具有水合诱导应力分布的机械优势玻璃的设计

IF 2.1 3区 材料科学 Q2 MATERIALS SCIENCE, CERAMICS International Journal of Applied Glass Science Pub Date : 2022-06-24 DOI:10.1111/ijag.16597
Timothy M. Gross, Jingshi Wu
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引用次数: 1

摘要

描述了玻璃成分设计工作导致发现具有水化诱导应力剖面的高抗裂玻璃。对三元铝硅酸盐玻璃的初步水化研究表明钾对促进水化的重要性。通过加入P2O5进一步改性玻璃成分,提高了水化率,在85°C 85%相对湿度的室中保存65天,制备了水化深度为29µm的样品。这种玻璃不仅具有高达20 kgf的抗维氏压痕裂纹性能,而且试样在破坏时也显示出相当大的存储能量。随后测量了应力剖面,发现压应力(CS)为400 MPa,压层深度为29µm。使用加压蒸汽容器缩短了最初漫长的加工时间。当保持在250°C和0.3 MPa时,样品可以在不到8小时内制备表面CSs >300 MPa和压缩深度>30µm。
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Design of mechanically advantaged glasses with hydration-induced stress profiles

The glass composition design work leading to the discovery of highly crack resistant glasses exhibiting hydration-induced stress profiles is described. Initial hydration studies on ternary aluminosilicate glasses show the importance of potassium for facilitating hydration. Further modification of the glass composition through the incorporation of P2O5 increased the hydration rate such that a specimen with a 29-µm hydration depth was prepared by holding in an 85°C 85% relative humidity chamber for 65 days. Not only did this glass have a high Vickers indentation crack resistance of >20 kgf, but the sample also displayed considerable stored energy at failure. This indication of a stress profile was subsequently measured and a compressive stress (CS) of 400 MPa with a compressive depth of layer of 29 µm was found. The initially long process times were shortened using pressurized steam vessels. When held at 250°C and .3 MPa, samples can be prepared with surface CSs >300 MPa and compressive depths >30 µm in less than 8 h.

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来源期刊
International Journal of Applied Glass Science
International Journal of Applied Glass Science MATERIALS SCIENCE, CERAMICS-
CiteScore
4.50
自引率
9.50%
发文量
73
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.
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