A Proposed Methodology To benefit from the BioGeometry Science in design

Hassen, Waleed; Osama, Shaimaa

doi:10.21608/mjaf.2019.10771.1174

A Proposed Methodology To benefit from the BioGeometry Science in design "Application on Metal Constructions and Architectural Ceramics - Interdisciplinary Study "

Document Type : Original Article

Authors

Waleed Hassen ¹
Shaimaa Osama ²

¹ Metal Furniture and Constructions, Faculty of Applied Arts, Helwan university

² Ceramic Dept, Faculty of Applied Arts, Helwan University

10.21608/mjaf.2019.10771.1174

Abstract

At the present time, the international academic institutions are moving towards interdisciplinary research studies, which has created the importance of this type of studies at the level of applied arts disciplines. The intellectual methodology based on interdisciplinary studies between the various disciplines of applied arts leads to high quality design outputs, With complementary information based on convergence of knowledge and science in common disciplines. BioGeometry is one of the sciences that aims at reaching the appropriate design solutions compatible with human energy in the design of architectural spaces, including the design of metal structures and architectural ceramics by introducing a balance between different design elements. BioGeometry is based on geometric shapes, In all types of energies and then rebalance the function. In addition to geometric shapes, the BioGeometry uses the energy of color, sound, motion and the various oscillations between them, which are also translated into angles, ratios and geometric relationships. As the forms based on the geometry of biogeometric composition have a significant importance in the concentration of energies and useful dispersion of harmful energies, and that affect negatively or positively on the user directly or indirectly.. The aim of this research is to develop a methodology for the use of BioGeometry science in the design of metal constructions and architectural ceramic as an internal study between disciplines metal furniture and constructions and ceramics. The research found that BioGeometry can introduce balance energy into metal constrictions and architectural ceramics at the lowest possible cost. It does not require complex devices or high material possibilities, but all that is needed is to apply some of the design elements that the designer can apply easily.

Keywords

References

الصاوی , محمد سمیر(2015) الطاقة ولغة الشکل ، هندسة التشکیل الحیوی بین النظریة والتطبیق, دار الهدى. القاهرة.

- Elsawy, Mohmmed Samir(2015)Eltaka we Loght Elshkl, Handset Eltashkeel Elhiawy Been Elnathria we Eltatbeek, Dar Elhoda, Elkahera.

رأفت ,على (2007) دورات الإبداع الفکری , الدورة البیئیة عمارة المستقبل" ثلاثیة الإبداع المعماری , الطبعة الأولى, مرکز أبحاث کونسلت, القاهرة.

- Raft ,Ali (2007) Dorat Alebda3 Elfekry- Eldora Elbeaya 3mart Elmostkbl, Tholathyt Elebda3 Elme3mary, Eltab3a Elawla, Markz Abhath Konslt, Elkahera.

Davis ,Tom(2013) Geodesic Domes- from / http://www.geometer.org/mathcircles
Gin, Jerry (2015)The Science of BioGiometry: Cosmos and History, The Journal of Natural and Social Philosophy, vol. 11, no. 2(.290-309)
J.Y. Zhang, M. Ohsaki ,Y. Kanno (2006) A direct approach to design of geometry and forces of tensegrity systems - International Journal of Solids and Structures 43.
Karim, Ibrahim (2016),Biogeometry Signatures: Harmonizing the Body's Subtle Energy Exchange with the Environment, CreateSpace Independent Publishing Platform.
Karim, Ibrahim (2010), Back to The Future for Mankind, CreateSpace Independent Publishing Platform,
M. Cox, Kathleen (2000)VASTU Living, Creating a Home for the Soul, Da Capo Lifelong Books .
S. Radwan, Samer, A. Ahmed, Tarek, M. Nagy, Nashwa,& E. Elnagar, Khaled (2016)Application of Aromatherapy and Biogeometry Engineering technology in Textile Weaving, International Journal of Science, Engineering and Technology Research (IJSETR)Volume 5, Issue 5, May (1542-1550)
Wojciech, Gilewski, Joanna ,Kloswaska and Paulin,a Obara,(2015) Application of tensgrity structures in civil engineering, Procedia Engineering 111,(243-248)
www.BioGeometry.org.com