参考文献

参考文献

［1］王焕英，张萍，国占生，等.纳米氧化锆复合陶瓷粉体的制备及应用研究进展［J］.人工晶体学报，2007，36（1）：161-165.

［2］吴建光，李建保，黄勇.晶须增韧陶瓷基复合材料的设计要点与复合技术［J］.硅酸盐学报，1990（1）：72-82.

［3］杨成，张成华，许健，等.氧化锆催化合成气直接转化制芳烃［J］.燃料化学学报，2016，44（7）：837-844.

［4］Aarab N，Laabd M，Eljazouli H，et al.Experimental and DFT studies of the removal of pharmaceutical metronidazole from water using polypyrrole［J］.International Journal of Industrial Chemistry，2019，10（3）：269-279.

［5］Chen W，Voisin T，Zhang Y，et al.Microscale residual stresses in additively manufactured stainless steel［J］.Nature Communications，2019（10）：49-54.

［6］Chen Z Z，Shi E W，Xiao B，et al.Progress in SiC single crystal growth research［J］.Mater Rev，2002（16）：32-34.

［7］Chu J M，Claus B，Lim B H，et al.Rate effects on fiber-matrix interfacial transverse debonding behavior［J］.Journal of Composite Materials，2020，54（4）：501-517.

［8］Gürgen S，Majumdar A.Tuning the Frictional Properties of Carbon Fabrics Using Boron Carbide Particles［J］.Fibers and Polymers，2019，20（4）：725-731.

［9］He Y，Zhong L，Fan F，et al.In situ observation of shear-driven amorphization in silicon crystals［J］.Nature Nanotechnology，2016（11）：866-871.

［10］Li R，Xie Q，Wang Y D，et al.Unraveling submicron-scale mechanical heterogeneity by threedimensional X-ray microdiffraction［J］.Proceedings of the National Academy of Sciences of the USA，2018（115）：483-488.

［11］Li X B，Shi E W，Chen Z Z，et al.Temperature-dependent Raman property of Al-doped 6H-SiC crystals［J］.J Inorganic Mater，2008（23）：238-242.

［12］Liu X H，Wang J W，Huang S，et al.In situ atomic-scale imaging of electrochemical lithiation in silicon［J］.Nature Nanotechnology，2012（7）：749-756.

［13］Liu X H，Wang J W，Huang S，et al.n situ atomic-scale imaging of electrochemical lithiation in silicon［J］.Nature Nanotechnology，2012，（7）：749-756.

［14］Perez R A，Patel K D，Kim H W.Novel magnetic nanocomposite injectables：Calcium phosphate cements impregnated with ultrafine magnetic nanoparticles for bone regeneration［J］.RSC Adv，2015（5）：13411-1341.

［15］Shi E W，Yuan R L，Chen Z Z，et al.An introduction to computational crystallography：The relationship between aluminum-based spinel structures and their morphologies［J］.Science China Techotogical Sciences，2003（33）：1-10.(https://www.daowen.com)

［16］Wang J W，Narayanan S，Huang J Y，et al.Atomic-scale dynamic process of deformation-induced stacking fault tetrahedra in gold nanocrystals［J］.Nature Communications，2013（4）：2340.

［17］Wang J W，Narayanan S，Huang J Y，et al.Atomic-scale dynamic process of deformation-induced stacking fault tetrahedra in gold nanocrystals［J］.Nature Communications，2013（4）：2340.

［18］Wang J W，Zeng Z，Weinberger C R，et al.In situ atomic-scale observation of twinning-dominated deformation in nanoscale body-centred cubic tungsten［J］.Nature Materials，2015（14）：594-600.

［19］Wang L，Guan P，Teng J，et al.New twinning route in face-centered cubic nanocrystalline metals［J］.Nature Communications，2017（8）：2142.

［20］Wang X，Fan F，Wang J W，et al.High damage tolerance of electrochemically lithiated silicon［J］.Nature Communications，2015（6）：8417.

［21］Wang Y M，Voisin T，McKeown J T，et al.Additively manufactured hierarchical stainless steels with high strength and ductility［J］.Nature Materials，2018（17）：63-71.

［22］Yuan R L，Shi E W，Li W J，et al.The growth units and hydrothermal preparation of lead tungstate（PbWO4）crystallites［J］.Science China Techotogical Sciences，2000（30）：22-28.

［23］Zhang P，Ma L，Fan F，et al.Fracture toughness of graphene［J］.Nature Communications，2014（5）：3782.

［24］Zhang P，Ma L，Fan F，et al.Fracture toughness of graphene［J］.Nature Communications，2014（5）：3782.

［25］Zhong W Z，Yu X L，Luo H S，et al.Growth units and forming mechanism of KDP crystals［J］.Science China Techotogical Sciences，1998（28）：320-324.

［26］Zhu T，Li J，Samanta A，et al.Temperature and strain-rate dependence of surface dislocation nucleation［J］.Physical Review Letters，2008（100）：025502.

［27］Zhu T，Li J.Ultra-strength materials［J］.Progress in Materials Science，2010（55）：710-757.

【注释】

[1]碳纳米管。