Particle flow study on strength and meso-mechanism of Brazilian splitting test for jointed rock mass

A discrete element method （DEM） called particle flow code （PFC2D） was used to construct a model for Brazilian disc splitting test in the present study. Based on the experimental results of intact Brazilian disc of rock-like material, a set of micro-parameters in PFC2D that reflected the macro-mechanical behavior of rock-like materials were obtained. And then PFC2D was used to simulate Brazilian splitting test for jointed rock mass specimens and specimen containing a central straight notch. The effect of joint angle and notch angle on the tensile strength and failure mode of jointed rock specimens was detailed analyzed. In order to reveal the meso-mechanical mechanism of crack coalescence, displacement trend lines were applied to analyze the displacement evolution during the crack initiation and propagation. The investigated conclusions can be described as follows. （1） The tensile strength of jointed rock mass disc specimen is dependent to the joint angle. As the joint angle increases, the tensile strength of jointed rock specimen takes on a nonlinear variance. （2） The tensile strength of jointed rock mass disc specimen containing a central straight notch distributes as a function of both joint angle and notch angle. （3） Three major failure modes, i.e., pure tensile failure, shear failure and mixed tension and shear failure mode are observed in jointed rock mass disc specimens under Brazilian test. （4） The notch angle roles on crack initiation and and joint angle play important propagation characteristics of jointed rock mass disc specimen containing a central straight notch under Brazilian test.

Mn25Al7钢焊接接头的疲劳性能试验研究

Mn25Al7钢是一种新型的轻质高强船用钢,目前针对Mn25Al7钢的疲劳性能尚未开展相关试验研究。本文对Mn25Al7钢的母材、对接焊接接头及T型焊接接头等典型节点进行疲劳试验研究,分别基于名义应力方法和热点应力方法拟合得到典型节点疲劳等级曲线,并与现有规范的疲劳等级曲线进行对比分析。对三种试样的断口形貌进行观测,分析其裂纹扩展规律和断裂机理。试验结果表明:Mn25Al7钢母材疲劳寿命高于按规范设计的普通钢材;规范低估了母材和磨平焊趾的对接焊缝接头疲劳寿命,但能较好地评估T型焊缝接头的疲劳寿命。通过对比分析三种试件的损伤速率差别,进一步对断口形貌进行了系统分析,发现初始裂纹源和焊接残留物会造成疲劳强度的降低。本研究可为船用高强钢的疲劳寿命预测提供理论依据和试验支撑。

Q460高强钢管柱-H形梁焊接节点循环拉伸性能试验研究

为研究Q460高强钢管柱-H形梁焊接节点在地震作用下的力学行为,对11个梁翼缘板与柱段焊接组成的节点进行了低周循环拉伸性能试验,研究了梁翼缘板与钢管宽度比α、厚度比β以及钢管宽厚比λ等参数对节点破坏模式、承载力、延性和耗能能力的影响规律。结果表明:在循环拉伸荷载作用下,Q460高强钢管柱-H形梁焊接节点的失效模式主要分为连接处焊缝断裂、连接处钢管面板断裂或梁翼缘板被拉断三种;高强钢梁翼缘板与钢管宽度比、钢管柱宽厚比对焊接节点的受力行为影响较大,当宽厚比α由25.0减小到18.75时,节点的应变能减小了134%;当节点破坏时,具有新型焊接通过孔构造的焊接节点极限位移超过传统构造节点近2倍,前者延性性能较好。研究成果可为高强钢管柱与梁焊接节点的抗震设计以及进一步的理论研究提供依据。

T23/P23钢高强匹配焊缝金属接头再热裂纹表征

综述了T23/P23钢高强匹配焊缝金属接头再热裂纹的特征。结果表明,T23/P23耐热钢高强匹配接头再热裂纹倾向明显,焊后状态高强匹配接头具有较高的强度和可以接受的塑性和韧性。接头显微组织中的HAZ粗晶区碳化物析出、晶界的滑移及晶界的脆化是再热裂纹产生的必要条件;影响HAZ组织的主要因素是母材中碳化物形成元素和残留元素的种类及含量。随接头拘束应力增大,再热温度升高时再热裂纹倾向增大。T23/P23钢接头中氢的行为是产生再热裂纹不可忽视的影响因素。生产中常用低应力化和低氢化综合工艺及参数,以及新型专用焊接材料等措施,使接头中的应力水平降低,氢含量最小化,控制再热裂纹形成条件,并获得了较满意的效果。

