with joints 被引量:2
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作者 YANG Gao-sheng LIU Yue-miao +2 位作者 GAO Yu-feng LI Jian CAI Guo-qing 《Journal of Central South University》 SCIE EI CAS CSCD 2021年第9期2905-2918,共14页
Within the multi-barrier system for high-level waste disposal,the technological gap formed by combined buffer material block becomes the weak part of buffer layer.In this paper,Gaomiaozi bentonite buffer material with... Within the multi-barrier system for high-level waste disposal,the technological gap formed by combined buffer material block becomes the weak part of buffer layer.In this paper,Gaomiaozi bentonite buffer material with technological gap was studied,the heat transfer induced by liquid water flow and water vapor was embedded into the energy conservation equation.Based on the Barcelona basic model,the coupled thermo-hydro-mechanical model of unsaturated bentonite was established by analyzing the swelling process of bentonite block and the compression process of joint material.The China-Mock-up test was adopted to compare the numerical calculation results with the test results so as to verify the rationality of the proposed model.On this basis,the effect of joint self-healing on dry density,thermal conductivity and permeability coefficient of buffer material was further analyzed.The results show that,with bentonite hydrating and swelling,the joint material gradually increases in dry density,and exhibits comparatively uniform hydraulic and thermal conductivity properties as compacted bentonite block.As a result,the buffer material gradually shifts to homogenization due to the coordinated deformation. 展开更多
关键词 buffer material thermo-hydro-mechanical coupling JOINTS self-healing effect
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Finite element analysis of couple effect of soil displacement and axial load on single inclined pile 被引量:2
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作者 王丽 郑刚 欧若楠 《Journal of Central South University》 SCIE EI CAS 2014年第9期3656-3664,共9页
The couple effect of soil displacement and axial load on the single inclined pile in cases of surcharge load and uniform soil movement is discussed in detail with the methods of full-scale field tests and finite eleme... The couple effect of soil displacement and axial load on the single inclined pile in cases of surcharge load and uniform soil movement is discussed in detail with the methods of full-scale field tests and finite element method. Parametric analyses including the degree of inclination and the distance between soil and pile are carried out herein. When the displacement of soil on the left side and right side of a pile is identical, deformation of a vertical pile and an inclined pile is highly close in both cases of surcharge load and uniform soil movement. When the couple effect of soil displacement and axial load