Fractional derivative modeling for characterizing stress relaxation properties of Hami melon during drying

IF 2.8 3区农林科学 Q2 FOOD SCIENCE & TECHNOLOGY

Journal of texture studies Pub Date : 2023-07-03 DOI:10.1111/jtxs.12788

Yumin Yang, Jinghu Yu, Xingyu Zhou, Shanhua Qian, Fangyong Zhu

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引用次数: 0

Abstract

The viscoelastic properties of food materials will change significantly while drying is in progress, which greatly influences the food deformation caused by drying. This study aims to predict the viscoelastic mechanical behavior of Hami melon during drying using the fractional derivative model. To characterize the relaxation characteristics, based on the finite difference method, an improved Grünwald–Letnikov fractional stress relaxation model is proposed to derive an approximate discrete numerical solution of the relaxation modulus by applying the time fractional calculus. The Laplace transform method is used to verify the obtained results, and the equivalence of the two methods is proved. In addition, the stress relaxation tests prove that the fractional derivative model has a better prediction effect on the stress relaxation behavior of viscoelastic food than classical Zener model. The significant correlations between the fractional order and the stiffness coefficient and the moisture content is also studied. Which is negative correlation and positive correlation respectively.

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哈密瓜干燥过程应力松弛特性的分数阶导数模型。

在干燥过程中，食品材料的粘弹性会发生明显的变化，这对干燥引起的食品变形有很大的影响。本研究旨在利用分数阶导数模型预测哈密瓜干燥过程中的粘弹性力学行为。为了描述松弛特性，基于有限差分法，提出了改进的gr nwald- letnikov分数阶应力松弛模型，利用时间分数阶微积分推导出松弛模量的近似离散数值解。利用拉普拉斯变换方法对所得结果进行了验证，并证明了两种方法的等价性。此外，应力松弛试验证明分数阶导数模型比经典齐纳模型对粘弹性食品的应力松弛行为有更好的预测效果。研究了分数阶、刚度系数和含水率之间的显著相关关系。分别为负相关和正相关。

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来源期刊

Journal of texture studies 工程技术-食品科技

CiteScore

6.30

自引率

9.40%

发文量

审稿时长

>24 weeks

期刊介绍： The Journal of Texture Studies is a fully peer-reviewed international journal specialized in the physics, physiology, and psychology of food oral processing, with an emphasis on the food texture and structure, sensory perception and mouth-feel, food oral behaviour, food liking and preference. The journal was first published in 1969 and has been the primary source for disseminating advances in knowledge on all of the sciences that relate to food texture. In recent years, Journal of Texture Studies has expanded its coverage to a much broader range of texture research and continues to publish high quality original and innovative experimental-based (including numerical analysis and simulation) research concerned with all aspects of eating and food preference. Journal of Texture Studies welcomes research articles, research notes, reviews, discussion papers, and communications from contributors of all relevant disciplines. Some key coverage areas/topics include (but not limited to): • Physical, mechanical, and micro-structural principles of food texture • Oral physiology • Psychology and brain responses of eating and food sensory • Food texture design and modification for specific consumers • In vitro and in vivo studies of eating and swallowing • Novel technologies and methodologies for the assessment of sensory properties • Simulation and numerical analysis of eating and swallowing