Testing the fragmentation of railway ballast material by laboratory methods using Proctor compactor

E. Huschek-Juhász, A. Németh, M. Sysyn, G. Baranyai, J. Liu, S. Fischer
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Abstract

The physical classification of crushed stone and gravel used in railway construction is based on their strength and endurance and is performed by a laboratory test method using a rotating drum or a mortar method. The values of fracture resistance calculated using the Los Angeles method and abrasion calculated using the Micro-Deval method show a corresponding correlation and require further investigation. Purpose. The development of a new method for measuring rock material fracture that is consistent with widely used standards while also being more comparable to real-world railway operating conditions. Certainly, both standard tests are essential for ensuring product homogeneity during production, so the new recommended method is only a supplement. Methodology. The Proctor device was used to induce so-called shock loads from above, similar to railway loading conditions. Unlike the standard method, the andesite material was placed in a standard cylinder in these tests. The samples were pre-screened and sorted; the specified weight was approximately 1,300 g, and the specified sizes of the individual particles were 6.3, 8.0 and 11.2 mm. Only prewashed and dried materials of NZ (fine crushed stone) or KZ (special crushed stone) from four different quarries (Tállya, Szob, Nógrádkövesd, Recsk) with different rock physics characteristics were considered. The Proctor compactor machine was used because of its calculable labor (19.86 J/impact) and the crushing effect of the calculable impacts (64, 128, 256 and 1,028 blows). Even after loading different numbers of impacts, homogeneous samples from different quarries were sieved to measure the masses of fragments per fraction. Findings. The set of measurements made it possible to establish a series of fragmentation and degradation curves for each of the three repeated measurements based on the composition of the material and the number of blows, which showed the degradation of samples with different physical and mechanical properties of the rock material and particle sizes. With an increasing number of impacts, the amount of crushed material in the sample increased, but the distribution of crushed material did not decrease evenly and proportionally as the number of impacts increased. Parameters and indices were also computed to identify various correlations (i. e., FV, d < 22.4, d < 0.5, d < 0.063 mm, CU, M ratio,  ratio). Some of them (e. g., FV) needed to be changed, but they were predefined due to the nature of the tests. Originality. While many standard and alternative railway track ballast fragmentation test methods and measurement tools are available, this paper proposes a new laboratory method and demonstrates the specific measurement and application effectiveness. Practical value. In addition to standard tests that are already widely used, the new method for measuring the fractional composition of railway ballast can help simulate real-world operating conditions of a railroad track in the laboratory. This method will improve the safety of railway operations.
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通过使用 Proctor 压实机的实验室方法测试铁路道碴材料的破碎情况
用于铁路建设的碎石和砾石的物理分类以其强度和耐久性为基础,并通过使用旋转滚筒或砂浆法的实验室测试方法进行。使用洛杉矶法计算的抗断裂强度值和使用微观损耗法计算的磨损值显示出相应的相关性,需要进一步研究。目的开发一种测量岩石材料断裂的新方法,这种方法既符合广泛使用的标准,又更能与现实世界的铁路运行条件相媲美。当然,这两种标准测试对于确保生产过程中的产品均匀性至关重要,因此推荐的新方法只是一种补充。方法。使用 Proctor 设备从上方施加所谓的冲击载荷,类似于铁路载荷条件。与标准方法不同的是,在这些测试中,安山岩材料被放置在一个标准圆筒中。样品经过预先筛选和分类;规定重量约为 1 300 克,单个颗粒的规定尺寸为 6.3、8.0 和 11.2 毫米。只有来自四个不同采石场(Tállya、Szob、Nógrádkövesd 和 Recsk)、具有不同岩石物理特性的 NZ(细碎石)或 KZ(特殊碎石)预洗和干燥材料才被考虑在内。使用 Proctor 压实机的原因在于其可计算的劳动强度(19.86 焦耳/冲击力)和可计算的冲击力(64、128、256 和 1,028 次冲击)的破碎效果。即使加载了不同的冲击次数,也要对来自不同采石场的同质样本进行筛分,以测量每部分的碎石质量。测量结果。通过这组测量结果,可以根据材料的成分和撞击次数,为三次重复测量中的每一次建立一系列破碎和降解曲线,这些曲线显示了岩石材料和颗粒大小不同的物理和机械性能样本的降解情况。随着撞击次数的增加,样品中的破碎材料数量也在增加,但破碎材料的分布并没有随着撞击次数的增加而均匀和成比例地减少。还计算了参数和指数,以确定各种相关性(即 FV、d < 22.4、d < 0.5、d < 0.063 mm、CU、M 比率、 比率)。其中一些(如 FV)需要更改,但由于测试的性质,它们是预先确定的。独创性。虽然有许多标准的和可供选择的铁路道碴破碎测试方法和测量工具,但本文提出了一种新的实验室方法,并展示了具体的测量和应用效果。实用价值。除了已经广泛应用的标准测试外,测量铁路道碴碎裂成分的新方法有助于在实验室中模拟铁路轨道的实际运行条件。这种方法将提高铁路运营的安全性。
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CiteScore
1.70
自引率
0.00%
发文量
148
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