Learning from the Past: The Reconstruction of the Original Damascus Steel. Experimental Study

IF 0.6 0 ART
Carmen-Penelopi PAPADATU, Dragos-Bogdan Obreja, Ionut Cristian Adam-Papadatu, Ioan Gabriel Sandu
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引用次数: 0

Abstract

The original method of manufacturing Damascus steel has been forgotten over time. Due to differences in the raw material used and the manufacturing techniques, some of the current attempts at replicating Damascus steel have failed. The study of Damascus steel provided the opportunity to observe in detail the laborious process of manufacturing this material, which involves the free forging and welding of different layers of steel to obtain a particularly strong and durable final product. To carry out this research, high-quality materials were selected from a catalogue of steels, with a particular focus on achieving the best results. In this case, two types of steel were chosen to create Damascus steel: AISI 1095 and 15N20 steel. Both materials have been selected for their individual properties, such as mechanical resistance and durability, which contribute to the ultimate quality of Damascus steel. This rigorous selection of materials ensured a high-quality and authentic product. Throughout this study, a functional furnace was built capable of contributing to the welding and forging processes of these two different materials. This furnace played a crucial role in obtaining true Damascus steel. By applying a complex process of heating and forging and then repeating this process, the layers of steel were welded together, resulting in a final material that is extremely strong and has a unique aesthetic appearance. Processing and laboratory tests were carried out on the obtained Damascus steel to evaluate its mechanical properties, including the processing of the results using Autodesk Inventor Professional 2023 and simulation in Ansys 2023.
从过去学习:大马士革钢铁的重建。实验研究
制造大马士革钢的原始方法已经被遗忘了。由于使用的原材料和制造技术的不同,目前一些复制大马士革钢的尝试都失败了。对大马士革钢的研究提供了详细观察制造这种材料的艰苦过程的机会,其中包括自由锻造和焊接不同层的钢,以获得特别坚固和耐用的最终产品。为了进行这项研究,我们从钢材目录中选择了高质量的材料,并特别注重达到最佳效果。在这种情况下,选择两种类型的钢来创建大马士革钢:AISI 1095和15N20钢。这两种材料都是根据其各自的性能选择的,例如机械阻力和耐久性,这有助于大马士革钢的最终质量。这种严格的材料选择确保了高品质和正宗的产品。在整个研究过程中,建立了一个能够对这两种不同材料的焊接和锻造工艺做出贡献的功能炉。这个熔炉在获得真正的大马士革钢方面起了至关重要的作用。通过采用复杂的加热和锻造工艺,然后重复这一过程,钢层被焊接在一起,从而产生了一种非常坚固且具有独特美学外观的最终材料。对获得的大马士革钢进行了加工和实验室测试,以评估其力学性能,包括使用Autodesk Inventor Professional 2023对结果进行处理,并在Ansys 2023中进行模拟。
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来源期刊
CiteScore
1.70
自引率
37.50%
发文量
5
审稿时长
10 weeks
期刊介绍: The International Journal of Conservation Science (IJCS) is a high quality peer-reviewed journal devoted to the publication of original research papers in applied conservation science and its broad range of applications. IJCS it is an open access journal. All content is freely available without charge to any user or his/her institution. Users are allowed to read, download, copy, distribute, print, search, or link to the full texts of the articles in this journal without asking prior permission from the publisher or the author. The topics cover all disciplines and branches of modern scientific conservation, including different aspects on general conservation theory, scientific investigation of works of art, authentication, determination of conservation state, compatibility studies for preservation and restoration procedures and monitoring of interventions effectiveness, etiopathology of historic and natural monuments, studies on the mechanisms of deterioration and degradation for different materials as structural and ornamental elements, impact of the environmental factors or agents on monuments and ecosystems, obtaining and characterization of new materials and procedures for preservation and restoration, new methodologies for scientific investigation, cross-related problems concerning research applied to conservation science, biodiversity conservation. Review articles in selected areas are published from time to time.
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