The impact of the fourth industrial revolution on the formation of metal Jewelry in the light of fractal geometry

Authors

  • Ghadah Abdulrahman Alfaisal Assistant Professor of Metal Work-Product Design Department- College of Art & Design -Princess Nourah Bint Abdulrahman University https://orcid.org/0000-0002-3496-7151

DOI:

https://doi.org/10.35560/jcofarts1364

Keywords:

Metal jewelry, Industry 4.0, Fractal geometry, Additive Manufacturing, Advanced technology

Abstract

The advanced technologies of the Fourth Industrial Revolution with its great impact on various industrial aspects came with the emergence of the term "the Fourth Industrial Revolution, as a result of the continuous technological developments that addressed many modern technologies such as additive manufacturing and augmented reality, that significantly contributed to the development of metal jewelry formation in light of molecular engineering, as the design and manufacture of metal jewelry using molecular engineering required modern and advanced technology for the ability to design and ease of implementation.

Applications of the Fourth Industrial Revolution have rapidly emerged in the design of metal jewelry through 3D printing, which was used in the formation of precious metals, and with the variety of jewelry designs and shapes that require time and effort for implementation, especially if there is a need to create special or valuable pieces or to reproduce rare pieces. Therefore, it was important to study the impact of the Fourth Industrial Revolution, the changes it brought about, and how to benefit from the advanced technologies for forming metal jewelry in light of molecular engineering. To facilitate the implementation of interwoven and complex shapes and designs inspired by molecular engineering.

The research deals with the Fourth Industrial Revolution, its concept, and principles, how it appeared, and the various technologies that emerged with it, as well as its various effects, in addition to the methods of forming metal jewelry and its development from manual and traditional methods to modern and advanced methods. It also deals with molecular engineering and how to benefit from it in forming and implementing metal jewelry through the technologies of the Fourth Industrial Revolution to achieve the research goal.

References

B9Creations. (2023). 3D Scanner technology. Retrieved from

https://www.b9c.com/products/b9-scan-500.

3Design software solution. (2023). About 3Design.

website: https://3design.com/en/.

Anderson, David M. (2008). Design for Manufacturability & Concurrent Engineering: How to Design for Low Cost, Design in High Quality, Design for Lean Manufacture, and Design Quickly for Fast Production. CIM Press.

Kety S. (2017/06/11). 3D printed Aura pendant. Retrieved from

https://3dadept.com/you-could-customize-your-love-story-with-3dprinted-aura-pendant/.

Blanchet, M. Rinn, T. Thaden, G. Thieulloy, G. (2014). Industry 4.0 - Potentials for Creating Smart Products: Empirical Research Results. International Conference on Business Information Systems, LNBIP.

Thimmesch, D. (2015). Design and 3D Print Jewelry in Precious Metals. Retrieved from https://3dprint.com/38343/3d-print-jewelry-wizegem/.

Annunziata, M. Evans, P. (2012). Industrial internet: Pushing the boundaries of minds and machines. Gen. Electr.

Lumen Learning. (2023). Fractal Basics. Retrieved from https://courses.lumenlearning.com/wmopenmathforliberalarts/chapter/introduction-fractal-basics/.

Ammonite pendant. (2023). silver and 18ct gold Fractal geometry. Retrieved from https://www.unellenu.com/designs/ammonite-pendant-silver-and-18ct-gold/

Fractint Development Team. (2023). What is fractal geometry. https://web.archive.org/web/20161001153925/http://fractint.org/

Von Scheel, H. (2023). The Fourth Industrial Revolution. Retrieved from http://von-scheel.com/masterclass/

JewelCAD Pro. (3-Jan-2022). A professional environment for design and modeling. https://jewelcad-pro.software.informer.com/

Romanoff International Supply Corporation. (2023). Jewelcad software. https://www.romanoff.com/3d-manufacturing/cad-software/jewel-cad.html.

Vey, P. (2018). Jewelry Manufacturing: How it Works. https://cadcamnyc.com/blogs/our-blog/jewelry-manufacturing-how-it-works.

Andersson, J. (2023). Fractal Mathematics. https://www.shapeways.com/product/QSDFYXQ2D/dissected-dragon-pendant?optionId=61920291&li=shops.

Zahran, A. Yousef, O. (2022), The Role of Industry 4.0 Technologies in Design Process Management. International Design Journal. Vol. 12 No. 2. (March 2022) pp 299-311.

Gemvision. (2022). Matrixgold software. https://gemvision.com/matrixgold.

Uriarte, O. (2021). CNC Machining. https://www.cncmasters.com/cnc-machining-is-popular-among-jewelry-makers/

Poli, C. (2001). Design for Manufacturing: A Structured Approach. 1st edition, Butterworth-Heinemann. ISBN 9780080503943.

Software Informer. (2023). Rhinogold software. https://rhinogold.software.informer.com/4.0/

Zbrush software. (2023). Jewelry design. From The Workflow Of Dreams To Works Of Art. https://pixologic.com/.

Downloads

Published

2024-06-15

Issue

Section

Articles

How to Cite

The impact of the fourth industrial revolution on the formation of metal Jewelry in the light of fractal geometry. (2024). Al-Academy , 112, 367-390. https://doi.org/10.35560/jcofarts1364

Publication Dates

Similar Articles

31-40 of 201

You may also start an advanced similarity search for this article.