Modeling of softsphere normal collisions with characteristic of coefficient of restitution dependent on impact velocity

This letter presents a theoretical model of the normal （head-on） collisions between two soft spheres for predicting the experimental characteristic of the coefficient of restitution dependent on impact velocity. After the contact force law between the contacted spheres during a collision is phenomenologically formulated in terms of the compression or overlap displacement under considera- tion of an elastic-plastic loading and a plastic unloading subprocesses, the coefficient of restitution is gained by the dynamic equation of the contact process once an initial impact velocity is input. It is found that the theoretical predictions of the coefficient of restitution varying with the impact velocity are well in agreement with the existing experimental characteristics which are fitted by the explicit formula.

基于主题模型的论文标准化影响力指标研究——一个新的论文标准化影响力指标GTNI

当前学界关于论文的标准化评价指标多从学科角度分类,忽视论文主题的多样性且每一主题概率不同等问题。文章在CNCI(Category Normalized Citation Impact,学科规范化影响力)指标基础上,结合主题模型、引文分析等方法提出构建可横向比较的普适性指标GTNI(General Topic Normalized Citation Impact,基于主题模型的论文标准化影响力),以提高学术论文评价的科学性。GTNI是对论文每一主题被引进行标准化并综合而获得的指标。通过理论分析、指标构建、实证研究和对比检验,表明GTNI指标在论文影响力评价方面具有较好的效果,且具有应用前景。

岩石球砾与平板碰撞法向恢复系数

落石法向恢复系数是运动轨迹分析的关键参数。为研究碰撞速率和材料参数对落石法向恢复系数的影响,基于球板碰撞模型,在考虑材料弹塑性基础上建立岩石球砾法向恢复系数理论模型,并利用ABAQUS模拟球板碰撞过程,监测岩石球砾碰撞前后速率的变化。研究结果表明:数值模拟结果与理论计算结果吻合较好,最大差值在5%以内。随着碰撞速率的增大,岩石球砾法向恢复系数逐渐降低,且下降速率逐渐减小;球砾法向恢复系数随着弹性模量的增加而减小,随着弹性极限的增加而增大,且均呈线性关系;泊松比对球砾法向恢复系数影响较小。

考虑材料应变率效应的冲击响应模型相似律研究

目的研究考虑材料应变率效应的冲击响应模型相似律,获得一个能够综合材料弹塑性和应变率效应的精确相似解,支撑工程领域的模型试验。方法根据BuckinghamП定理,综合考虑材料的弹性、应变硬化和应变率效应,进一步推导了工程结构在冲击响应的模型相似律表达式。在此基础上,提出改变结构质量和冲击器速度来满足模型相似律的方法。结果相比最近冲击模型相似律的研究中存在近似相似、迭代求解的缺陷,该方法是一个显式、完全精确的相似解,并且能够同时考虑材料的弹性、应变硬化和应变率效应。采用圆板撞击的有限元数值模型进行了验证。结论推导出的模型相似律能够准确地预测原型的动态冲击的响应。相比而言,使用以往的相似方法具有明显的误差。

NC–UHPC组合梁抗冲击性能的数值研究

超高性能混凝土(UHPC)材料已成为极具前景的高性能材料,并在冲击和爆炸等防护工程领域中取得了良好的效果.对于普通钢筋混凝土(NC)梁在受到冲击荷载时较易发生局部冲剪破坏,而纯UHPC梁虽可改善其冲击性能,但高昂的造价限制了其进一步的应用.为了实现结构抗冲击性能和经济的平衡,提出UHPC局部替换和包裹的方案改善钢筋混凝土梁的抗冲击性能.本文设计了NC梁、UHPC梁和NC–UHPC组合梁等不同的研究工况,然后对比分析各个试件的抗冲击性能.结果表明:相比普通钢筋混凝土梁,UHPC局部替换方案可以有效的避免梁的局部冲剪破坏,而UHPC包裹在冲击荷载下梁的破坏模式由冲剪破坏转变为弯曲破坏,两种方案均可有效的减少梁跨中的峰值位移和残余位移;UHPC局部替换相较于包裹方案,梁的跨中峰值位移和残余位移较小,且具有更高的跨中承载能力,在实际过程中建议UHPC局部替换长度取大于2倍梁高以避免局部冲剪破坏.

