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Advances in Nano Research Volume 13, Number 2, August 2022 , pages 135-146 DOI: https://doi.org/10.12989/anr.2022.13.2.135 |
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Fundamental and conventional computer simulation for the stability of non-uniform systems |
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Chunping Wang and Keming Chen
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| Abstract | ||
| The accurate assessment of the performance of nonuniform systems requires a thorough understanding of stability analysis. As a result, the theoretical modeling of the influence of various variables on the performance of small-scale nonuniform structures with conventional and non-conventional geometries is presented in this paper. According to the fundamental computer simulation based on mathematical and mechanical principles, the stability of the nonuniform structures is examined. Thus, a numerical procedure is used to simulate the stability and instability characteristics of the nonuniform small-scale structures via computer aid. Theoretic simulation methods provide a great deal of the design and production of small-scale structures at a low cost compared to experimental simulations. Thus, this paper provides a good presentation of the stability analysis of the nonuniform nanoscale structures with high accuracy without actual experimental. | ||
| Key Words | ||
| computer simulation; nonuniform structures; numerical procedure; small-scale structures; stability analysis | ||
| Address | ||
| Chunping Wang: School of Communication and Information Engineering, Shanghai Technical Institute of Electronics & Information, Shanghai 201141, China/ Dean's Office, Shanghai Technical Institute of Electronics & Information, Shanghai 201141, China Keming Chen: Dean's Office, Shanghai Technical Institute of Electronics & Information, Shanghai 201141, China | ||