occurs, settlement of an inclined pile is greater than that of a vertical pile under the same axial load, and bearing capacity of an inclined pile is smaller than that of a vertical pile. This is quite different from the case when the inclined pile is not affected by soil displacement. For inclined piles, P-Δ effect of axial load would lead to a large increase in bending moment, however, for the vertical pile, P-Δ effect of axial load can be neglected. Although the direction of inclination of piles is reverse, deformation of piles caused by uniform soil movement is totally the same. For the inclined piles discussed herein, bending moment(-8 m to-17 m under the ground) relies heavily on uniform soil movement and does not change during the process of applying axial load. When the thickness of soil is less than the pile length, the greater the thickness of soil, the larger the bending moment at lower part of the inclined pile. When the thickness of soil is larger than the pile length, bending moment at lower part of the inclined pile is zero. 展开更多
关键词 couple effect inclined pile surcharge load uniform soil movement axial load
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Rapid simulation and phase distortion evaluation of thermal blooming effect in internal laser propagation channels
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作者 WU Dong-yu LI Xiang +4 位作者 LI Jia-sheng GAO Liang SONG Yan-song WANG Si DONG Ke-yan 《中国光学(中英文)》 北大核心 2025年第3期520-534,共15页
During the propagation of high-power lasers within internal channels,the laser beam heats the propagation medium,causing the thermal blooming effect that degrades the beam quality at the output.The intricate configura... During the propagation of high-power lasers within internal channels,the laser beam heats the propagation medium,causing the thermal blooming effect that degrades the beam quality at the output.The intricate configuration of the optical path within the internal channel necessitates complex and time-consuming efforts to assess the impact of thermal blooming effect on the optical path.To meet the engineering need for rapid evaluation of thermal blooming effect in optical paths,this study proposed a rapid simulation method for the thermal blooming effect in internal optical paths based on the finite element method.This method discretized the fluid region into infinitesimal elements and employed finite element method for flow field analysis.A simplified analytical model of the flow field region in complex internal channels was established,and regions with similar thermal blooming effect were divided within this model.Based on the calculated optical path differences within these regions,numerical simulations of phase distortion caused by thermal blooming were conducted.The calculated result were compared with those obtained using the existing methods.The findings