玻璃纤维和碳纤维增强聚合物复合材料钻孔收缩的流变现象

IF 4.03
Aleksandr Dudarev, Konstantin Volegov, Georgiy Kurzanov
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引用次数: 6

摘要

该研究致力于聚合物复合材料的加工,反映了聚合物复合材料在钻孔过程中出现的一个重要的影响精度的现象,即加工后随着时间的推移孔直径会减小。本文包含了不同等级聚合物复合材料钻孔后孔流变收缩的实验数据。该研究涉及使用不同类型的工具(高性能Ham固体硬质合金钻头和金刚石钻头)。结合不同钻井模式参数进行试验。我们采用主轴转速变化范围n?=?10000 - 20000转/分钟,刀具进给范围Sm = 50- 300mm /分钟。在ATOS III Triple Scan XL扫描系统的帮助下,在治疗后立即测量收缩率。h。基于扫描得到的各孔多边形网格,建立了样品中钻孔的三维模型。然后,使用GOM Inspect软件对这些模型进行公称钻井验证。通过这种方法,得到了流变收缩率的数值。采用变异变量sigma(高斯最佳拟合3 sigma),采用高斯重合测量法进行验证。孔洞的收缩不会发生在结构材料中。然而,在高分子复合材料中,钻孔的收缩率为10?公称直径Mm可达到0.02-0.03?在48年的时间里?H和取决于聚合物复合材料的等级。观察表明,收缩率还取决于加工模式参数。我们提出了两个假设来解释加工模式参数对流变收缩的影响:第一个假设与加工速率有关,第二个假设与力因素有关。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Rheonomic phenomenon shrinkage of holes drilled in fibreglass and carbon fibre-reinforced polymer composites

Rheonomic phenomenon shrinkage of holes drilled in fibreglass and carbon fibre-reinforced polymer composites

The research is devoted to machining polymer composite materials and reflects a non-trivial, accuracy-affecting phenomenon that occurs while drilling polymer composite materials, i.e. reduction of holes diameter over time after processing.

The article contains experimental data obtained in the research of rheonomic shrinkage of holes after drilling various grades of polymer composite materials. The research involved using different types of tools (high-performance Ham solid carbide drill bits and diamond drill bits). The tests were carried out combining different parameters of drilling modes. We adopted the range of spindle speed change n?=?10,000-20,000 rev/min and tool feed range Sm?=?50-300?mm/min. Measurements of shrinkage were performed with the help of ATOS III Triple Scan XL scanning system immediately after treatment and in 48?h thereafter. Based on the scanned polygonal mesh of each hole, three-dimensional models of holes drilled in the samples were built. Then, these models were verified against nominal drillings using GOM Inspect software. In this way, the values of rheonomic shrinkage were obtained. Verification was carried out according to Gaussian method of measurements by coincidence using variation variables sigma (Gaussian best-fit 3 sigma).

Shrinkage of holes does not take place in structural materials. However, in polymer composite materials, shrinkage of the drilled hole of 10?mm nominal diameter may reach reduction in diameter of 0.02-0.03?mm during a period of 48?h and depends on the grade of the polymer composite material. Observations have shown that shrinkage also depends on machining mode parameters.

We have developed two hypotheses to explain the influence of processing mode parameters on rheonomic shrinkage: the first one relates to the rate of processing, the second – to the force factors.

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