[1] P DAHL, I KAUS, Z ZHAO et al. Densification and properties of zirconia prepared by three different sintering techniques. Ceramic International, 33, 1603-1610(2007).

[2] M MUKHOPADHYAY, J MUKHOPADHYAY, A D SHARTNA et al. High performance planar solid oxide fuel cell fabricated with Ni-yttria stabilized zirconia anode prepared by electroless technique. International Journal of Applied Ceramic Technology, 9, 999-1010(2012).

[3] W G CHANG, S H SANG, S H JUN et al. Investigation of stainless steel 316L/zirconia joint part fabricated by powder injection molding. International Journal of Applied Ceramic Technology, 16, 315-323(2019).

[4] T B ZHU, Z P XIE, Y HAN et al. A novel approach to improve flexural strength of Al₂O₃-20wt% ZrO₂ composites by oscillatory pressure sintering. Journal of the American Ceramic Society, 101, 1397-1401(2018).

[5] B L KARIHALOO. Contribution of t→m phase transformation to the toughening of ZTA. Journal of the American Ceramic Society, 74, 1703-1706(1991).

[6] X Z WANG, Z L MA, X SUN et al. Effects of ZrO₂, and Y₂O₃, on physical and mechanical properties of ceramic bond and ceramic CBN composites. International Journal of Refractory Metals & Hard Materials, 75, 18-24(2018).

[7] Y W BAO, S B SU, J J YANG et al. Pre-stressed ceramics and improvement of impact resistance. Materials Letters, 57, 518-524(2002).

[8] Y W BAO, F H KUANG, Y SUN et al. A simple way to make pre-stressed ceramics with high strength. Journal of Materiomics, 5, 657-662(2019).

[9] Y W BAO, Y SUN, F H KUANG et al. Development and prospects of high strength pre-stressed ceramics. Journal of Inorganic Materials, 35, 399-408(2020).

[10] L LI, L L WAN, Q M ZHOU. Crack propagation during Vickers indentation of zirconia ceramics. Ceramics International, 46, 21311-21318(2020).

[11] D J GREEN. Compressive surface strengthening of brittle materials by a residual stress distribution. Journal of the American Ceramic Society, 66, 807-810(1983).

[12] M HIROYUKI, Y YOSHIZAWA. A reinvestigation of the validity of the indentation fracture (IF) method as applied to ceramics. Journal of the European Ceramic Society, 37, 4437-4441(2017).

[13] Test Method for Fracture Resistance of Silicon Nitride Materials for Rolling Bearing Balls at Room Temperature by Indentation Fracture (IF) Method. ISO 14627-2012(2012).

[14] Y HAN, S LI, T B ZHU et al. Enhanced properties of pure alumina ceramics by oscillatory pressure sintering. Ceramics International, 44, 5238-5241(2018).

[15] W Y DU, Y L AI, W HE et al. Formation and control of “intragranular” ZrO₂ strengthened and toughened Al₂O₃ ceramics. Ceramics International, 46, 8452-8461(2020).

[16] Y L LI, K HYOUN-EE, K YOUNG-HAG. Improving the surface hardness of zirconia toughened alumina (ZTA) composites by surface treatment with a boehmite sol.. Ceramics International, 38, 2889-2892(2012).

[17] V TEBALDO, G GAUTIER. Influences of evaluation methods and testing load on microhardness and Young’s modulus of ZTA and ATZ ceramics. Ceramics International, 39, 2683-2693(2013).

[18] Y YAO, G F ZHANG. Experimental study on pre-stress grinding process for alumina ceramic. Mining and Metallurgical Engineering, 37, 125-129(2017).

[19] M M CHAUDHRI, L Y CHEN. The catastrophic failure of thermally tempered glass caused by small-particle impact. Nature, 320, 48-50(1986).