reveal that for complex optical paths,the discrepancy between the two approaches is less than 3.6%,with similar phase distortion patterns observed.For L-type units,this method and the existing methods identify the same primary factors influencing aberrations and exhibit consistent trends in their variation.This method was used to analyze the impact of thermal blooming effect in a straight channel under different gravity directions.The results show that phase distortion varies with changes in the direction of gravity,and the magnitude of the phase difference is strongly correlated with the component of gravity perpendicular to the optical axis.Compared to the existing methods,this approach offers greater flexibility,obviates the need for complex custom analysis programming.The analytical results of this method enable a rapid assessment of the thermal blooming effect in optical paths within the internal channel.This is especially useful during the engineering design.These results also provide crucial references for developing strategies to suppress thermal blooming effect. 展开更多
关键词 high-power laser thermal blooming effect beam phase numerical simulation thermal coupling effect beam control system
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赤泥磷石膏与水泥协同固化淤泥的力学特性与微观机理 被引量:2
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作者 丁建文 万星 +2 位作者 高洪梅 王志华 焦宁 《岩土工程学报》 北大核心 2026年第3期509-518,共10页
在传统水泥固化淤泥的基础上掺入赤泥与磷石膏,以期利用大宗工业固废在水泥-黏土胶凝体系中的潜在化学活性,实现以废治废、减小水泥用量的目标。通过系列无侧限抗压强度试验、固结不排水三轴剪切试验、柔性壁渗透试验和微观测试,明确了... 在传统水泥固化淤泥的基础上掺入赤泥与磷石膏,以期利用大宗工业固废在水泥-黏土胶凝体系中的潜在化学活性,实现以废治废、减小水泥用量的目标。通过系列无侧限抗压强度试验、固结不排水三轴剪切试验、柔性壁渗透试验和微观测试,明确了淤泥复合固化土的力学性状随赤泥磷石膏配比的演化规律,揭示了复合固化土中的微观耦合效应。结果表明:赤泥与磷石膏掺入后可明显改善淤泥固化土的力学性能,且二者的协同作用效果显著,最优配比R7.5P2.5条件下固化土的无侧限抗压强度可提升80%~100%。赤泥的碱源激发作用促进了黏土矿物的溶解与火山灰反应的进行,使得土体的颗粒胶结作用增强,黏聚力增大,而磷石膏促进了钙矾石的生成,提高了孔隙密实程度,土体屈服后的内摩擦角显著增大。此外,磷石膏掺入使得复合固化土的破坏应变大幅提升,塑性变形能力增强。赤泥-磷石膏-水泥复合固化土中存在碱源激发、孔隙充填与胶结破损的耦合作用,土体力学性能的演化规律与微观耦合作用的效应特征相吻合。 展开更多
关键词 淤泥固化 赤泥与磷石膏 力学特性 微观耦合效应 协同作用
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考虑土体剪切和压缩耦合作用的节泡型锚杆蠕变模型研究
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作者 叶新宇 王博 +3 位作者 张升 刘蔚 黄攀 赵炳震 《岩土力学》 北大核心 2026年第1期27-38,共12页
锚杆与土体之间的蠕变是决定锚杆预应力损失规律的关键因素,直接影响着边坡的长期稳定性。与传统锚杆不同,节泡型锚杆作为一种承压型锚杆,其预应力损失计算需要考虑与土体的剪切和压缩蠕变的耦合作用。因此,揭示节泡型锚杆与土体相互作... 锚杆与土体之间的蠕变是决定锚杆预应力损失规律的关键因素,直接影响着边坡的长期稳定性。与传统锚杆不同,节泡型锚杆作为一种承压型锚杆,其预应力损失计算需要考虑与土体的剪切和压缩蠕变的耦合作用。因此,揭示节泡型锚杆与土体相互作用下的独特蠕变机制具有显著研究价值。首先,开展红黏土剪切和压缩蠕变试验,获取其蠕变参数;其次,利用自主研发的模型试验系统,开展节泡型锚杆蠕变特性试验;最后,基于分数阶微积分理论,建立考虑土体剪切和压缩蠕变耦合作用的分数阶节泡型锚杆蠕变模型。结果表明:相比于传统注浆锚杆,节泡型锚杆蠕变的衰减蠕变阶段持续时间较长,且衰减速率较慢;节泡型锚杆在红黏土中发生土体压缩蠕变占总蠕变的90%以上,且随时间增加而增大;建立的考虑土体剪切和压缩耦合蠕变的节泡型锚杆蠕变模型,能较好地描述节泡型锚杆-土体的蠕变行为。研究结果不仅能为新型节泡型预应力锚杆的设计和应用提供理论基础,而且能为节泡型预应力锚杆的服役性能评价提供依据。 展开更多
关键词 节泡型锚杆 剪切与压缩 蠕变 红黏土 耦合作用
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生物医疗材料Ti13Nb13Zr铣削稳定性建模与仿真研究
