Studi Simulasi Optimasi Parameter Proses Implantasi ION Nitrogen Multi Energi ke Dalam Permukaan SS 316L Menggunakan Program SRIM

IF 0.7 Q3 ENGINEERING, MULTIDISCIPLINARY

journal of engineering science and technology Pub Date : 2023-01-17 DOI:10.47134/jesty.v1i1.4

Haerul Ahmadi, B. B. Sujitno, Yudithia Balo Tarigas, Andi Rosman N.

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Abstract

Nitrogen ion implantation at 50 keV of energy on the surface of SS 316 stainless steel, by calculation will only be able to reach a depth of 561 Å and the ions will be distributed Gaussian effectively at a depth of 561 Å ± 339 Å, so that from the surface to a depth of 222 Å is not filled by ions (empty) which of course will affect the properties of the implanted surface. The solution to the problem is to implant the target several times at <50 keV of energy. To minimize the un-filled volume, the study of simulation and calculation has been conducted. In this study a simulation using TRIM program to know how many times the target should be implanted at different energies and also the calculation of the amount of nitrogen ions that should be implanted, so that the distribution of nitrogen ions can be evenly distributed from the surface to 561 Å. From the results of simulations and calculations the results show that the target must be implanted at least 6 times implantation at energy 50 keV,40 keV, 30 keV, 20 keV and 10 keV. Under these conditions the dose that must be implanted are 7,4×1017ion/cm2, 6,44×1017ion/cm2, 4,6×1017 ion/cm2, 3×1017 ion/cm2 and 1,6×1017 ion/cm2. The total doses and amount of nitrogen filling the implanted volume are 7,32%..

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利用SRIM计划，研究316L将多能量氮植入SS 316L表面的参数优化过程

通过计算，在SS 316不锈钢表面以50keV能量进行的氮离子注入将只能达到561Å的深度，并且离子将在561å±339Å深度处有效地高斯分布，因此从表面到222Å深度的离子不会被填充（空的），这当然会影响注入表面的性能。该问题的解决方案是以<50keV的能量多次植入靶。为了最大限度地减少未填充体积，进行了模拟和计算研究。在这项研究中，使用TRIM程序进行模拟，以了解在不同能量下应注入多少次目标，以及应注入的氮离子量的计算，从而使氮离子的分布可以从表面均匀分布到561Å。根据模拟和计算的结果，结果表明靶必须以50keV、40keV、30keV、20keV和10keV的能量注入至少6次。在这些条件下，必须植入的剂量为7,4×1017ion/cm2、6,44×1017ions/cm2、4,6×1017ion/cm2、3×1017ion/cm2和1,6×1017 ion/cm2。填充植入体积的氮的总剂量和量为7,32%。。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

journal of engineering science and technology Engineering-Engineering (all)

CiteScore

1.70

自引率

16.70%

发文量

审稿时长

12 weeks

期刊介绍： JESTEC (Journal of Engineering Science and Technology) is a peer-reviewed journal that aims at the publication and dissemination of original research articles on the latest developments in all fields of engineering science and technology. The journal publishes original papers in English, which contribute to the understanding of engineering science and improvement of the engineering technology and education. Papers may be theoretical (including computational), experimental or both. The contribution should be unpublished before and not under consideration for publication elsewhere.

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