Surfaces Casting Defect Analysis and its Countermeasures on Products Manufactured by Alkali-Phenolic Binder Sand Molding

Metal Indonesia Pub Date : 2022-07-30 DOI:10.32423/jmi.2022.v44.35-41

Husen Taufiq, A. Ramelan, E. Prajatelistia, Susana Susana, Muhammad Fathurrohman

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Abstract

This paper presents the results of the analysis of surface casting defects and their countermeasures. To find out the root causes of defects, and their mechanisms. Product casting defects have been characterized by visual inspection and SEM/EDX, also collecting production data information. Studied relation between the composition of molding sand and the mechanical properties of compressive strength and surface stability index has been done. The visual inspection results, field data collection, and SEM/EDX analysis showed a rough product surface and the presence of SiO2 inclusions. The product has been made with an alkaline phenolic mold using reclaimed sand with a compressive strength of 18 kg/cm2. The study results show that with increasing binder levels, there is an increase in the mechanical properties of compressive strength and surface stability index. They were based on the experimental results of the test block product casting with improved mechanical properties above. Obtained a much better surface of the casting product, and relatively no surface inclusion defects were found. The above experiment shows that the surface stability index is an important parameter the critical value is 90%, and the necessary compressive strength is 20 kg/cm2. The effect of Loss on Ignition content on mechanical properties is also reviewed.

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碱酚醛粘结剂砂型产品表面铸造缺陷分析及对策

本文介绍了表面铸造缺陷的分析结果及解决方法。找出缺陷的根本原因及其机制。通过目测和SEM/EDX对产品铸件缺陷进行了表征，并收集了生产数据信息。研究了型砂的组成与型砂抗压强度和表面稳定性指标的关系。目视检查结果、现场数据收集和SEM/EDX分析表明，产品表面粗糙，存在SiO2包裹体。该产品采用再生砂为原料，采用碱性酚醛模具制成，抗压强度为18kg /cm2。研究结果表明，随着粘结剂用量的增加，复合材料的抗压强度和表面稳定性指标均有所提高。它们是基于改进了上述力学性能的试块产品铸件的实验结果。获得了较好的铸件表面，相对没有发现表面夹杂缺陷。上述试验表明，表面稳定性指标是一个重要参数，临界值为90%，所需抗压强度为20 kg/cm2。本文还讨论了燃烧量损失对材料力学性能的影响。

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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Metal Indonesia

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