Structural and Mechanical Properties of Radiofrequency Ar-N2 Plasma Nitrided Aluminium

Hassan, M.; Qayyum, A.; Ahmad, Shamim; Naseer, S.; Khattak, N. A. D.; Zakaullah, M.

doi:10.1590/1516-1439.315014

Cited by 5 publications

(10 citation statements)

References 34 publications

(39 reference statements)

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“…[ 28 ] It could also be attributed to the Ar bombardment during the welding cycles. [ 29 ] EDS test on the white colored regions have shown that they are composed of 36.83 at. % Cu, 21.96 at.…”

Section: Resultsmentioning

confidence: 99%

Formation, Enhanced Crystallization, Optical Absorption and Electrical Conduction in Copper Indium Selenide Thin Films Prepared via Pulse Laser Welding Technique

Khusayfan,

Khanfar,

Alharbi

2023

Cryst. Res. Technol.

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In this study, thin films of CuInSe2 (CIS) are expeditiously fabricated within 1 s utilizing the pulsed laser welding (PLW) technique. Preceding the PLW process, thin films of InSe (500 nm) are coated with Cu nanosheets of 60 and 120 nm thicknesses using vacuum coating systems. The optimal PLW parameters leading to the formation of CIS films include a pulse width of 1.0 ms, a spot diameter of 2.0 mm, and a repetition frequency of 10 Hz. The resulting CIS films exhibited a well‐crystalline cubic structure with lattice parameters of 5.265 Å. Surface morphology analyses revealed the preferential formation of porous films with varying stoichiometry, a characteristic that can be manipulated by adjusting laser welding parameters. The energy band gap and room temperature electrical conductivity display values of 1.80 eV and 2.06 × 10−5 (Ωcm)−1, respectively. Cu‐rich samples exhibit a wider energy band gap of 1.94 eV and lower electrical conductivity values of 4.78 × 10−7 (Ωcm)−1. The CIS film demonstrates n‐type conductivity attributed to the formation of donor levels centered at 0.24 and 0.10 eV. This study presents an ultrafast method for fabricating CIS films with physical properties compatible with those produced using traditional methods.

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Section: Resultsmentioning

confidence: 99%

Formation, Enhanced Crystallization, Optical Absorption and Electrical Conduction in Copper Indium Selenide Thin Films Prepared via Pulse Laser Welding Technique

Khusayfan,

Khanfar,

Alharbi

2023

Cryst. Res. Technol.

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“…Dengan terbentuk lapisan permukaan aluminium nitrida (AlN) dan aluminium oksida (Al2O3) dapat mengubah sifat-sifat fisis dan kimia dari permukaannya. Kondisi tambahan unsur nitrogen (N) dan oksigen (O) sesuai dengan yang dilakukan pada proses nitridasi alumunium menggunakan nitridasi plasma radio frekuensi yang dilakukan oleh Hassan [11] yaitu pada waktu nitridasi 3 jam, 6 jam dan 9 jam. Dari analisis unsur menggunakan EDS pada nitridasi ini diperoleh unsur nitrogen (N) dan oksigen (O) masing-masing (wt %) adalah: 3,99% N dan 12,44% O untuk 3 jam, 4,31% O dan 18,61% N untuk 6 jam serta 8,78% N dan 4,01% O untuk 9 jam serta untuk nitridasi dengan >12 jam tidak ada unsur oksigen [11].…”

Section: Hasil Dan Pembahasan Analisis Sruktur Mikro Hasil Uji Sem-edsunclassified

“…Kondisi tambahan unsur nitrogen (N) dan oksigen (O) sesuai dengan yang dilakukan pada proses nitridasi alumunium menggunakan nitridasi plasma radio frekuensi yang dilakukan oleh Hassan [11] yaitu pada waktu nitridasi 3 jam, 6 jam dan 9 jam. Dari analisis unsur menggunakan EDS pada nitridasi ini diperoleh unsur nitrogen (N) dan oksigen (O) masing-masing (wt %) adalah: 3,99% N dan 12,44% O untuk 3 jam, 4,31% O dan 18,61% N untuk 6 jam serta 8,78% N dan 4,01% O untuk 9 jam serta untuk nitridasi dengan >12 jam tidak ada unsur oksigen [11]. Hal ini dimungkinkan karena terjadinya reaksi Al2O3 dengan N2 sehingga terbentuk AlN dan O2 dengan reakasi sebagai berikut [12]:…”