Effect of Normalizing and Hardening on Mechanical Properties of Spring

This study was carried out to investigate the effect of heat treatment (Normalizing and Hardening) on the mechanical properties of springs. The springs were made from mild steel rod having a diameter of 6 mm, a total of 15 springs were made. The springs were then subjected to various heat treatment processes which included;normalizing, hardening and tempering. The heat treated springs were then subjected to various test in other to determine their mechanical properties, these included;impact toughness test, hardness test and tension test. The normalized spring had more strength, was harder and was much tougher than both the annealed and as received springs. The water quenched springs were the hardest of all the heat treated springs, were very brittle and had the lowest percentage elongation. Their strength was also lower than that of the normalized and as received springs. The water quenched and tempered springs had better mechanical properties required for spring making, they had the optimum combination of hardness, strength and toughness when compared with the other heat treated springs.

Modeling of Normal Perforation of Reinforced Concrete Slabs by a Rigid Projectile

An analytical model on the normal perforation of reinforced concrete slabs is constructed. The effect of reinforcing bars is further hybridized in a general three-stage model consisting of initial cratering, tunnelling and shear plugging. Besides three dimensionless numbers, i. e. , the impact function /, the geometry function of projectile N and the dimensionless thickness of concrete target X, which are employed to predict the ballistic performance of perforation of concrete slabs, the reinforcement ratioρs of concrete and the tensile strength fs of reinforcing bars are considered as the other main factors influencing the perforation process. Simpler solutions of ballistic performances of normal perforation of reinforced concrete slabs are formulated. Theoretical predictions agree well with individual published experimental data.

Assessment of Human Impacts on Vegetation in Built-up Areas in China Based on AVHRR,MODIS and DMSP_OLS Nighttime Light Data,1992–2010

Since the reform and opening-up program started in 1978,the level of urbanization has increased rapidly in China.Rapid urban expansion and restructuring have had significant impacts on the ecological environment especially within built-up areas.In this study,ArcGIS 10,ENVI 4.5,and Visual FoxPro 6.0 were used to analyze the human impacts on vegetation in the built-up areas of 656Chinese cities from 1992 to 2010.Firstly,an existing algorithm was refined to extract the boundaries of the built-up areas based on the Defense Meteorological Satellite Program Operational Linescan System(DMSP_OLS)nighttime light data.This improved algorithm has the advantages of high accuracy and speed.Secondly,a mathematical model(Human impacts(HI))was constructed to measure the impacts of human factors on vegetation during rapid urbanization based on Advanced Very High Resolution Radiometer(AVHRR)Normalized Difference Vegetation Index(NDVI)and Moderate Resolution Imaging Spectroradiometer(MODIS)NDVI.HI values greater than zero indicate relatively beneficial effects while values less than zero indicate proportionally adverse effects.The results were analyzed from four aspects:the size of cities(metropolises,large cities,medium-sized cities,and small cities),large regions(the eastern,central,western,and northeastern China),administrative divisions of China(provinces,autonomous regions,and municipalities)and vegetation zones(humid and semi-humid forest zone,semi-arid steppe zone,and arid desert zone).Finally,we discussed how human factors impacted on vegetation changes in the built-up areas.We found that urban planning policies and developmental stages impacted on vegetation changes in the built-up areas.The negative human impacts followed an inverted′U′shape,first rising and then falling with increase of urban scales.China′s national policies,social and economic development affected vegetation changes in the built-up areas.The findings can provide a scientific basis for municipal planning departments,a decision-making reference for government,and scientific guidance for sustainable development in China.

正断层两盘动力灾害显现差异性及机制

随着大范围采矿活动的进行,正断层易滑动失稳产生震动波,并在断层两侧区域呈现出显著不对称动力响应特征。为解释山东新巨龙能源有限责任公司发生“2·22”冲击地压事故破坏区域主要集中在FD8断层上盘区域而下盘几乎没有出现动力破坏这一现象,从理论上分析了断层面(带)隔震的基本力学机理,基于波场及能量分解建立起了弹性波在断层面(带)界面波场分解能量系数模型,通过不同倾角断层面、不同破碎带厚度对震动波阻隔性数值模拟,并对正断层两盘活动性差异进行了分析。研究表明,对于一个相对孤立正断层(非断层组)而言随着断层倾角的增大,正断层上盘内的震动波沿着断层面“透射”将明显降低,呈现出显著的“隔震”特性,即当正断层上盘滑动诱发震动波难以穿过断层传播至下盘;地下正断层两盘活动差异性即断层上盘下降滑动、下盘不动2个方面揭示了正断层两盘动力灾害显现差异性动力学机制,为科学认知正断层活动诱灾机制提供了参考,并为在地下采矿中正断层诱灾防控策略提供了理论依据。