基于疲劳强度的双层底船体典型节点优化设计

结构疲劳破坏是造成船舶与海洋结构物的主要破坏模式之一,对于双层底船体某些结构形式,其疲劳强度问题尤为突出。选取某大型散货船为研究对象,依据整船有限计算结果以及大量文献调查,确定疲劳损伤部位,对船体双层底过渡区典型节点及优化后节点分别设计和开展缩比模型试验,综合试验与有限元计算结果验证了疲劳试验以及优化方式的可靠性,并采用D曲线与CCS《船体结构疲劳强度指南》对节点模型进行疲劳强度评估,结合疲劳试验结果进一步说明,该优化方案对双层底船体类似节点的结构设计具有一定借鉴意义。

扭矩对无扩口导管滚压成型性能影响精细化研究

针对无扩口导管接头体内径滚压成型工艺,将三维滚压过程简化到二维平面进行分析,建立成型扭矩等效换算方程。基于ABAQUS建立无扩口导管接头二维有限元模型,对滚压成型过程进行仿真分析,得到滚压过程中扭矩阶段性变化趋势及导管受力变形区域性特征。对接头体开展连接强度试验,仿真与试验得到的连接强度差值率为5.8%,验证了仿真模型的精准性。为探究成型扭矩对接头体性能的影响规律,选取多组成型扭矩进行仿真分析,综合导管残余应力、变形分布、填充状态及连接强度等因素对接头体的成型性能进行评价。结果表明,成型扭矩取值区间为0.68~1.13 N·m,扭矩为1.04 N·m时管套最右端凹槽填充率为100%,此时接头体成型性能最优。

不同控制方式和卸荷应力路径下类岩石节理剪切强度特征研究

为研究不同控制方式和卸荷应力路径下岩石节理失稳剪切强度特征,借助RDS-200型岩石节理剪切试验系统开展了2种控制方式和3种卸荷应力路径下的类岩石节理直剪试验。结果表明:(1)采用应力控制方式进行切向加卸载时,各剪切加卸载路径下,节理剪切应力-时间曲线多存在失稳跌落现象,剪切应力-位移曲线失稳后多表现为折线形式。(2)与采用应力控制方式进行切向加载的试样结果相比,采用位移控制方式进行切向加载、采用应力控制方式进行法向卸载并保持剪切应力恒定、采用应力控制方式进行法向卸载和切向加载、采用应力控制方式同时进行法向和切向卸载的试样失稳剪切强度均有所降低;节理黏聚力减小百分比平均值为36.07%,而内摩擦角变化范围仅在4.12%以内,所以黏聚力降低是节理失稳剪切强度降低的主要原因。(3)以采用应力控制方式进行切向加载试样的拟合摩尔-库仑公式为基准,位移控制方式或其他采用应力控制方式的加卸载应力路径下试样失稳剪切强度的相对误差平均值最大可达55.78%。经引入黏聚力修正系数k对摩尔-库仑准则进行修正后,相对误差平均值的最大值减小到5.23%,说明对经受位移控制方式或采用应力控制方式的其他加卸载应力路径的工程节理来说,进行黏聚力的折减修正是必要和可行的。研究结果对不同控制方式及卸荷应力路径下岩体节理剪切承载能力的准确估计具有一定参考价值。

考虑截面规则性的柱状节理岩体变形及强度特性研究

柱状节理岩体的复杂结构使其现场力学参数的确定存在困难,可靠地估计柱状节理岩体强度及变形特性对工程安全至关重要。结合Voronoi图形及3D打印技术制作不规则柱状节理岩体光敏树脂模具,并制备了具有不同倾角的规则及不规则柱状节理岩体试样。基于开展的单轴压缩试验结果,分析不同截面柱状节理岩体的变形及强度特性差异。根据试样最终破坏形态,揭示柱状节理岩体破坏模式及机制。结合已有研究结果,描述节理面材料对柱状节理岩体破坏形态及强度的影响。基于传统节理系数方法,提出了更能反映柱状节理岩体柱体结构特征的修正节理系数方法。采用修正节理系数法建立规则及不规则柱状节理岩体试验结果与现场变形及强度参数间的经验关系,将所提出计算公式应用于白鹤滩水电站工程,预测结果与现场实测值及RMR法(RMR为岩石质量评分指标)、Q法(Q为岩体质量指标)的预测值进行比较。结果表明,对于现场变形和强度参数,所提出的修正节理系数法的预测结果与现场实测结果较为吻合。

