Visualization of dyeing based on diffusion and adsorption theories

Yuki Morimoto; Reiji Tsuruno; Masayuki Tanaka; Kiyoshi Tomimatsu

doi:10.1109/PG.2007.68

Visualization of dyeing based on diffusion and adsorption theories

Yuki Morimoto, Reiji Tsuruno, Masayuki Tanaka, Kiyoshi Tomimatsu

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

12 Citations (Scopus)

Abstract

This paper describes a method for simulating and visualizing dyeing based on weave patterns and the physical parameters of the threads and the dye. We apply Fick's second law with a variable diffusion coefficient. We calculate the diffusion coefficient using the porosity, tortuosity, and the dye concentration based on the physical chemistry of dyeing. The tortuosity of the channel was incorporated in order to consider the effect of the weave patterns on diffusion. In this model, the total mass is conserved. We describe the cloth model using a two-layered cellular model that includes the essential factors required for representing the weft and warp. Our model also includes a simple dyeing technique that produces dyeing patterns by interrupting the diffusion of the dye in a cloth using a press. The results obtained using our model demonstrate that it is capable of modeling many of the characteristics of dyeing.

Original language	English
Title of host publication	Proceedings - The Pacific Conference on Computer Graphics and Applications Pacific Graphics 2007, PG
Pages	57-64
Number of pages	8
DOIs	https://doi.org/10.1109/PG.2007.68
Publication status	Published - 2007
Event	15th Pacific Conference on Computer Graphics and Applications, Pacific Graphics 2007, PG - Maui, HI, United States Duration: Oct 29 2007 → Nov 2 2007

Publication series

Name	Proceedings - Pacific Conference on Computer Graphics and Applications
ISSN (Print)	1550-4085

Other

Other	15th Pacific Conference on Computer Graphics and Applications, Pacific Graphics 2007, PG
Country/Territory	United States
City	Maui, HI
Period	10/29/07 → 11/2/07

All Science Journal Classification (ASJC) codes

Computer Science(all)

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10.1109/PG.2007.68

Cite this

Morimoto, Y., Tsuruno, R., Tanaka, M., & Tomimatsu, K. (2007). Visualization of dyeing based on diffusion and adsorption theories. In Proceedings - The Pacific Conference on Computer Graphics and Applications Pacific Graphics 2007, PG (pp. 57-64). Article 4392716 (Proceedings - Pacific Conference on Computer Graphics and Applications). https://doi.org/10.1109/PG.2007.68

Visualization of dyeing based on diffusion and adsorption theories. / Morimoto, Yuki ; Tsuruno, Reiji; Tanaka, Masayuki et al.
Proceedings - The Pacific Conference on Computer Graphics and Applications Pacific Graphics 2007, PG. 2007. p. 57-64 4392716 (Proceedings - Pacific Conference on Computer Graphics and Applications).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

Morimoto, Y , Tsuruno, R, Tanaka, M & Tomimatsu, K 2007, Visualization of dyeing based on diffusion and adsorption theories. in Proceedings - The Pacific Conference on Computer Graphics and Applications Pacific Graphics 2007, PG., 4392716, Proceedings - Pacific Conference on Computer Graphics and Applications, pp. 57-64, 15th Pacific Conference on Computer Graphics and Applications, Pacific Graphics 2007, PG, Maui, HI, United States, 10/29/07. https://doi.org/10.1109/PG.2007.68

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AB - This paper describes a method for simulating and visualizing dyeing based on weave patterns and the physical parameters of the threads and the dye. We apply Fick's second law with a variable diffusion coefficient. We calculate the diffusion coefficient using the porosity, tortuosity, and the dye concentration based on the physical chemistry of dyeing. The tortuosity of the channel was incorporated in order to consider the effect of the weave patterns on diffusion. In this model, the total mass is conserved. We describe the cloth model using a two-layered cellular model that includes the essential factors required for representing the weft and warp. Our model also includes a simple dyeing technique that produces dyeing patterns by interrupting the diffusion of the dye in a cloth using a press. The results obtained using our model demonstrate that it is capable of modeling many of the characteristics of dyeing.

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Visualization of dyeing based on diffusion and adsorption theories

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