撞击姿态对构型弹体非正侵彻多层间隔钢靶弹道特性的影响规律

为深入认识构型弹体非正侵彻多层间隔靶板的弹道偏转规律,结合数值模拟和理论分析,研究了构型弹体在不同撞击姿态下侵彻多层间隔钢靶的弹道特性,其中引入弹体侧向接触力和侧向偏转力矩等参量,着重分析撞击着角和攻角对弹道特性的影响规律。结果表明:构型弹体非正侵彻过程中,在纵向发生阶梯式速度衰减,但变化较小;同时,由于穿靶过程中受到侧向接触力及其偏转力矩的作用,在侧向产生显著弹道偏转。撞击着角决定弹体所受外载荷的非对称程度,着角越大,弹体偏转越严重;撞击攻角则主要影响弹肩穿靶时的径向速度和弹尾穿靶时的触靶位置,二者共同影响弹道轨迹,因而存在使弹体偏转程度发生转折的临界攻角。相比于侵彻单层靶,构型弹体非正侵彻多层间隔靶板的显著特点为弹道偏转存在累积效应,且侵彻前一靶板的弹道偏转情况显著影响到侵彻后一靶板时的弹靶作用特征,进而导致弹道偏转与弹靶接触力互相耦合。相关研究对预测构型弹体侵彻多层间隔靶板性能、优化弹体构型和撞击姿态等具有较好的指导价值。

3种引文规范化指标RCR、CNCI和JNCI的相关性研究

[目的/意义]引文规范化指标作为一种新兴的评价指标,考虑了多种因素对论文引用的影响,从而在学术成果评价方面展示了较为突出的优势。研究不同引文规范化指标的关联性对于学术论文评价具有重要的意义。[方法/过程]本文选取InCites数据库中2018—2022年10种不同学科领域的论文作为研究样本,对这些论文的3种规范化指标(相对引用率RCR、学科规范化引文影响力CNCI和期刊规范化引文影响力JNCI)进行相关性分析,并对比分析了其中3个代表性学科领域的论文发表国家和研究机构的规范化指标。[结果/结论]研究结果表明,在这10种学科领域中,RCR、CNCI和JNCI指标两两之间呈现正相关;对于大多数学科领域,RCR与CNCI指标之间以及CNCI与JNCI指标之间相关程度均较高,而RCR与JNCI指标之间的相关程度相对较低;在不同学科领域中,国家或研究机构所对应的RCR和CNCI均值能够反映其在学科领域中的学术水平和学术影响力。本文的研究从一定程度上揭示了RCR、CNCI和JNCI指标在不同学科领域中评价论文学术影响力的差异和关联性。

非充填岩石节理的动态剪切力学行为实验研究进展

岩石节理的动态剪切力学特性是岩体力学的基本问题之一,在地震工程、采矿工程、隧道工程等诸多领域有广泛应用。获取准确的岩石节理动态剪切力学参数是认识节理剪切力学行为的基础,国内外学者经过持续探索,研发了一系列动态剪切实验设备,形成了以传统定速直剪和循环剪切为主的实验技术体系。近几年发展的冲击直剪实验技术使这一体系更加完善。本文针对非充填岩石节理的动态剪切力学特性室内实验研究,首先系统阐述了相关实验技术的特点及其发展,然后总结了岩石节理动态剪切强度和变形特征的研究成果,最后提出值得进一步探索的问题。

两种养护制度下C100高强混凝土韧性对比试验研究

高强混凝土在服役期间易遭受冲击破坏,有必要配制出强度和抗冲击性能有一定保证的高性能混凝土。本文借助常压和高压养护工艺,设计出C100高强混凝土,并从宏观和微观两个层面对其韧性差异规律与机理进行探讨。结果表明:28 d龄期内,两种养护制度下混凝土抗压强度相差较小,但劈裂抗拉强度、抗折强度相差较大;高压养护混凝土的韧性要优于常压养护混凝土,其拉压比、折压比、初裂冲击耗能平均值分别为常压养护混凝土的1.37倍、1.21倍和1.24倍。与常压养护混凝土相比,高压养护混凝土内部掺合料反应随龄期发展更为充分,水化硅酸钙(C-S-H)呈絮凝状,从而更易填充孔隙、裂缝等内部薄弱区;高压养护混凝土水化产物中无板状Ca(OH)_(2),C-S-H能有效发挥桥接作用。此次配制的高压养护混凝土具有更优的韧性。

