Journal of Information Technology Review

DLINE Journals portal

Home

New Journals

Browse Journals

Journal Prices

For Authors

Print ISSN: 0976-898X
Online ISSN: 0976-8998

About JITR
	DLINE Portal Home Home Aims & Scope Editorial Board Current Issue Next Issue Previous Issue Sample Issue Upcoming Conferences Self-archiving policy Alert Services Be a Reviewer Publisher Paper Submission Subscription Contact us

How To Order
	Order Online Price Information Request for Complimentary Print Copy

For Authors
	Guidelines for Contributors Online Submission Call for Papers Author Rights

RELATED JOURNALS

Journal of Digital Information Management (JDIM)

International Journal of Computational Linguistics Research (IJCL)

International Journal of Web Application (IJWA)

Journal of Information Technology Review

The Application of 3D Printing in the Design of Interior Space Form Solid Products

Liu hui, Wang Jing, Li Fei
Guangxi Peixian International Vocational College Baise, Guangxi, 533000, China Guangxi Construction Vocational and Technical College Nanning, Guangxi, 530000, China

Abstract: With the continuous development of technology, 3D printing technology has gradually matured and been widely applied in various fields. Among them, 3D printing technology is playing an increasingly important role in the design of physical products in indoor space forms. 3D printing technology is changing traditional manufacturing and playing an increasingly important role in designing physical products in indoor space forms. This article explores the application and impact of 3D printing in the design of indoor spatial form physical products. By introducing the principles and characteristics of 3D printing technology, combined with specific case analysis, the advantages and challenges of 3D printing technology in the design of indoor spatial form physical products are summarized, and future development trends are looked forward to.

Keywords: 3D Printing Technology, Interior Design, Innovation The Application of 3D Printing in the Design of Interior Space Form Solid Products

DOI:https://doi.org/10.6025/jitr/2024/15/2/42-50

Full_Text PDF 1.41 MB Download: 26 times

References:

[1] Zou, Y. L. (2015). Interior design shape innovation in the application of 3D printing technology study. Modern Decoration (Theory), 9, 44-45.

[2] Xu, Y. T. (2012). 3D printing technology, new product design thinking. Computer and Telecom, 9, 5-7.

[3] Fan, W., Zou, Y. L. (2015). 3D printing technology in digital protection of traditional folk furniture form study. Journal of Hunan, Furniture and Interior Decoration, 9, 52-53.

[4] Li, J. J. (2015). 3D printing technology in the application of custom furniture study. Journal of Furniture, 5, 17-21.

[5] Xiao, X. (2015). 3D printing technology in the application of personalized creative design. Journal of Design Art Study, 1, 70-73.

[6] Xiao, X. W., Tian, W., Miao, D. M. (2015). 3D printing technology application in the field of construction. Journal of Construction Technology, 10, 79-83.

[7] Wang, F. J., Xiao, Y. H., Deng, D. R. (2014). 3D printing technology in the application of interior design. Journal of Hunan, Furniture and Interior Decoration, 8, 14-15.

[8] Li, D., Tian, H. (2014). 3D printing technology application in the field of product design advantage. Journal of Arts Education, 9, 279.

[9] Chen, N. F. (2015). About 3D printing technology application in environmental art design thinking. Beautiful City with Age, 5, 133-134.

[10] Zhang, Y. T. (2015). 3D printing technology in the application of the product modeling design. Journal of Modern Decoration, 3, 10-11.

[11] Castilho, M., Gouveia, B. (2015). The role of shell/core saturation level on the accuracy and mechanical characteristics of porous calcium phosphate models produced by 3D printing. Rapid Prototyping Journal, 21, 43-55.

[12] Imgrund Deak, K. (2015). A Professor Goes to the Doctor, A Case Study in Creating a Startup Using University-Developed Technology. Technology Transfer and Entrepreneurship, 2, 81-84.

[13] Stone-Sundberg, J., Kaminsky, W. (2015). 3D printed models of small and large molecules, structures and morphologies of crystals, as well as their anisotropic physical properties. Crystal Research and Technology, 50, 6-7.

[14] Xiao, L. P. (2013). A rapid, straightforward, and print house compatible mass fabrication method for integrating 3D paper-based microfluidics. Electrophoresis, 34, 20-21.

[15] Lin, H., Wu, J. F. (2014). Based on digital technology of classical Chinese furniture study. Journal of Hunan, Furniture and Interior Decoration, 1, 4-7.

DLINE Journals portal