Shrinkage, wrinkling and ablation of burning cloth and paper

Sohyeon Jeong; Tae Hyeong Kim; Chang Hun Kim

doi:10.1007/s00371-011-0575-x

Shrinkage, wrinkling and ablation of burning cloth and paper

Sohyeon Jeong, Tae Hyeong Kim, Chang Hun Kim

Department of Computer Science and Engineering

Research output: Contribution to journal › Article › peer-review

9 Citations (Scopus)

Abstract

The burning of a sheet of cellulose-based material, such as paper or cloth, involves uneven shrinkage which causes wrinkling. We simulate this geometrically complicated phenomenon by modeling the effects of heat transfer, shrinkage and partial ablation on a thin shell. A strain-limitation technique is applied to a two-layer structure of springs arranged as a body-centered square. Although this structure is over-constrained, convergence can be achieved using a new successive fast projection method. We also remesh the shells dynamically to deal with the topological changes that occur as regions burn away.

Original language	English
Pages (from-to)	417-427
Number of pages	11
Journal	Visual Computer
Volume	27
Issue number	6-8
DOIs	https://doi.org/10.1007/s00371-011-0575-x
Publication status	Published - 2011 Jun

Keywords

Constrained Lagrangian mechanics
Fast projection
Heat transfer
The body-centered square

ASJC Scopus subject areas

Software
Computer Vision and Pattern Recognition
Computer Graphics and Computer-Aided Design

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10.1007/s00371-011-0575-x

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abstract = "The burning of a sheet of cellulose-based material, such as paper or cloth, involves uneven shrinkage which causes wrinkling. We simulate this geometrically complicated phenomenon by modeling the effects of heat transfer, shrinkage and partial ablation on a thin shell. A strain-limitation technique is applied to a two-layer structure of springs arranged as a body-centered square. Although this structure is over-constrained, convergence can be achieved using a new successive fast projection method. We also remesh the shells dynamically to deal with the topological changes that occur as regions burn away.",

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AU - Kim, Tae Hyeong

AU - Kim, Chang Hun

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N2 - The burning of a sheet of cellulose-based material, such as paper or cloth, involves uneven shrinkage which causes wrinkling. We simulate this geometrically complicated phenomenon by modeling the effects of heat transfer, shrinkage and partial ablation on a thin shell. A strain-limitation technique is applied to a two-layer structure of springs arranged as a body-centered square. Although this structure is over-constrained, convergence can be achieved using a new successive fast projection method. We also remesh the shells dynamically to deal with the topological changes that occur as regions burn away.

AB - The burning of a sheet of cellulose-based material, such as paper or cloth, involves uneven shrinkage which causes wrinkling. We simulate this geometrically complicated phenomenon by modeling the effects of heat transfer, shrinkage and partial ablation on a thin shell. A strain-limitation technique is applied to a two-layer structure of springs arranged as a body-centered square. Although this structure is over-constrained, convergence can be achieved using a new successive fast projection method. We also remesh the shells dynamically to deal with the topological changes that occur as regions burn away.

KW - Constrained Lagrangian mechanics

KW - Fast projection

KW - Heat transfer

KW - The body-centered square

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Shrinkage, wrinkling and ablation of burning cloth and paper

Abstract

Keywords

ASJC Scopus subject areas

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