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Rapid Obtaining of Nano-Hydroxyapatite Bioactive Films on NiTi Shape Memory Alloy by Electrodeposition Process

机译：电沉积工艺快速获得NITI形状记忆合金纳米羟基磷灰石生物活性薄膜

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Nano-hydroxyapatite (n-HA) crystalline films have been developed in this study by electrodeposition method on NiTi shape memory alloy (SMA). The electrodeposition of the n-HA films was carried out using 0.042 mol/L Ca(NO_3)_2 - 4H_2O + 0.025 mol/L (NH_4)-2HPO_4 electrolytes by applying a constant potential of —2.0 V for 120 min and keeping the solution temperature at 70 °C. The characterization of n-HA films is of special importance since bioactive properties related to n-HA have been directly identified with its specific composition and crystalline structure. AFM, XRD, EDX, FEG-SEM and Raman spectroscopy shows a homogeneous film, with high crystallinity, special composition, and bioactivity properties (Ca/P = 1.93) of n-HA on NiTi SMA surfaces. The n-HA coating with special structure would benefit the use of NiTi alloy in orthopedic applications.

机译：本研究通过电沉积法在NITI形状记忆合金（SMA）上进行了纳米羟基磷灰石（N-HA）结晶膜。通过施加-2.0V的恒定电位120分钟并保持溶液，使用0.042mol / L Ca（NO_3）_2-2-2-2-2HPO_4电解质进行N-HA膜的电沉积。温度在70°C。由于与N-HA相关的生物活性特性直接鉴定了其特定的组成和结晶结构，因此N-HA薄膜的表征具有特殊重要性。 AFM，XRD，EDX，FEG-SEM和拉曼光谱显示均匀膜，在NITI SMA表面上具有高结晶度，特殊组成和N-HA的生物活性性（CA / P = 1.93）。具有特殊结构的N-HA涂层将有益于矫形应用中的Niti合金。

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《International Conference on Shape Memory and Superelastic Technologies 》|2011年||共5页
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A.O. Lobo; J. Otubo; J.T. Matsushima;
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中图分类 TB3-532;
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crystallinity; electrodeposition; nano-hydroxyapatite; NiTi SMA;

机译：结晶度;电沉积;纳米羟基磷灰石;niti sma;

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1. Rapid Obtaining of Nano-Hydroxyapatite Bioactive Films on NiTi Shape Memory Alloy by Electrodeposition Process [J] . A. O. Lobo, J. Otubo, J. T. Matsushima, Journal of Materials Engineering and Performance . 2011 ,第4a5期

机译：电沉积法快速制备NiTi形状记忆合金上的纳米羟基磷灰石生物活性膜
2. Rapid Obtaining of Nano-Hydroxyapatite Bioactive Films on NiTi Shape Memory Alloy by Electrodeposition Process [J] . Journal of Materials Engineering and Performance . 2011 ,第4a5期

机译：电沉积法快速制备NiTi形状记忆合金上的纳米羟基磷灰石生物活性膜
3. Fabrication and characteristics of bioactive sodium titanate/titania graded film on NiTi shape memory alloy. [J] . Chu CL, Chung CY, Zhou J, Journal of biomedical materials research, Part A . 2005 ,第3期

机译：NiTi形状记忆合金上生物活性钛酸钠/二氧化钛梯度膜的制备及特性。
4. Rapid Obtaining of Nano-Hydroxyapatite Bioactive Films on NiTi Shape Memory Alloy by Electrodeposition Process [C] . A.O. Lobo, J. Otubo, J.T. Matsushima International Conference on Shape Memory and Superelastic Technologies . 2011

机译：电沉积工艺快速获得NITI形状记忆合金纳米羟基磷灰石生物活性薄膜
5. A Study on NiTiSn Low-Temperature Shape Memory Alloys and the Processing of NTiHf High-Temperature Shape Memory Alloys [D] . Young, Avery W. 2018

机译：Nitisn低温形状记忆合金的研究与NTIHF高温形状记忆合金的加工
6. In Search of the Optimal Conditions to Process Shape Memory Alloys (NiTi) Using Fused Filament Fabrication (FFF) [O] . Pedro Carreira, Fábio Cerejo, Nuno Alves, 2020

机译：在使用熔融灯丝制造（FFF）的过程中处理形状记忆合金（NITI）的最佳条件
7. 1 Laser Annealing of Amorphous NiTi Shape Memory Alloy Thin Films to Locally Induce Shape Memory Properties [O] . X. Wang A, Y. Bellouard B, J. J. Vlassak A 2015

机译：1非晶NiTi形状记忆合金薄膜的激光退火局部诱导形状记忆特性
8. Processing and characterization of Ni-Al-Fe-B shape-memory alloy wires produced by rapid solidification [R] . Easton, D. S., Liu, C. T., Horton, J. A., 1993

机译：快速凝固制备Ni-al-Fe-B形状记忆合金丝的加工和表征

Rapid Obtaining of Nano-Hydroxyapatite Bioactive Films on NiTi Shape Memory Alloy by Electrodeposition Process

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