壁厚对用于熔模铸造的多层复合石膏模具性能的影响

IF 2.6 3区 材料科学 Q2 METALLURGY & METALLURGICAL ENGINEERING International Journal of Metalcasting Pub Date : 2024-05-03 DOI:10.1007/s40962-024-01350-4
Yan Lu, Kai Lü, Yanfen Li, Zongxue Li
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引用次数: 0

摘要

为了研究薄壁石膏模具的性能是否符合熔模铸造的生产要求,本文研究了一种新型粘合层复合石膏模具的制备技术。在实心石膏模具的基础上,在外层表面涂上一层粘合剂,以制备复合模具。粘合层以硅溶胶为粘合剂,耐火材料为砂粒。研究了试样壁厚对复合材料模具强度、渗透性和导热性的影响。结果表明,复合材料模具的壁厚与其强度特性呈正相关。而渗透性和导热性则随着壁厚的增加而降低。值得注意的是,在壁厚为 3.5/4 时,与原始试样相比,复合材料的性能有了显著改善。具体来说,与原始实心模具相比,绿色试样的抗弯强度和抗拉强度分别提高了 4.64% 和 7.80%。焙烧试样的增幅更为显著,抗弯强度和抗拉强度分别提高了 28.87% 和 28.71%。此外,烧结试样的渗透率和导热率分别增加了 169.33% 和 9.45%。复合材料模具的拉曼光谱中出现了单斜 ZrO2(m-ZrO2)特征峰。这表明,Zr4+ 在阴离子基团与石膏体系的积累过程中发挥了重要作用,进而提高了模具的宏观强度。在石膏基体和粘合剂层之间观察到明显的物理界面。值得注意的是,石膏基体和粘合层抵抗结构破坏的能力各不相同,石膏基体的宏观断裂更有可能发生在粘合层之前。复合石膏模具有对称和稳定的晶体结构,与实心石膏模相比,具有更好的抗断裂变形能力。模具的断裂可归因于三种类型的失效:纤维失效、分层失效以及纤维与基体之间的损坏。这些失效类型是影响复合材料模具宏观断裂的主要因素。
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Effect of Wall Thickness on Properties of Multilayer Composite Plaster Mold for Investment Casting

In order to research whether the properties of a thin-walled plaster mold meets the production requirements in investment casting, this paper investigates a novel preparation technology for an adhesion-layer composite plaster mold. Based on a solid plaster mold, a single adhesion layer was applied to the outer surface for preparing the composite mold. An adhesion layer was deposited using silica sol as an adhesive, while refractory materials served as sand particles. Effects of specimen wall thickness on the strength, permeability, and thermal conductivity of composite mold were investigated. The results reveal positive correlation between wall thickness of the composite mold and its strength properties. Permeability and thermal conductivity, on the other hand, decrease with increasing wall thickness. Notably, at wall thickness of 3.5/4 compared to original specimen, significant improvements are observed. Specifically, compared to original solid mold, green specimens exhibit an increase of 4.64% and 7.80% in flexural and tensile strength, respectively. For fired specimens, the increases are even more remarkable, reaching 28.87% for flexural strength and 28.71% for tensile strength. Moreover, the increment of permeability and thermal conductivity with fired specimens was 169.33% and 9.45%, respectively. The monoclinic ZrO2 (m-ZrO2) characteristic peak appeared in the Raman spectra of the composite mold. It is shown that Zr4+ plays an important role in the accumulation of anion groups with the gypsum system, and then improves the macroscopic strength of mold. The obvious physical interface is observed between the plaster matrix and adhesive layer. It is noteworthy that the gypsum matrix and adhesion layer demonstrate varying abilities to resist structural damage, with a macroscopic fracture of gypsum matrix being more likely to occur prior to adhesion layer. Composite plaster mold exhibits a symmetrical and stable crystal structure and has better fracture deformation resistance compared to a solid mold. Fracture of the mold can be attributed to three types of failure: fiber failure, delamination failure, and damage between fibers and the matrix. These failure types are major factors influencing macro fracture of composite molds.

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来源期刊
International Journal of Metalcasting
International Journal of Metalcasting 工程技术-冶金工程
CiteScore
4.20
自引率
42.30%
发文量
174
审稿时长
>12 weeks
期刊介绍: The International Journal of Metalcasting is dedicated to leading the transfer of research and technology for the global metalcasting industry. The quarterly publication keeps the latest developments in metalcasting research and technology in front of the scientific leaders in our global industry throughout the year. All papers published in the the journal are approved after a rigorous peer review process. The editorial peer review board represents three international metalcasting groups: academia (metalcasting professors), science and research (personnel from national labs, research and scientific institutions), and industry (leading technical personnel from metalcasting facilities).
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