Investigations on dose distribution effects in the interface of plate of Titanium alloys irradiated by photon beam

机译：光子束辐照钛合金板界面的剂量分布效应研究

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Because it is absolutely inert in the human body, immune to attack from bodily fluids, compatible with bone growth, and strong and flexible, titanium is the most biocompatible of all metals. The purpose of this study was to investigate the dosimetric effect of various cerebral implant Titanium plate thickness (0.05-1.cm) irradiated by 4 MV photon beam using Monte Carlo (Fluka). The simulations result shows that increasing thicknesses of the Ti plate rise the dose deposition near to plate. Also the dose deposition is varying when the Ti plate is set in different depth from the surface of the water equivalent phantom (for example the dose deposition decrease about 8% for 1cm). The second part of this study is dedicate to investigate the effect of scattered radiation produced in a cerebral implant for various materials including Ti alloys such as Ti-6Al-7Nb, Ti-6Al-4V(α) and Ti-6Al-4V(β).

机译：由于钛在人体中是绝对惰性的，对体液的攻击具有免疫力，与骨骼生长相容，并且坚固而灵活，因此钛是所有金属中生物相容性最高的。这项研究的目的是研究使用蒙特卡罗（Fluka）用4 MV光子束辐照的各种大脑植入物钛板厚度（0.05-1.cm）的剂量学效应。仿真结果表明，Ti板厚度的增加增加了靠近板的剂量沉积。同样，当将Ti板放置在距水幻影表面不同深度处时，剂量沉积也会发生变化（例如，剂量沉积在1cm处减少约8％）。本研究的第二部分专门研究大脑植入物中产生的散射辐射对各种材料的影响，这些材料包括Ti合金，例如Ti-6Al-7Nb，Ti-6Al-4V（α）和Ti-6Al-4V（β））。

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《International Conference on Advancements in Nuclear Instrumentation Measurement Methods and their Applications》|2013年|1-6|共6页
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Ouardi A.; Askour A.; Benchekroun D.; Tamri H.;
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FLUKA simulation; Titanium alloys plate; bacscatted gamma; dose distributions;

机译：FLUKA模拟;钛合金板;下沉γ;剂量分布;

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专利

1. Dose distribution near thin titanium plate for skull fixation irradiated by a 4-MV photon beam [J] . Tomohiro Shimozato, Keisuke Yasui, Ryota Kawanami, Journal of Medical Physics/Association of Medical Physicists of India . 2010,第2期

机译：4-MV光子束辐照用于固定颅骨的薄钛板附近的剂量分布
2. Investigation of the effects of a carbon-fiber tabletop on the surface dose and attenuation dose for megavoltage photon beams [J] . G. Gursoy, E. Eser, I. Yigitoglu, Iranian journal of radiation research : . 2018,第2期

机译：碳纤维桌面对MegVolge光子束表面剂量和衰减剂量的研究
3. A MODEL FOR FORECASTING THE DOSE DISTRIBUTIONS IN A LOW ATOMIC-NUMBER MATERIAL WHEN IRRADIATED WITH A BEAM OF GAMMA PHOTONS [J] . O. A. Akatkin Measurement techniques . 2010,第1期

机译：γ射线束辐照低原子序数材料中的剂量分布预测模型
4. Investigations on dose distribution effects in the interface of plate of Titanium alloys irradiated by photon beam [C] . Ouardi A., Askour A., Benchekroun D., International Conference on Advancements in Nuclear Instrumentation Measurement Methods and their Applications . 2013

机译：光子束照射钛合金板界面中剂量分布效应的研究
5. Comparison of MCNPX and measured doses at interfaces for photon and electron beams. [D] . Campos, Robin L. 2006

机译：比较MCNPX和光子和电子束界面处的测量剂量。
6. Simulation and Experimental Study on Residual Stress Distribution in Titanium Alloy Treated by Laser Shock Peening with Flat-Top and Gaussian Laser Beams [O] . Xiang Li, Weifeng He, Sihai Luo, 2019

机译：平顶高斯激光束冲击冲击处理钛合金残余应力分布的模拟与实验研究
7. Dose distribution near thin titanium plate for skull fixation irradiated by a 4-MV photon beam [O] . Shimozato, Tomohiro, Yasui, Keisuke, Kawanami, Ryota, 2010

机译：4-MV光子束辐照用于固定颅骨的薄钛板附近的剂量分布
8. Interface Effects on Dose Distributions in Irradiated Media [R] . Wright, H. A., Hamm, R. N., Turner, J. E. 1980

机译：辐照介质中剂量分布的界面效应

Investigations on dose distribution effects in the interface of plate of Titanium alloys irradiated by photon beam

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