正火温度对超厚13MnNiMoR钢板低温冲击韧性的影响

采用不同的正火温度对超厚规格13MnNiMoR进行了热处理试验。结合金相显微镜、拉伸试验机和冲击试验机对不同热处理工艺的试验钢进行了显微组织观察和力学性能的测定。结果表明:正火温度对试验钢强度性能影响不大。860℃正火+650℃回火工艺下,试验钢的低温冲击韧性要明显优于930℃正火+650℃回火工艺下的低温冲击韧性。主要是因为较低的正火温度可以细化正火加热过程中的奥氏体晶粒,在随后空冷过程中,得到细小的铁素体晶粒,从而在室温条件下获得大量的铁素体晶界,大大地提高了吸收冲击能量的能力。

厚规格正火轧制Q355NE钢板低温冲击性能研究

为了解决厚规格正火轧制Q355NE钢板生产中出现的冲击性能不合格问题,采用5种不同轧制工艺进行了75 mm厚规格钢板的轧制,并对轧制的钢板进行了拉伸性能试验、冲击性能试验以及金相组织观察。结果显示,终轧温度和中间坯厚度对厚规格正火轧制Q355NE钢板的低温韧性影响较大;过高的冷却速度和过低的返红温度均有可能导致钢板出现混晶或者魏氏体组织,造成钢板低温冲击性能不合格。研究表明,终轧温度为790~800℃、中间坯厚度1.6t(t为钢板厚度)时,可获得良好冲击性能的厚规格正火轧制Q355NE钢板。

异型侵彻体垂直侵彻半无限靶板的分析模型

针对长径比为20,截面形状分别为三角形和四边形的两种异型杆,在1 600~1 800 m/s速度范围内,开展了其垂直侵彻半无限靶板的试验研究和模型分析,在模型中考虑了弹杆横截面对异型杆侵彻均质靶板的影响。理论与试验结果的对比表明,该理论模型可以较好地分析异型杆垂直侵彻半无限靶板的侵彻特性。

钢球和刚性平面弹塑性正碰撞恢复系数研究

采用有限元法(FEM)研究了理想弹性和分段线性/幂指数强化材料钢球与刚性平面的弹性和弹塑性正碰撞。弹性碰撞FEM计算结果和Hertz理论计算结果吻合。弹性碰撞FEM计算结果说明波动效应在球体与刚性平面正碰撞中引起的能量损失可以忽略。弹塑性碰撞的FEM计算结果分别与Johnson和Thornton的理论模型计算结果进行了对比。弹塑性碰撞中,当碰撞速度大于临界速度时发生有限塑性变形,FEM计算结果表明恢复系数与[(v/vy)/(E*/σs)]-0.27成正比。

钢靶运动对弹丸侵彻效应影响的仿真研究

为了研究靶板侧向运动对弹丸正侵彻效应的影响,运用ANSYS/LS-DYNA模拟在不同攻角条件下弹丸对不同运动速度靶板的正侵彻效应。计算结果表明:无攻角条件下,当靶板侧向运动时,弹丸的剩余速度小于侵彻静止靶板时的剩余速度,有攻角时则相反;靶板运动速度对弹丸侵彻姿态影响比较明显,且弹轴与初始位置的最大偏转角随弹靶X方向的速度之差的增加而增加。本研究揭示了侵彻运动靶过程中弹丸侵彻姿态、速度等的变化规律,可为打击运动目标的有关弹药设计提供参考。

亚温正火提高34Mn2V钢低温韧性

试验研究了无缝气瓶用 34Mn2V钢经亚温正火和不同温度正火后的力学性能。试验表明 ,利用适宜的亚温正火可显著提高 34Mn2V钢在 - 5 0℃下的冲击韧度 ,通过显微组织观察 ,分析了亚温正火后组织变化 ,特别是晶粒细化、铁素体量增加。