原创《加强肋结构参数对塑料井盖力学性能影响》:这是一篇与力学性能论文范文相关的免费优秀学术论文范文资料,为你的论文写作提供参考。
摘 要:为研究加强肋结构参数对塑料井盖力学性能的影响,根据弹性力学理论,采用有限元方法对带肋塑料井盖受力情况进行了模拟分析,通过使用Abaqus软件对拥有不同加强肋结构参数的塑料井盖进行受力模拟,分析加强肋结构参数和塑料井盖力学性能的关系.模拟结果表明:提高肋高(h)或肋宽(b)都可以提高塑料井盖的刚度,改善其受力性能;在h<80 mm时,提高肋高(h)对增强塑料井盖刚度,改善其受力性能作用显著,而提高肋宽(b)的作用不明显,随着h的增大,提高肋高(h)所起到的作用减弱,相对的提高肋宽(b)所起到的作用增强,当h>160 mm时,提高肋高(h)所起到的作用极小,而提高肋宽(b)所起到的作用要高于提高肋高(h)所起到的作用;加强肋的最大应力高于面板的最大应力,其差值随塑料井盖受力性能的改善而减小.
关键词:弹性力学;加强肋;塑料井盖;有限元;Abaqus;刚度
中图分类号:TU312.1 文献标志码:A
文章编号:1008-1542(2016)03-0288-06
doi:10.7535/hbkd.2016yx03012
Abstract: In order to study the influence of structure parameters of the reinforcing rib to the mechanical properties of plastic well covers, according to the theory of elasticity, the stress situation of the plastic well cover with reinforcing rib is analyzed with finite element method. The load simulation of the plastic well cover with different reinforcing rib structure parameters is conducted with Abaqus software, and the relationship between the structure parameters of the reinforcing rib and the mechanical properties of the plastic well cover are analyzed. The simulation result shows the stiffness and mechanical properties of the plastic well cover are improved by increasing the height (h) or width (b) of the rib; if h is smaller than 80 mm, the effect of increasing h is extraordinary for improving the stiffness and mechanical properties of the plastic well cover, while the effect of increasing b is not obvious; as h increases, the effect of increasing h is declining, but the effect of increasing b is strengthening relatively; if h is bigger than 160 mm, the effect of increasing h is very small, while the effect of increasing b is higher than the effect of increasing h; the maximum stress of the reinforcing rib is higher than that of the panel, and their deference reduces as the mechanical properties of the plastic cover is improved.
Keywords:elasticity; reinforcing rib; plastic well cover; finite element; Abaqus; stiffness
随着科学技术的飞速发展以及城市化建设的迅猛扩张,地下管道逐步覆盖了整个城市,因此,井盖在城镇建设中起着越来越大的作用[1-3].井盖是一种封闭物,可以封闭地下设施出入口的顶部,安装电力、燃气、自来水等生活中必不可少的设施的地方都需要井盖[4].井盖既可以美化环境,又可以保障道路通行,维护行人安全.但是,近年来,由于井盖被盗而导致人员伤亡的事件日益频繁[5-8].以往的井盖大部分是由铸铁制造的[9],这样的井盖回收价值较高,容易引起不法分子的偷盗;而复合塑料井盖和其相比,成本要低很多,可以大大降低被盗的风险,而且和铸铁井盖相比,其产生的噪音也要小很多,市场前景十分广阔[10-12].复合塑料的力学性能和传统井盖制作材料相比较差,虽然近些年来,合成塑料的力学性能有较大提高[13-18],但是性能提高有限,所以为满足使用要求,通常需要设置加强肋来对塑料井盖的整体刚度和强度进行加强,故研究加强肋的尺寸参数对整个塑料井盖刚度和强度性能的影响具有重要意义.
本文以Abaqus[19-20]为支撑软件,对复合塑料井盖进行受力分析,通过改变塑料井盖的加强肋结构参数,分析其和整个塑料井盖力学性能的关系并建立相关曲线,为带肋塑料井盖结构的进一步设计和改进提供理论依据.
力学性能论文参考资料:
结论:加强肋结构参数对塑料井盖力学性能影响为关于对写作力学性能论文范文与课题研究的大学硕士、相关本科毕业论文力学性能指标符号论文开题报告范文和相关文献综述及职称论文参考文献资料下载有帮助。