汽车电线束连接强度试验能力验证的研究

汽车电线束是一种用于连接和传输电力、信号和数据的系统,在现代汽车中扮演着关键的角色。本文围绕汽车电线束连接强度试验能力验证计划,介绍了计划实施流程并给出技术建议,希望对实验室有所帮助。

不同测试体位对屈腕、屈指肌群定量肌力的影响及其标准化

目的 探究不同测试体位对手、腕屈曲肌群定量肌力的影响,建立各肌群的标准化肌力检测方案。方法 征集40例健康受试者(男性12例,女性28例),使用MicroFET2TM便携式数字肌力测试仪,分别于腕关节背伸30°位、中立0°位和掌屈30°位测量各手指屈曲及腕关节掌屈肌力,分别于拇指掌侧外展30°位和60°位测量拇指掌侧外展肌力。从40例受试者中随机抽取10例,间隔10~15 d后由同一操作者再次测试各肌群定量肌力。结果 除男性腕关节背伸30°位和中立0°位之间的拇指屈曲肌力、腕关节掌屈肌力差异无统计学意义(P>0.05),各指屈曲及腕掌屈肌力值主要呈现以下特点:腕关节背伸30°位>腕关节中立0°位>腕关节掌屈30°位,拇指掌侧外展30°位>60°位;所有受试者手指屈曲肌力均为拇指>示指>中指>环指>小指;男性各项肌力值均大于女性(P<0.05);所有受试者左、右侧肌力值的差异均无统计学意义(P>0.05)。10例受试者不同时期测量肌力值的可靠性良好。结论 手、腕各肌群定量肌力均受体位影响,鉴定过程中应采取规范、统一的测试体位。MicroFET2TM用于手、腕关节定量肌力测试具有良好的可靠性。腕关节背伸30°位可作为各手指屈曲肌力及腕关节掌屈肌力的最佳标准化检测条件。拇指掌侧外展30°位可作为拇指掌侧外展肌力的最佳标准化检测条件。

膝关节功能锻炼在骨科术后患者恢复中的应用效果研究

目的评估膝关节功能锻炼在骨科术后患者恢复中的应用效果。方法90例骨科术后患者作为研究对象,随机分为实验组和对照组,每组45例。实验组患者进行膝关节功能锻炼(运动训练、康复器械使用等),对照组患者接受传统康复治疗。比较两组并发症发生情况、视觉模拟评分法(VAS)评分及膝关节功能评分、关节稳定性评分、屈曲角度。结果实验组VAS评分为(3.5±1.2)分,对照组为(5.8±1.4)分;实验组膝关节功能评分为(78.6±5.2)分,对照组为(65.2±4.8)分;实验组关节稳定性评分为(8.2±0.9)分,对照组为(6.4±1.2)分;实验组屈曲角度为(110.0±5.0)°,对照组为(95.0±6.0)°;实验组VAS评分低于对照组,膝关节功能评分、关节稳定性评分高于对照组,屈曲角度大于对照组,差异有显著性(P<0.05)。实验组并发症发生率为4.44%(2/45),低于对照组的17.78%(8/45),差异有显著性(P<0.05)。结论膝关节功能锻炼在骨科术后患者恢复中具有显著的应用效果,通过适当的运动训练和康复器械使用可以减轻患者的疼痛感,提高膝关节的功能评分,并促进肌力的恢复,因此,在骨科手术后的康复过程中积极进行膝关节功能锻炼是一种值得推广的治疗方法。

Effect of rock joint roughness on its cyclic shear behavior

Rock joints are often subjected to dynamic loads induced by earthquake and blasting during mining and rock cutting. Hence, cyclic shear load can be induced along the joints and it is important to evaluate the shear behavior of rock joint under this condition. In the present study, synthetic rock joints were prepared with plaster of Paris(Po P). Regular joints were simulated by keeping regular asperity with asperity angles of 15°-15° and 30°-30°, and irregular rock joints which are closer to natural joints were replicated by keeping the asperity angles of 15°-30° and 15°-45°. The sample size and amplitude of roughness were kept the same for both regular and irregular joints which were 298 mm×298 mm×125 mm and 5 mm, respectively. Shear test was performed on these joints using a large-scale direct shear testing machine by keeping the frequency and amplitude of shear load under constant cyclic condition with different normal stress values. As expected, the shear strength of rock joints increased with the increases in the asperity angle and normal load during the first cycle of shearing or static load. With the increase of the number of shear cycles, the shear strength decreased for all the asperity angles but the rate of reduction was more in case of high asperity angles. Test results indicated that shear strength of irregular joints was higher than that of regular joints at different cycles of shearing at low normal stress. Shearing and degradation of joint asperities on regular joints were the same between loading and unloading, but different for irregular joints. Shear strength and joint degradation were more significant on the slope of asperity with higher angles on the irregular joint until two angles of asperities became equal during the cycle of shearing and it started behaving like regular joints for subsequent cycles.

