[1] [1] SWAIN M V. A fracture mechanics description of the microcracking about NiS inclusions in glass[J]. Journal of Non-Crystalline Solids, 1980, 38: 451-456.

[2] [2] BORDEAUX F, KASPER A. Reliable and shorter heat soak test to avoid spontaneous fracture of heat strengthened and tempered glasses［C］//Glass Processing Days, 1997, 13: 15.

[5] [5] POURMOGHADDAM N, SCHNEIDER J. Finite-element analysis of the residual stresses in tempered glass plates with holes or cut-outs[J]. Glass Structures & Engineering, 2018, 3(1): 17-37.

[6] [6] ILIEV V. Influence of the geometric shape of the nickel-sulfide inclusion on the stress-strain state caused by phase transformation[J]. Science, Engineering and Education, 2017, 2(1): 23-30.

[7] [7] VOCIALTA M, CORRADO M, MOLINARI J F. Numerical analysis of fragmentation in tempered glass with parallel dynamic insertion of cohesive elements[J]. Engineering Fracture Mechanics, 2018, 188: 448-469.

[10] [10] ANTON J, ABEN H. A compact scattered light polariscope for residual stress measurement in glass plates［C］//Glass Processing Days, 2003: 86-88.

[11] [11] NIELSEN J H, THIELE K, SCHNEIDER J, et al. Compressive zone depth of thermally tempered glass[J]. Construction and Building Materials, 2021, 310: 125238.

[12] [12] LOHR K, WELLER B. Residual stress distribution in tempered glass with reground edges[J]. Glass Structures & Engineering, 2019, 4(1): 99-115.

[13] [13] POURMOGHADDAM N, KRAUS M A, SCHNEIDER J, et al. Relationship between strain energy and fracture pattern morphology of thermally tempered glass for the prediction of the 2D macro-scale fragmentation of glass[J]. Glass Structures & Engineering, 2019, 4(2): 257-275.

[15] [15] YANG H, LIU F X, DUAN R Z, et al. Spray cooling heat transfer during glass tempering process and influencing factors on the quality of tempered glass[J]. International Journal of Thermal Sciences, 2022, 175: 107475.

[16] [16] SHETH N, HOWZEN A, CAMPBELL A, et al. Effects of tempering and heat strengthening on hardness, indentation fracture resistance, and wear of soda lime float glass[J]. International Journal of Applied Glass Science, 2019, 10(4): 431-440.

[17] [17] BAO Y W, LIU C C, HUANG J L. Effects of residual stresses on strength and toughness of particle-reinforced TiN/Si3N4 composite: theoretical investigation and FEM simulation[J]. Materials Science and Engineering: A, 2006, 434(1/2): 250-258.

[19] [19] BENITEZ T, GMEZ S Y, DE OLIVEIRA A P N, et al. Transparent ceramic and glass-ceramic materials for armor applications[J]. Ceramics International, 2017, 43(16): 13031-13046.

[20] [20] KATO Y, YAMAZAKI H, YOSHIDA S, et al. Effect of densification on crack initiation under Vickers indentation test[J]. Journal of Non-Crystalline Solids, 2010, 356(35/36): 1768-1773.

[21] [21] JACOB L. A review of the nickel sulphide induced fracture in tempered glass［C］//Glass Performance Days, 2001： 108-110.

[22] [22] T?LKE T, BARZ A, STACHEL D. Behaviour and phase transformations of nickel sulphide inclusions in glass melts[J]. Journal of Physics and Chemistry of Solids, 2007, 68(5/6): 830-834.

[23] [23] YOUSFI O, DONNADIEU P, BRCHET Y, et al. Phase transformations in nickel sulphide: microstructures and mechanisms[J]. Acta Materialia, 2010, 58(9): 3367-3380.

[25] [25] KARLSSON K, WONDRACZEK L. Strengthening of oxide glasses[J]. Encyclopedia of Glass Science, Technology, History, and Culture, 2021, 1: 391-404.

[27] [27] KASPER A. Spontaneous cracking of thermally toughened safety glass. part one: properties of nickel sulphide inclusions[J]. Glass Structures & Engineering, 2019, 4(3): 279-313.

[28] [28] BALAYEVA O O, AZIZOV A A, MURADOV M B, et al. Effect of thermal annealing on the properties of nickel sulfide nanostructures: structural phase transition[J]. Materials Science in Semiconductor Processing, 2017, 64: 130-136.

[29] [29] JANA S, MUKHERJEE N, CHAKRABORTY B, et al. Electrodeposited polymer encapsulated nickel sulphide thin films: frequency switching material[J]. Applied Surface Science, 2014, 300: 154-158.