参考文献

参考文献

［1］顾军渭，张秋禹，王小强，碳化硅/环氧树脂导热复合材料的制备与性能［J］.中国胶粘剂，2010（19）：18-22

［2］李军，谭周建，廖寄乔，等.C/C复合材料表面原位生长SiCw的工艺［J］.中国有色金属，2012（22）：427-433.

［3］梁宝岩，王艳芝，张旺玺.金刚石颗粒表面形成氧化铝晶须的研究［J］.中国陶瓷，2015（12）：31-34.

［4］罗学涛，陈小君，黄前军，等.定向SiC晶须增韧Si3N4陶瓷的制备及热震性能研究［J］.无机材料学报，2004（19）：553-5583.

［5］张梁.一维纳米氧化铝及氧化铝晶须的制备与表征［J］.中国优秀硕士学位论文全文数据库工程科技Ⅰ辑，2012，7（15）：20-232.

［6］周宏明，柳公器，肖来荣，等.Si3N4 p-SiCw/MoSi2复合材料的强韧化效果与机制［J］.机械工程材料，2009（33）：46-49

［7］Baldacim S，Santos C，Silva O，et al.Mechanical properties evaluation of hot-pressed Si3N4-SiC（w）composites［J］.International Journal of Refractory Metals and Hard Materials，2003（21）：233-239.

［8］Brendan A P，Sodano H A.Enhanced interfacial strength and UV shielding of aramid fiber composites through ZnO nanoparticle sizing［J］.ACS Applied Materials & Interfaces 2016，8（49）：33963-33971.

［9］Chen H，Zheng Y Q，Chen J J，et al.Observation on macroscopical growth defect of the stoichiometric LiNbO3 crystal［J］.Journal of Synthetic Crystals，2005（34）：671-675.

［10］Dai Y，Zhang Y，Li Q K，et al.Synthesis and optical properties of tetrapod-like zinc oxide nanorods［J］.Chemical Physics Letters，2002，358（1）：83-86.

［11］Ding Q，Xu X，Yue Y Y，et al.Nanocellulose-mediated electroconductive self-healing hydrogels with high strength，plasticity，viscoelasticity，stretchability，and biocompatibility toward multifunctional applications［J］.ACS Applied Materials & Interfaces 2018，10（33）：27987-28002.

［12］Dixit P，Ghosh A，Majumdar A.Hybrid approach for augmenting the impact resistance of p-aramid fabrics：grafting of ZnO nanorods and impregnation of shear thickening fluid［J］.Journal of Materials Science，2019，54（20）：13106-13117.

［13］Kim B J，Cha S H，Kang G H，et al.Interfacial control through ZnO nanorod growth on plasmatreated carbon fiber for multiscale reinforcement of carbon fiber/polyamide 6 composites［J］.Materials Today Communications，2018（17）：438.

［14］Li L M，Sbardella F，Bavasso I，et al.Tailoring the interfacial strength of basalt fibres/epoxy composite with ZnO-nanorods［J］.Composite Interfaces，2020（132）：1-23.

［15］Li S，Wang C，Wang T M，et al.Improving interfacial compatibility by a micro-nano synergetic structure for high-performance epoxy composites［J］.Journal of Applied Polymer Science，2020，137（40）：49195(https://www.daowen.com)

［16］Li W J，Shi E W，Xia C T，et al.Epitaxy of ZrO2 powders prepared by hydrothermal salt solution hydrolysis method［J］.Journal of Synthetic Crystals，1998（27）：65-69.

［17］Li W J，Shi E W，Zhong W Z，et al.Formation of oxide dendrite crystal under hydrothermal condition［J］.Journal of Synthetic Crystals，1999（28）：54-57.

［18］Lin J W，Wang L L，Liu L M，et al.Two-stage interface enhancement of aramid fiber composites：Establishment of hierarchical interphase with waterborne polyurethane sizing and oxazolidonecontaining epoxy matrix［J］.Composites Science and Technology，2020（193）：108114.

［19］Liu X C，Chen Z Z，Shi E W，et al.Recent progress in the magnetism theory of ZnO-based diluted magnetic semiconductors［J］.Journal of Inorganic Maters，2009（24）：1-7.

［20］Liu X C，Shi E W，Song L X，et al.Magnetic and optical properties of Co doped ZnO powders synthesized by solid-state rection［J］.Acta Physica Sinica，2006（55）：2557-2561.

［21］Liu Y，Liu M X，Yang S，et al..Liquid crystalline behaviors of chitin nanocrystals and their reinforcing effect on natural rubber［J］.ACSSustainable Chemistry & Engineering，2018，6（1）：325-336.

［22］Nasser J，Steinke K，Hwang H S，et al.Nanostructured ZnO interphase for carbon fiber reinforced composites with strain rate tailored interfacial strength［J］.Advanced Materials Interfaces，2020，7（1）：1901544.

［23］Selvam S N C，Narayanan S，Kennedy L J，et al.Pure and Mg-doped self-assembled ZnO nanoparticles for the enhanced photocatalytic degradation of 4-chlorophenol［J］.Journal of Environmental Sciences.2013，25（10）：2157-2167.

［24］Shi S H，Yang C H，Nie M.Enhanced interfacial strength of natural fiber/polypropylene composite with mechanical-interlocking interface［J］.ACS Sustainable Chemistry & Engineering，2017，5（11）：10413-10420

［25］Xu S M，Xiao L，Zhao S L，et al.Multistaged discharge constructing heterostructure with enhanced solid-solution behavior for long-life lithium-oxygen batteries［J］.Nature Communications，2019（10）：158.

［26］Yang C，Han R，Nie M，et al..Interfacial reinforcement mechanism in poly（lactic acid）/natural fiber biocomposites featuring ZnO nanowires at the interface［J］.Materials & Design 2020（186）：108332.

［27］Zheng K，Xu C X，Zhua G P，et al.Formation of tetrapod and multipod ZnO whiskers［J］.Physica E：Low-dimensional Systems and Nanostructures，2008，40（8）：2677-2681.

［28］Zheng Y Q，Shi E W，Wang S H，et al.Investigation of constitutional supercooling and critical growth rate of stoichiometric lithium niobate crystal［J］.Journal of Synthetic Crystals，2005（34）：571-575.

［29］Zheng Y Q，Shi E W，Yuan R L，et al.Hydrothermal preparation and formation mechanism of titanium dioxide microcrystallites［J］.Science China Technological Sciences，1999（29）：206-213.

［30］Zhou Y，Tu S T，Xie X S.Preparation of iron oxide nanoparticles by a pyrosol technique［J］.Key Engineering Materials，2007（353-358）：2175-2178.