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作者 陈东菊 吴建强 +3 位作者 吴水源 潘日 孙锟 范晋伟 《北京工业大学学报》 北大核心 2026年第1期1-12,共12页
针对新型β钛合金Ti13Nb13Zr作为良好的生物植入体医疗材料却因强度高、韧性大、加工过程中易产生颤振等问题,综合考虑铣削过程中再生效应、模态耦合效应、过程阻尼效应等因素,将铣削过程简化为二自由度铣削模型,建立系统动力学方程,并... 针对新型β钛合金Ti13Nb13Zr作为良好的生物植入体医疗材料却因强度高、韧性大、加工过程中易产生颤振等问题,综合考虑铣削过程中再生效应、模态耦合效应、过程阻尼效应等因素,将铣削过程简化为二自由度铣削模型,建立系统动力学方程,并采用二阶全离散法进行求解。通过对比仿真结果,证明了模型有效性,并探究了各项因子对铣削稳定性的影响规律。最后,设计了三因素四自由度正交实验,将铣削方式、刀具磨损带带宽、刀具浸入比等因素依据对稳定性影响程度进行排序,并且得出保证稳定性前提条件下Ti13Nb13Zr最佳铣削方案为采用逆铣,刀具浸入比为0.25,刀具磨损带带宽为35μm。 展开更多
关键词 Ti13Nb13Zr 过程阻尼 模态耦合 铣削加工 再生效应 数值仿真
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基于物理信息神经网络岩石裂隙渗流传热耦合作用机制研究
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作者 王志良 肖智桓 +1 位作者 申林方 李邵军 《岩土力学》 北大核心 2026年第2期703-716,共14页
为了研究岩石裂隙中的渗流传热耦合作用机制,基于物理信息神经网络方法,将表征流体渗流流动的Navier-Stokes方程与传热过程的对流-扩散方程作为物理约束嵌入神经网络的训练过程,并引入温度依赖的运动黏度动态反馈机制建立了模拟流体渗... 为了研究岩石裂隙中的渗流传热耦合作用机制,基于物理信息神经网络方法,将表征流体渗流流动的Navier-Stokes方程与传热过程的对流-扩散方程作为物理约束嵌入神经网络的训练过程,并引入温度依赖的运动黏度动态反馈机制建立了模拟流体渗流流动与传热过程耦合作用的数值计算模型。结合经典Poiseuille流传热问题,验证了计算模型的准确性,并与有限元计算结果对比,证明了其在处理不规则几何边界问题时的稳定性。最后,研究了流体运动黏度、渗流流速(水力梯度、裂隙开度、壁面粗糙程度等)和裂隙壁面温度等因素对流体渗流传热耦合作用机制的影响。研究结果表明:若考虑温度对流体运动黏度的影响,则裂隙中心区最大流速从0.53 mm/s提升至1.92 mm/s,增大了262.3%。流速差异进一步影响温度场分布,导致裂隙中心温度从160.1℃下降至110.2℃,降低了31.2%。水力梯度从1 Pa/m增加至4 Pa/m的过程中,对流热通量峰值显著增大,且增幅远高于扩散热通量,导致核心区流体温度下降了42.3%。裂隙开度增加引起的流速提升能够有效削弱边界层厚度,显著增强传热效率。裂隙壁面分形维数增加,使得流动阻力增大,有利于裂隙通道的热传递,导致裂隙出口处流体温度提高。当裂隙壁面温度从100℃升至200℃时,流体运动黏度峰值降低了55.7%,渗流流速峰值增幅达126.7%,核心区温差增大了372.4%。 展开更多
关键词 物理信息神经网络 岩石 裂隙 渗流传热耦合作用 数值模拟
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准脆材料强度与断裂韧度的尺寸-加载率耦合效应理论研究
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作者 戚承志 《土木工程学报》 北大核心 2026年第4期1-12,共12页
目前关于准脆材料强度和断裂韧度的试件尺寸和加载率的耦合效应还没有理论模型。针对此问题,文章利用断裂力学、微观动力变形理论、Weibull统计强度理论研究准脆材料强度和断裂韧度的尺寸和加载率的耦合效应。研究表明,准脆材料强度和... 目前关于准脆材料强度和断裂韧度的试件尺寸和加载率的耦合效应还没有理论模型。针对此问题,文章利用断裂力学、微观动力变形理论、Weibull统计强度理论研究准脆材料强度和断裂韧度的尺寸和加载率的耦合效应。研究表明,准脆材料强度和断裂韧度的试件尺寸和加载率的耦合效应由两部分组成,第1部分为准静态耦合效应,第2部分为动态耦合效应。准静态耦合效应表现为强度静态尺寸效应与热活化效应的耦合;动态部分为试件尺寸对于材料内部缺陷分布的影响与加载率确定的内部缺陷层次强度的耦合。通过这两部分相等,可确定试件尺寸一定时的临界加载率,以及加载率一定时试件的临界尺寸。研究揭示了准脆材料强度和断裂韧度的试件尺寸和加载率的耦合效应的物理机理。 展开更多
关键词 准脆材料 强度 断裂韧度 尺寸效应 应变率效应 耦合效应
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海洋环境下FRP筋海水海砂混凝土耐久性研究进展
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作者 李丽娟 麦广浩 +2 位作者 何少华 熊哲 刘锋 《土木工程学报》 北大核心 2026年第3期1-14,共14页
纤维增强复合材料(FRP)筋与海水海砂混凝土(SSC)的结合应用,为突破传统建筑材料面临的资源约束与耐久性瓶颈提供了创新性解决方案。文章系统梳理本课题组及国内外学者在FRP筋-SSC体系耐久性方面的研究进展,重点总结材料性能退化机理、... 纤维增强复合材料(FRP)筋与海水海砂混凝土(SSC)的结合应用,为突破传统建筑材料面临的资源约束与耐久性瓶颈提供了创新性解决方案。文章系统梳理本课题组及国内外学者在FRP筋-SSC体系耐久性方面的研究进展,重点总结材料性能退化机理、界面黏结行为演化及构件长期性能等方面的代表性成果和该新型组合结构在不同工况下的性能演变规律与退化机制。FRP筋SSC体系在严酷海洋环境中表现出良好的耐久性能,为其在可持续土木工程中的推广应用奠定坚实基础。文章旨在为该新型结构体系的后续研究、标准规范制定及工程实践提供系统参考,并对未来研究方向的拓展与深化起到积极的推动作用。 展开更多
关键词 FRP筋 海水海砂混凝土 耐久性 环境作用 耦合作用
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温-力耦合环境效应下土工格栅蠕变特性及分数阶损伤本构模型研究
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作者 靳静 陈何塘 +3 位作者 梁小勇 杨广庆 周诗广 寇凌曦 《铁道学报》 北大核心 2026年第2期146-155,共10页
