Journal of Synthetic Crystals, Volume. 52, Issue 3, 493(2023)
Numerical Simulation of Stress Intensity Factor for Pore-Crack in Quartz Crucible under High Temperature Cyclic Loading
References(13)
[1] [1] HOU G F, SUN H H, JIANG Z Y, et al. Life cycle assessment of grid-connected photovoltaic power generation from crystalline silicon solar modules in China[J]. Applied Energy, 2016, 164: 882-890.
[2] [2] PENG L H, QIN S, GU X B. Effects of melting parameters and quartz purity on silica glass crucible produced by arc method[J]. Engineering Research Express, 2020, 2(1): 015046.
[5] [5] PAULSEN O, RRVIK S, MUGGWRUD, et al. Bubble distribution in fused quartz crucibles studied by micro X-ray computational tomography. Comparing 2D and 3D analysis[J]. Journal of Crystal Growth, 2019, 520: 96-104.
[6] [6] TOSHIRO M, SUSUMU M, MITSUO H, et al. In-situ observation of bubble formation at silicon melt-silica glass interface[J]. Journal of Crystal Growth, 2011, 318(1): 196-199.
[7] [7] LIU X, GAO B, KOICHI K. Numerical investigation of carbon contamination during the melting process of Czochralski silicon crystal growth[J]. Journal of Crystal Growth, 2015, 417: 58-64.
[8] [8] VOROB’EV A N, SID’KO A P, KALAEV V V. Advanced chemical model for analysis of Cz and DS Si-crystal growth[J]. Journal of Crystal Growth, 2014, 386: 226-234.
[9] [9] CHEN C, CHIANG P Y, CHANG C H, et al. Three-dimensional numerical simulation of flow, thermal and oxygen distributions for a Czochralski silicon growth with in a transverse magnetic field[J]. Journal of Crystal Growth, 2014, 401: 813-819.
[10] [10] VEGADA M, BHATT N M. Effect of location of zero Gauss plane on oxygen concentration at crystal melt interface during growth of magnetic silicon single crystal using czochralski technique[J]. Procedia Technology, 2016, 23: 480-487.
[11] [11] LIU X, HIROFUMI H, YOSHIJI M, et al. Transient global modeling for the pulling process of Czochralski silicon crystal growth. II. Investigation on segregation of oxygen and carbon[J]. Journal of Crystal Growth, 2020, 532: 125404.
[12] [12] ZHAO W H, LI J C, LIU L J. Control of oxygen impurities in a continuous-feeding Czochralski-silicon crystal growth by the double-crucible method[J]. Crystals, 2021, 11(3): 264.
[14] [14] HIRSCH A, TREMPA M, SCHULZE M, et al. Factors influencing the gas bubble evolution and the cristobalite formation in quartz glass Cz crucibles for Czochralski growth of silicon crystals[J]. Journal of Crystal Growth, 2021, 570: 126231.
[15] [15] HUANG X M, HOSHIKAWA T, UDA S. Analysis of the reaction at the interface between Si melt and Ba-doped silica glass[J]. Journal of Crystal Growth, 2007, 306(2): 422-427.
[19] [19] LIN X B, SMITH R A. Finite element modelling of fatigue crack growth of surface cracked plates[J]. Engineering Fracture Mechanics, 1999, 63(5): 503-522.
Tools
Get Citation
Copy Citation Text
ZHAO Guoyan, QU Li, LI Jin, MA Run. Numerical Simulation of Stress Intensity Factor for Pore-Crack in Quartz Crucible under High Temperature Cyclic Loading[J]. Journal of Synthetic Crystals, 2023, 52(3): 493
Paper Information
Category:
Received: Nov. 9, 2022
Accepted: --
Published Online: Apr. 13, 2023
The Author Email: Jin LI (li-jin@163.com)
CSTR:32186.14.
© Copyright 2018-2021 | Chinese Laser Press.
All Rights Reserved 沪ICP备15018463号-20