Seismic Behaviour of Beam-Column Joints of Precast and Partial Steel Reinforced Concrete

A beam-column joint of precast and partial steel reinforced concrete( PPSRC) is proposed for precast reinforced concrete frames. The PPSRC consists of partial steel and reinforced concrete. The partial steel is located in the core joint region and the connections between concrete members. This paper presents an experimental study of a series of PPSRC specimens. These specimens are tested under low cyclic loading.Experimental results demonstrate that the bearing capacity of the PPSRC specimens is 3 times that of the ordinary reinforced concrete( RC) beam-column joints. The strength and stiffness degradation rates are slower compared with that of the RC beam-column joints. In addition,the strength of the core joint region and the connections is higher than other parts of the PPSRC specimens. Beam failure occurs firstly for the PPSRC specimens,followed by column failure and connections failure. The failure of the core joint region occurs finally.Test results show that the seismic performance of the PPSRC is better than that of the ordinary RC beam-column joints.

焊接结构拉伸强度及蠕变性能的小冲孔评价研究进展

作为一种微试样试验技术,小冲孔试验不仅试样体积微小,适用于复杂结构局部性能的分析,而且能够满足不同温度及介质环境下的材料力学性能试验要求。近年来,在材料蠕变性能、拉伸性能、断裂性能评价等方面都受到了学者们广泛关注。随着小冲孔试验技术的快速发展,如何利用该技术实现焊接接头性能的准确评价成为了亟待解决的问题。本文针对焊接接头拉伸强度及蠕变性能的小冲孔评价研究进展进行了综述,阐述了小冲孔试验技术在不同焊接结构中的应用,并总结了焊接接头拉伸强度(屈服强度、抗拉强度、断后延伸率)的小冲孔评价方法以及高温条件下焊接材料蠕变应力、应变参数与小冲孔蠕变参量之间的关系,分析了目前研究中的难题,进而对小冲孔试验技术评价焊接结构性能的研究前景进行了展望,以期为相关技术的进一步发展提供参考。

贯通型锯齿状节理岩体的剪切力学行为

为探究一阶起伏角和法向应力对贯通型锯齿状节理岩体剪切强度及变形的影响规律,在不同法向应力作用下对含不同一阶起伏角的锯齿节理试样进行室内直剪试验,建立一个贯通型锯齿状节理岩体剪切强度估算公式并进行验证。结果表明:相同法向应力作用下,根据其形态特征的不同,剪切应力-位移曲线分为滑动型曲线、滑动-峰值型曲线和峰值型曲线3类,滑动型曲线和滑动-峰值型曲线可分为非线性缓慢上升阶段、线性陡升阶段“、上凸形”缓慢上升阶段、近似平直阶段和平直阶段,峰值型曲线可分为非线性缓慢上升阶段、线性陡升阶段、“微凸型”上升阶段、脆性跌落阶段和波动缓降阶段;根据起伏角的不同,锯齿节理岩体的破坏模式可概化为滑移破坏、爬坡破坏和爬坡啃断破坏,每种破坏模式下节理损伤演化过程均可分为3个阶段,即滑移破坏模式可分为压密阶段、克服摩擦阶段和滑移阶段,爬坡破坏模式可分为压密阶段、爬坡滑移阶段和塑性流动阶段,爬坡啃断破坏模式可分为压密爬坡阶段、爬坡啃断阶段和啃断滑移阶段;含不同一阶起伏角的锯齿节理岩体剪切强度均随法向应力和起伏角的增加而增大,其计算表达式仍然遵循M-C准则。