为研究温-力耦合环境效应下土工格栅蠕变全过程的变形特征,开展温-力耦合环境效应下的土工格栅室内蠕变试验,基于试验结果,考虑土工格栅蠕变过程中随时间产生劣化效应引入损伤变量,修正分数阶损伤本构模型,并进行参数敏感性分析。结果表... 为研究温-力耦合环境效应下土工格栅蠕变全过程的变形特征,开展温-力耦合环境效应下的土工格栅室内蠕变试验,基于试验结果,考虑土工格栅蠕变过程中随时间产生劣化效应引入损伤变量,修正分数阶损伤本构模型,并进行参数敏感性分析。结果表明,当温度一定时,随着应力比提高,土工格栅蠕变较快进入加速蠕变阶段;当温度升高时,土工格栅蠕变速率显著增大,达到相同应变所施加的应力比有所降低;当温度为40℃,应力比从43%增至50%时,蠕变应变增幅为363.77%,所需时间由1098 h缩短至6.21 h;在温-力耦合环境效应下,土工格栅的割线模量随时间呈反比递减趋势,而应力比的提高加速了时效割线模量的衰减;研究提出的修正损伤本构模型,能有效表征土工格栅在高温环境下的蠕变行为,泊松比ν随温度的升高急剧上升,流阻因子A与温度呈现负相关。 展开更多
关键词 温-力耦合环境效应 土工格栅 蠕变特性 损伤变量 分数阶本构模型
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考虑水下跨接电容效应的水下磁耦合谐振式无线电能传输系统多参数辨识方法
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作者 刘旭 钟敬 +1 位作者 荣灿灿 夏晨阳 《电工技术学报》 北大核心 2026年第2期374-388,共15页
通过在水下磁耦合谐振式无线电能传输(UMCR-WPT)系统中引入参数辨识技术,可在无任何复杂的原副边通信的情况下,获得互感、跨接电容和负载等关键系统物理参数,从而实现系统的精确控制与状态监测。因此,该文提出一种基于UMCR-WPT系统跨接... 通过在水下磁耦合谐振式无线电能传输(UMCR-WPT)系统中引入参数辨识技术,可在无任何复杂的原副边通信的情况下,获得互感、跨接电容和负载等关键系统物理参数,从而实现系统的精确控制与状态监测。因此,该文提出一种基于UMCR-WPT系统跨接电容效应的多参数联合辨识方法,仅需单次测量UMCR-WPT系统发射端的电压和电流,即可实现系统互感、跨接电容和负载的精确辨识。该文首先依据跨接电容理论,建立精确的UMCR-WPT系统等效电路模型,利用定义推导发射端测量电压和电流与输入阻抗之间的关系,得到互感、跨接电容和负载的参数辨识表达式。然后,通过联合遗传-差分进化算法在保证精度的同时实现互感、跨接电容和负载的在线联合辨识,并阐述了具体辨识流程和步骤。最后,搭建系统实验平台,实验结果表明,在不同线圈耦合和负载工况下,互感、跨接电容、负载电阻的最大辨识误差分别为2.62%、4.10%和4.38%,同时,通过所建立的UMCR-WPT系统理论模型计算得到的输出功率和效率与实验的最大误差为4.451%和5.15%,有效地证明了所提出的UMCR-WPT系统多参数辨识方法的有效性。 展开更多
关键词 水下无线电能传输 跨接电容效应 多参数辨识 遗传-差分进化算法
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建立光-力-生物耦合新理论
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作者 王雁 陈萱 《医用生物力学》 北大核心 2026年第1期13-16,共4页
人眼视觉以光学为基础,是生物体对光学成像的感知与响应系统。近年来研究表明,力学通过调控眼球结构与材料属性,可以直接影响光学成像质量,是影响视觉功能的重要物理因素之一。然而,人眼本质上是生物组织,是具有主动生物反馈能力的生命... 人眼视觉以光学为基础,是生物体对光学成像的感知与响应系统。近年来研究表明,力学通过调控眼球结构与材料属性,可以直接影响光学成像质量,是影响视觉功能的重要物理因素之一。然而,人眼本质上是生物组织,是具有主动生物反馈能力的生命结构,其光学与力学的作用过程并非纯粹的物理现象,而是伴随器官、组织甚至细胞等层面的多层次生物响应。基于光学、力学与生物反应三者之间存在耦合作用,本文提出光-力-生物(opticsmechanics-biology,OMB)耦合理论框架,系统探究光刺激、力学响应与生物组织作用形成多尺度反馈系统发挥最终效应。代表性疾病如圆锥角膜、青光眼的发展过程均体现光、力与生物耦合的作用。OMB理论框架有望为阐明眼部疾病的发生发展机制、提高诊疗效能,以及推动基础研究与精准医学发展等提供新思路。 展开更多
关键词 视觉 光学 力学 生物组织 耦合效应 光-力-生物耦合
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数字经济与城市创新耦合协调时空特征及驱动因素
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作者 张慧 解佳琪 易金彪 《中南大学学报(社会科学版)》 北大核心 2026年第3期106-120,共15页
数字经济与城市创新的互动关系及协调发展对我国深入实施创新驱动发展战略及推动数字经济快速发展具有重要意义。运用耦合协调度模型、Dagum基尼系数、空间计量模型等方法,探究我国276个城市2012—2021年数字经济与城市创新耦合协调时... 数字经济与城市创新的互动关系及协调发展对我国深入实施创新驱动发展战略及推动数字经济快速发展具有重要意义。运用耦合协调度模型、Dagum基尼系数、空间计量模型等方法,探究我国276个城市2012—2021年数字经济与城市创新耦合协调时空特征及驱动因素,结果表明:(1)我国数字经济发展水平、城市创新水平及二者耦合协调水平均连年攀升,但仍存在两极分化趋势加剧的问题,低水平城市未形成“追赶效应”。(2)耦合协调度的分布呈现“底部大、尖端小”的金字塔型,“金字塔尖”城市主要为直辖市、省会城市和副省级城市等具有特殊地位的城市。(3)数字经济与城市创新耦合协调度存在显著的空间正相关关系,且随着时间推移,空间集聚度逐渐增强,同时城市间同质性较强,低低集聚现象明显。(4)耦合协调度总体差异主要来源于东部地区与其他三个地区间的差异,且这种差异呈波动上升趋势。(5)人力资本水平、对外开放度、产业结构水平、研发投入及政府干预度是影响耦合协调的重要因素。 展开更多
关键词 数字经济 城市创新 耦合协调 时空特征 空间效应
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