Section: Hasil Dan Pembahasan Analisis Sruktur Mikro Hasil Uji Sem-edsunclassified

ANALISA PERMUKAAN MATERIAL ALUMINIUM PADUAN (AlSiCu) HASIL NITRIDASI ION

Suprapto

Sujitno²,

Taufik³

2016

gmin

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PENDAHULUANengan berkembangnya teknologi khususnya di bidang permesinan baik di bidang industri maupun otomotif maka pengembangan dan inovasi komponen-komponen permesinan makin bertambah. Pengembangan dan inovasi untuk kemajuan teknologi permesinan berbanding lurus dengan kebutuhan untuk mengembangkan bahan-bahan mekanik yang akan digunakan. Aluminium dan aluminium paduan merupakan bahan logam bukan besi (non ferro) yang dalam 3 sampai 5 dekade banyak sekali digunakan untuk konduktor (kabel) listrik, alat-alat transportasi (komponen mesin dan body), kemasan dan bangunan [1] . Didorong oleh kebutuhan konsumen dan peraturan yang makin ketat, industri otomotif telah banyak menggunakan aluminium untuk komponen-komponen D

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Section: Introductionmentioning

confidence: 99%

“…Plasma nitriding has various parameters that can be used to do the treatment, such as substrate temperature, processing times, processing chamber pressure, gas composition, and input voltage [6], [7]. Plasma nitriding is more economical than other surface treatment methods and it needs shorter time of processing treatment [6]. Plasma nitriding itself is a surface hardening process of a metallic material involving the deposition of nitride layer and nitrogen diffusion into the metallic material in a vacuum chamber by making nitrogen into a plasma using high voltage between two electrodes (cathode and anode), so that the deposition and diffusion of nitrogen occurred on the surface of the material [8], [9].…”

Section: Introductionmentioning

confidence: 99%

Study of Microstructural and Corrosion Properties of Aluminium Alloy 7075 after Plasma Nitriding

Ahmadi¹,

Aziz²,

Suprapto³

et al. 2020

jsmi

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Plasma nitriding is a treatment process of metals by depositing nitrogen into metal that considered to be nitrided by mean of increasing the mechanical, physical, and chemical properties of the metal. This treatment will form a hard layer compund of Al-N on the surface of the sample. In this study, aluminium alloy 7075 was nitrided which the application of it to structural part of aircraft makes it vulnarable to not only corrosion and wear attack but also decreasing the hardness of the material. One method to overcome these issues is plasma nitriding. The purpose of of this research is to do the characterizations of plasma nitrided aluminium alloy 7075 regarding its microstructure, mechanical, and chemical properties. The characterizations that had been done were microhardness Vickers testing, SEM-EDX, and electrochemical corrosion testing Potensiostat. The hardness of the sample increased 55% from 75,88 VHN (raw material) to 117,68 VHN (at optimum parameter). The depth of the white layer of plasma nitriding is approximately 6 µm, while the EDX result reported carbon, oxygen, and nitrogen presence. Corrosion testing showed that the highest corrosion rate is on the raw material, 0,15393 mpy. While the optimum one is 0,07184 mpy.

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Structural and Mechanical Properties of Radiofrequency Ar-N2 Plasma Nitrided Aluminium

Cited by 5 publications

References 34 publications

Formation, Enhanced Crystallization, Optical Absorption and Electrical Conduction in Copper Indium Selenide Thin Films Prepared via Pulse Laser Welding Technique

Formation, Enhanced Crystallization, Optical Absorption and Electrical Conduction in Copper Indium Selenide Thin Films Prepared via Pulse Laser Welding Technique

ANALISA PERMUKAAN MATERIAL ALUMINIUM PADUAN (AlSiCu) HASIL NITRIDASI ION

Study of Microstructural and Corrosion Properties of Aluminium Alloy 7075 after Plasma Nitriding

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