男子跳绳运动员膝关节等速肌力特征分析

目的:对大学生男子跳绳运动员膝关节等速肌力进行测试,获得跳绳项目运动员各等速肌力测试指标范围,探究运动员下肢膝关节肌力的生物力学特征。方法:运用文献资料法、实验法和数理统计法,利用Con-trex-MJ多关节等速肌力测试训练系统,对来自内蒙古师范大学的10名男子跳绳运动员进行双侧膝关节角速度分别为60°/s、180°/s及240°/s的等速肌力测试。结果:(1)在角速度60°/s及180°/s时,双侧伸肌平均峰力矩差异显著(P<0.05),伸肌峰力矩高于屈肌峰力矩,差异极显著(P<0.01),240°/s时差异显著(P<0.05);(2)在角速度60°/s时,伸肌在0.2s时的平均峰力矩右侧高于左侧,差异显著(P<0.01),伸肌平均功率及相对平均功率左侧低于右侧,差异显著(P<0.01);(3)在角速度240°/s时,峰力矩屈/伸左侧大于右侧,差异显著(P<0.01)。结论:随着测试角速度增加,跳绳运动员的膝关节等速肌力具有以下特征:(1)除双侧屈肌平均峰力矩外,伸肌峰力矩平均值、屈伸肌相对平均峰力矩及屈伸肌在30°及0.2s时的力矩变化均呈降低趋势,且在高速模式下力矩的变化量较小;(2)左侧膝关节屈伸肌峰力矩比值呈升高趋势,而右侧比值变化情况不明显;(3)双侧膝关节屈伸肌到达峰值力矩的平均时间越来越早;伸肌到达峰值力矩的平均角度越来越小,而屈肌则越来越大。

场地自行车奥运会冠军下肢关节肌力特征

采用德国ISOMED 2000等速肌力测试系统对里约奥运会场地自行车冠军宫金杰下肢髋、膝、踝三关节、屈伸两过程的最大力量、快速力量和肌肉耐力进行测试与分析,以此了解女子场地自行车运动员下肢力量训练的效果,旨在为我国女子场地自行车科学化训练提供参考。结果表明:宫金杰髋、膝、踝等速肌力测试结果与其他自行车运动员对比存在差异,宫金杰右髋、左膝、左踝等速肌力数据表现出更合理的肌力特征;三关节的肌肉耐力较差;关节发力角度不在专项角度内。结论:宫金杰下肢三关节屈曲肌群、左髋及右膝伸展肌群、右踝跖屈肌群为薄弱肌群;肌肉耐力较差导致后程降速明显;关节发力角度与场地自行车专项技术动作角度相差较大。

Comparison between Empirical Estimation by JRC-JCS Model and Direct Shear Test for Joint Shear Strength

In order to study the reliability of the empirical estimation of joint shear strength by the JRC（joint roughness coefficient）-JCS（joint compressive strength） model,natural rock joints of dif-ferent lithologic characteristics and different sizes were selected as samples,and their shear strengths under dry and saturated conditions were measured by direct shear test and compared to those esti-mated by the JRC-JCS model.Comparison results show that for natural rock joints with joint surfaces closely matched,the average relative error of joint shear strength between empirical estimation and direct shear test is 9.9%;the reliability of the empirical estimation of joint shear strength by the JRC-JCS model is good under both dry and saturated conditions if the JRC is determined accounting for directional statistical measurements,scale effect and surface smoothing during shearing.However,for natural rock joints with joint surfaces mismatched,the average relative error of joint shear strength between empirical estimation and direct shear test is 39.9%;the reliability of empirical estimation of joint shear strength by the JRC-JCS model is questionable under both dry and saturated conditions.

竹集成材家具典型角接合强度的测试与比较

对竹集成材家具典型角接合强度测试与比较结果表明:直角榫接合抗拔力大于圆榫接合,偏心连接件接合抗拔力与螺母倒刺扎入板材中深度有较大关系,因竹材本身硬度很大,尼龙螺母嵌入板较难,抗拔力也小;一般地,榫接合的胶合面积越大,抗拔力越大,破坏弯矩也越大。

5052铝合金胶接接头静强度及疲劳性能研究

运用实验方法研究了胶接接头的静强度及其疲劳性能。对胶接接头进行静力学实验,并在此基础上选用6种不同载荷水平对胶接接头进行疲劳实验,获得了接头的载荷-寿命(F-N)曲线。试验结果表明:胶接接头静强度为同尺寸铝合金板静强度的77.5%,说明胶接接头有较高的静强度。当疲劳载荷水平大于最大静载荷平均值的50%时,接头F-N曲线呈线性趋势变化;随着疲劳载荷水平的不断提高,接头失效形式更多地表现为混合破坏。通过分析疲劳失效接头刚度变化可知:在各疲劳载荷水平下,接头刚度的线性趋势变化在整个疲劳周期内占很大比例,疲劳载荷水平越低,接头刚度降低越慢;接头刚度的变化表明在接头内产生了裂纹并逐步扩展。