Effect of nitrogen and molybdenum ion implantation in the tribological behavior of AA7075 aluminum alloy

Figueroa, R.; Abreu, C.M.; Cristóbal, M.J.; Peña, G.

doi:10.1016/j.wear.2011.12.005

Cited by 40 publications

(18 citation statements)

References 24 publications

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“…Passive layers on the surface of stainless steel were also formed in order to improve its resistance to chemically aggressive environment [19]. The increase in hardness as well as elastic modulus of Mo implanted aluminum alloy was also observed [20]. High-uence (up to 5 × 10 17 cm −2 ) implantations of zirconium and zircaloy-4 were applied in order to study changes of aqueous corrosion resistance with the implantation uence [21,22].…”

Section: Production Of Momentioning

confidence: 99%

Production of Mo⁺Beams Using an Arc Discharge Ion Source

et al. 2014

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A new method of Mo+ ion beam production is presented in the paper. The method bases on the chemical sputtering/etching of the molybdenum parts (e.g. anode) of the arc discharge ion source by the chloride containing plasma. A mixture of CCl4 (or CHCl3) vapor and air was used as the feeding substance. The separated Mo + beam current of approximately 18 µA was achieved. The measurements of the ion current dependences on the discharge and lament currents as well as on the magnetic eld ux density from the electromagnet surrounding the discharge chamber were performed in order to nd the optimal working parameters of the ion source.

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Section: Production Of Momentioning

confidence: 99%

Production of Mo⁺Beams Using an Arc Discharge Ion Source

et al. 2014

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“…Compared with coating process, it does not involve the additional layer on the surface of sample [2]. Ion implantation can modify the surfaces of materials to improve their mechanical properties such as hardness [3], friction coefficient [4], wear resistance [5] and fatigue resistance [6]. There are many factors which affect the final quality of treated surfaces.…”

Section: Introductionmentioning

confidence: 99%

Nitrogen ion implantation on the mechanical properties of AISI 420 martensitic stainless steel

Zhang

Peng

Zhang

et al. 2016

Surface and Coatings Technology

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Nitrogen ions with different energy of 30 keV and 50 keV and dose of 5×10 16 , 5×10 17 and 1×10 18 cm -2 were implanted into the surface of AISI 420 martensitic stainless steel. The micro topography, roughness, friction coefficient, wear loss, hardness, as well as the chemical composition were investigated. Mounds and craters were found on the ion implanted surfaces, indicating increases in the roughness. However, very little changes in friction coefficient were detected after implantation. Nitrogen ions implantation on AISI 420 significantly improved the nanohardness, and the value of 16.2 GPa at the depth of 17.3 nm was about 2.3 times as hard as the untreated samples at the same depth when the implant energy and dose were 50 keV and 5×10 16 cm -2 , respectively. The wear loss of the implanted samples was less than that of untreated ones, and an optional dose of 5×10 17 cm -2 could be used for the wear resistance improvement. XPS results demonstrated that chromium nitrides were produced during ion implantation, which possibly contributes to the improvements of the hardness and wear resistance. The N 1s core spectra showed that nitrogen oxides was found in the samples with higher implantation dose, which had counteraction for the improvements of the hardness. 2

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“…A serious disadvantage of Ti6Al4V alloy is its poor performance in sliding, hardness and wear [7,8]. Ion implantation may be a useful process for modifying the tribomechanical surface properties of many materials, such as metals and industrial alloys -mainly stainless steels, titanium alloys, aluminium alloys, ceramics and polymers [9][10][11][12]. Ion implantation may produce new metastable, amorphous and crystalline phases and solid solutions.…”

Section: Introductionmentioning

confidence: 99%

The microstructure and surface hardness of Ti6Al4V alloy implanted with nitrogen ions at an elevated temperature

Vlcak

Cerny

Drahokoupil

et al. 2015

Journal of Alloys and Compounds

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Effect of nitrogen and molybdenum ion implantation in the tribological behavior of AA7075 aluminum alloy

Cited by 40 publications

References 24 publications

Production of Mo⁺Beams Using an Arc Discharge Ion Source

Production of Mo⁺Beams Using an Arc Discharge Ion Source

Nitrogen ion implantation on the mechanical properties of AISI 420 martensitic stainless steel

The microstructure and surface hardness of Ti6Al4V alloy implanted with nitrogen ions at an elevated temperature

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Effect of nitrogen and molybdenum ion implantation in the tribological behavior of AA7075 aluminum alloy

Cited by 40 publications

References 24 publications

Production of Mo+Beams Using an Arc Discharge Ion Source

Production of Mo+Beams Using an Arc Discharge Ion Source

Nitrogen ion implantation on the mechanical properties of AISI 420 martensitic stainless steel

The microstructure and surface hardness of Ti6Al4V alloy implanted with nitrogen ions at an elevated temperature

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Product

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Production of Mo⁺Beams Using an Arc Discharge Ion Source

Production of Mo⁺Beams Using an Arc Discharge Ion Source