[1] | ZHAO Yonggang,ZHANG Chungang,WANG Hui,et al. Research and Application of Chemical Milling Processing for Titanium Alloy[J]. Surf Tech,2009,38(6):83-86(in Chinese). 赵永岗,张春刚,王辉,等. 化学铣切在钛合金加工中的研究及应用[J]. 表面技术,2009,38(6):83-86. | [2] | Sun J,Guo Y B.Characteristics of 3D Chip Morphology and Properties in End Milling Titanium Alloy Ti-6Al-4V[J]. Int J Adv Manuf Tech,2008,38(13):1-9. | [3] | QI Yunlian,DENG Ju,HONG Quan,et al. Hydrogen Absorption and Effect Occured During Chemical Milling of Ti and Ti Alloy[J]. Aeronaut Manuf Tech,2000,2:30-32(in Chinese). 戚运莲,邓炬,洪权,等. 钛和钛合金化学铣切中的吸氢及其影响[J]. 航空制造技术,2000,2:30-32. | [4] | Eriksson T.Determination of Hydrofluoric Acid in Strong Acid Solutions such as Stainless Picking Baths with a Lanthanum Fluoride Electrode and a Permaplex Membrane Electrode[J]. Anal Chim Acta,1973,65:417-424. | [5] | Henβge A, Acker J.Chemical Analysis of Acidic Silicon Etch SolutionsⅠ.Titrimetric Determination of HNO3, HF, and H2SiF6[J]. Talanta,2007,73(2):220-226. | [6] | Croomes E F,Mcnutt R C.Determination of Hydrofluoric Acid in Inhibited Red Fuming Nitric Acid[J]. Analyst,1968,93(1112):729-731. | [7] | Lingane J J.A Study of the Lanthanum Fluoride Membrane Electrode for End Point Detection in Titrations of Fluoride with Thorium,Lanthanum, and Calcium[J]. Anal Chem,1967,39(8):881-887. | [8] | Abramovic B F,Gaál F F,Cvetkovi S D,et al. Titrimetric Determination of Fluoride in Some Pharmaceutical Products Used for Fluoridation[J]. Talanta,1992,39(5):511-515. | [9] | Weinreich W,Acker J,Gr ber I. Determination of Total Fluoride in HF/HNO3/H2SiF6 Etch Solutions by New Potentiometric Titration Methods[J]. Talanta,2007,71(5):1901-1905. | [10] | QIAO Yonglian,SHA Chunpeng,ZHANG Min,et al. EDTA Titrimetric Determination of Fluorion in Chemical Milling Solution and Acid Pickling Solution for Titanium Alloys[J]. Phys Test Chem Anal:Part B:Chem Anal,2016,52(6):652-655(in Chinese). 乔永莲,沙春鹏,张敏,等. EDTA滴定法测定钛合金化铣液和酸洗液中氟的含量[J]. 理化检验-化学分册,2016,52(6):652-655. | [11] | Lori E G,Benjamin D Y,Matt L,et al. Solution-Grown Zinc Oxide Nanowires[J]. Inorg Chem,2006,45(19):7535-7543. | [12] | Xie S F,Zheng B J,Qin K,et al. Synthesis of Layered Protonated Titanate Hierarchical Microspheres with Extremely Large Surface Area for Selective Adsorption of Organic Dyes[J]. Cryst Eng Comm,2012,14(22):7715-7720. | [13] | Han X G,Zheng B J,Ouyang J J,et al. Control of Anatase TiO2 Nanocrystals with a Series of High-Energy Crystal Facets via a Fluorine-Free Strategy[J]. Chem Asian J,2012,7(11):2538-2542. | [14] | Li J M,Yu Y X,Chen Q W,et al. Controllable Synthesis of TiO2 Single Crystals with Tunable Shapes Using Ammonium-Exchanged Titanate Nanowires as Precursors[J]. Cryst Growth Des,2010,10(5):2111-2115. | [15] | Serre C,Corbière T,Lorentz C,et al. Hydrothermal Synthesis of Nanoporous Metalofluorophosphates.1.Precursor Solutions of Titanium Fluoride and Fluorophosphates in Water, a 19F and 31P NMR Study[J]. Chem Mater,2002,14(12):4939-4947. | [16] | Gutiérrez-Tauste D,Domènech X,Domingo C,et al. Hexafluorotitanate Salts Containing Organic Cations: Use as a Reaction Medium and Precursor to the Synthesis of Titanium Dioxide[J]. Chem Commun,2007,44:4659-4661. |
|