An experimental study of morphological formation in bilayered tubular structures driven by swelling/growth

Liu, Rui-Cheng; Jin, Lishuai; Cai, Zongxi; Liu, Yang

doi:10.1177/10812865221099204

Cited by 6 publications

(2 citation statements)

References 76 publications

(139 reference statements)

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“…and growth gradient [37][38][39], initial residual stress and electric field [40][41][42][43], curvature and incompatibility [44][45][46][47][48] are investigated by a large group of researchers. However, the underlying physical mechanisms of the morphogenesis of everted tubular biological tissues remain elusive.…”

Section: Introductionmentioning

confidence: 99%

Growth and morphogenesis of an everted tubular biological tissue

Liu,

Du,

et al. 2024

Proc. R. Soc. A.

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Eversion, a ubiquitous phenomenon in living organisms, significantly contributes to the growth and morphogenesis of soft biological tissues and organs. In this study, we examine the role of elasticity and geometry in the morphogenesis of everted tubular biological tissues, both theoretically and experimentally. Our findings demonstrate that the morphogenesis of an everted tubular tissue is primarily influenced by its elasticity and geometry. Through linear stability analysis, we show that an everted bilayer tubular tissue, with isotropic differential growth, can generate a circumferential or two-dimensional pattern, but fails to produce an axial pattern, which distinguishes it from a bilayer tubular tissue without eversion. Furthermore, as the modulus ratio and layer thicknesses increase, the surface instability pattern transitions from a two-dimensional pattern to a circumferential pattern. Notably, when the modulus ratio or layer thickness reaches sufficiently high values, spontaneous instabilities emerge on the inner surface of the everted bilayer tubular tissues pre-growth. To investigate the morphological instability of everted bilayer tubes, we perform a series of quantificational finite-element simulations and swelling experiments. The results of both numerical simulations and experimental observations align well with our theoretical analysis. This study not only enhances our comprehension of everted tubular tissue morphogenesis but also offers valuable insights for biomedical engineering and growth self-assembly applications.

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Section: Introductionmentioning

confidence: 99%

Growth and morphogenesis of an everted tubular biological tissue

Liu,

Du,

et al. 2024

Proc. R. Soc. A.

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“…The remaining three papers are all concerned with buckling and instability. Liu et al [14] present an experimental study of wrinkling in the azimuthal direction of a two-layered cylindrical tube driven by swelling/growth. Zhang and Zhao [15] investigate the pull-in instability and eigenfrequency variations of a graphene resonator under electrostatic loading.…”

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confidence: 99%

In memory of Prof. Hui-Hui Dai

Chen¹,

Fu²,

Zhong³

2022

Mathematics and Mechanics of Solids

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This special issue of Mathematics and Mechanics of Solids is dedicated to the memory of Professor Hui-Hui Dai who passed away on 5 January 2021 in Hong Kong. Hui-Hui was born on 24 March 1964 in Anhui Province, China. He grew up in Ming Guang, a small town in Jia Shan County, where he attended Ming Guang Primary School and Ming Guang No 1 High School. He was the top scorer in the county in the national university entrance examination at the young age of 16. The years around 1980 were an exciting period in which China had just opened up to the outside world, and universities had an electric atmosphere about science and knowledge after reopening following a 10-year close-down. Hui-Hui must have really enjoyed his studies like his peers. He obtained his BSc from the Department of Mechanics, Zhejiang University, in 1984 and entered Dalian University of Science and Technology in 1984 as an MSc student. Two years into his MSc study, he was awarded a competitive KC Wong Scholarship to study in the United Kingdom. Supervised by Professor Alan Jeffrey in the Department of Engineering Mathematics, University of Newcastle upon Tyne, he obtained his PhD in 1990. After spending just over a year in the University of Western Ontario as a postdoctoral research fellow, he spent another 3 years in the University of Manitoba. He went there as postdoctoral research fellow and was later offered a tenure-tracked position as an Assistant Professor. He moved to the

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