超薄玻璃残余应力的模拟与测量

IF 2.1 3区材料科学 Q2 MATERIALS SCIENCE, CERAMICS

International Journal of Applied Glass Science Pub Date : 2022-09-07 DOI:10.1111/ijag.16612

Lianjie Tong, Shimin Liu, Yaming Sun, Jianmin Gu, Shiqing Xu

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引用次数: 1

摘要

残余应力的精确模拟和测量是超薄玻璃工业稳定生产的迫切需要。本文采用有限元方法模拟了退火过程中的传热过程和沿UTG带宽度不同位置的残余应力，并通过维氏压痕进行了测量。400和600 mm处的残余应力较大，造成了严重的生产损失。此外，我们还进行了分子动力学模拟，以揭示残余应力的形成机制。在UTG冷却过程中，堆芯的冷却速度比表面的冷却速度慢。由于弛豫过程的影响，后者会阻碍前者的R - o (R为Na、Mg、Ca、Al或Si)长度收缩，这意味着表面会产生残余压应力。随着冷却速率的增大，两者之间的温差增大，导致残余应力增大。最后，在MD揭示残余应力形成原理的基础上，在B区设置边缘电加热，减小了距边缘400和600 mm处的残余应力。

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Simulation and measurement of ultrathin glass residual stress

Accurate simulation and measurement of the residual stress are pressing needs in ultrathin glass (UTG) industrial stable production. Herein, the heat transfer in an annealing lehr and the residual stresses at different positions along the width of the UTG ribbon were simulated by the finite element method and measured via the Vickers indentation. The residual stresses at 400 and 600 mm to the edge were large, which caused serious production loss. Besides, we conducted molecular dynamics (MD) simulation to reveal the mechanism for residual stress formation. During UTG cooling, the cooling rate of the core is slower than that of the surface. Due to the influence of the relaxation process, the latter would hinder the former's R–O (where R is Na, Mg, Ca, Al, or Si) length contraction, implying that the surface would generate residual compressive stress. The temperature difference between them increases as the cooling rate grows, leading to the residual stress increase. Finally, based on revealing the formation principle of residual stress by MD, the edge electric heatings were set in zone B, and the residual stresses at 400 and 600 mm to the edge are reduced.

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来源期刊

International Journal of Applied Glass Science MATERIALS SCIENCE, CERAMICS-

CiteScore

4.50

自引率

9.50%

发文量

审稿时长

>12 weeks

期刊介绍： The International Journal of Applied Glass Science (IJAGS) endeavors to be an indispensable source of information dealing with the application of glass science and engineering across the entire materials spectrum. Through the solicitation, editing, and publishing of cutting-edge peer-reviewed papers, IJAGS will be a highly respected and enduring chronicle of major advances in applied glass science throughout this century. It will be of critical value to the work of scientists, engineers, educators, students, and organizations involved in the research, manufacture and utilization of the material glass. Guided by an International Advisory Board, IJAGS will focus on topical issue themes that broadly encompass the advanced description, application, modeling, manufacture, and experimental investigation of glass.