Determination of the influence of dispersion of iron-containing component on technological properties of molding and rod mixtures.

6, 2021 Pub Date : 2021-12-01 DOI:10.34185/tpm.6.2021.07

Selivorstov V, D. Yu, Khrychykov V

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Abstract

The presented results of researches of choice of rational method of receipt of ferruginous constituent of different dispersion are in bullet mills for formings and cored Iron-phosphatic a mixture of KHTS, and also influence of dispersion of dross on durability at the clench of mixture of this type.It was found that to obtain a highly dispersed iron-containing component of phosphate КHTS in the current production is the most rational use of mechanical method - ie grinding in ball mills, as it is effective both technologically and economically, given including the prevalence of this type of equipment. Each of the scale samples was loaded into a ball mill according to the instructions and ground for 40 minutes. Every 5 minutes, the mill was stopped and a sample weighing 100 grams was taken, after which the particle size distribution of the scale in this sample was determined. According to the literature, there is no generally accepted classification according to the particle size distribution [7]. This is due to the variety of purposes for which the particle size distribution of a material is determined. The particle size distribution of various materials is set by standards and technical conditions, which are developed for each individual consumer of this raw material. The normative document for determining the particle size distribution of metallurgical plants is currently unknown. The granulometric composition of rolled scale after grinding it in a ball mill was determined. The specific surface area of scale at the level of 2300-2500 m2 / g is achieved after 20 minutes of grinding in ball mills, which confirms the technological feasibility of their use for grinding the metal component of iron-phosphate HTS. The obtained data on a sufficiently high compressive strength of samples of iron-phosphate mixture, reaching 3.5 - 4 MPa, and is quite acceptable for use in the mixture for the production of bulk sand molds and rods, showed the prospects for further research in this direction .

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含铁成分分散对模塑和棒材混合物工艺性能影响的测定。

本文介绍了不同分散度的含铁成分在铸锭弹磨和有芯磷酸铁- KHTS混合物中合理接收方法的选择，以及渣滓分散度对这类混合物夹持时耐久性的影响。研究发现，在目前的生产中，获得高度分散的含铁磷酸盐成分КHTS是最合理的使用机械方法-即在球磨机中研磨，因为它在技术上和经济上都是有效的，包括这种类型的设备的普及。按照说明将每一个比例样品装入球磨机，研磨40分钟。每隔5分钟停机一次，取100克样品，测定样品中水垢的粒度分布。根据文献，目前还没有普遍接受的根据粒度分布[7]进行分类。这是由于确定材料粒度分布的目的多种多样。各种材料的粒度分布是由标准和技术条件设定的，这些标准和技术条件是为每个原材料消费者制定的。目前还没有确定冶金厂粒度分布的规范性文件。测定了经球磨机研磨后的轧屑的粒度组成。在球磨机中研磨20分钟后，垢的比表面积达到2300 ~ 2500m2 / g，证实了球磨机用于粉碎磷酸铁高铁金属组分的技术可行性。所获得的数据表明，磷酸铁混合物样品具有足够高的抗压强度，达到3.5 - 4mpa，并且在生产块状、模具和棒的混合物中是完全可以接受的，这表明了该方向的进一步研究前景。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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6, 2021

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