A Scientometric Review on Tribocorrosion in Hard Coatings

León, Ricardo Andrés García; García, Nelson Afanador; Guerrero-Gómez, G.

doi:10.1007/s40735-023-00759-4

Cited by 9 publications

(5 citation statements)

References 77 publications

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“…Researchers use the wealth of information gathered in Step II to conduct in-depth analyses and create scientific content. This phase aims to contribute valuable knowledge to the field, potentially resulting in research papers, reports, presentations, or other forms of scientific communication [59]. In addition, the workflow proposed by García-León et al, 2021 [56] was used to develop the BA in this work using the data compiled from the Scopus database step by step.…”

Section: Analysis Of Results and Discussion Using Excel R-studio And ...mentioning

confidence: 99%

Biomaterials in Concrete for Engineering Applications: A Bibliometric Review

Jaramillo,

Vasco-Echeverri,

Moreno-Pacheco

et al. 2023

Infrastructures

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The incorporation of biomaterials into concrete for engineering applications has gained significant attention in recent years due to its potential to enhance both the mechanical properties and sustainability of construction materials. This study conducts a comprehensive bibliometric analysis (BA) to examine the state of the research on utilizing biomaterials in concrete through the analysis of scientific production considering the information in the Scopus database. The BA provides insights into this interdisciplinary field’s evolution, trends, and global research landscape. Key aspects explored include the types of biomaterials employed, their impacts on concrete properties, and the environmental benefits associated with their masonry use. R-Software was used to analyze the scientific growth and topics (BA) in the field of biomaterials in concrete for industrial applications. The results exposed that biomaterials in concrete related to scientific production represent a total amount of 1558 documents published by 489 journals and 4521 authors, which represents an annual rate of 20.81% higher than other related topics, with India, the United Kingdom, and China being the most representative countries. Finally, this work exposes the growing interest in sustainable construction practices and the promising future of biomaterial-infused concrete in the engineering sector, seeking to advance the knowledge and application of biomaterials in concrete technology.

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Section: Analysis Of Results and Discussion Using Excel R-studio And ...mentioning

confidence: 99%

Biomaterials in Concrete for Engineering Applications: A Bibliometric Review

Jaramillo,

Vasco-Echeverri,

Moreno-Pacheco

et al. 2023

Infrastructures

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“…The flatness of the borided layer on the AISI 316L steel can be attributed to the presence of alloying elements that impede its expansion. It has been documented that chromium (Cr), nickel (Ni), and molybdenum (Mo) serve as diffusion barriers at the boundary between the borided layer and the substrate, in addition to a decreased concentration of carbon, silicon, and boron [16][17][18][19][20][21][22][23][24]. In addition, each chemical element contributes to the layer growth restriction; Cr is a key element in stainless steel alloys, including AISI 316L, known for its corrosion resistance properties, and it forms a protective passive oxide layer on the surface of the steel, which acts as a barrier to prevent further corrosion.…”

Section: Chemical Microstructure Of the Borided Aisi 316l Steelmentioning

confidence: 99%

“…Finally, these oxide layers act as barriers that impede boron diffusion into the material. As a result, the thickness and growth of the borided layer are limited, impacting the effectiveness of boriding treatments on this specific type of stainless steel [19]. also can form protective oxides (e.g., molybdenum oxide, MoO3) on which enhances the material's overall corrosion resistance.…”

Section: Chemical Microstructure Of the Borided Aisi 316l Steelmentioning

confidence: 99%

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Chemical Species Formed on FeB-Fe2B Layers during Wet Sliding Wear Test

García-León,

Afanador-García

2024

ChemEngineering

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In the present work, X-ray photoelectron spectroscopy (XPS) survey spectra of borided AISI 316L for two different times (1 and 6 h) of exposure to simulated body fluid (SBF) were obtained after wet sliding wear. A borided layer of ~39 microns was obtained on the surface of the AISI 316L stainless steel using the thermochemical treatment of boriding. As part of the mechanical and chemical characterization of sliding wear, Berkovich nanoindentation and X-ray spectroscopy tests were used to determine the main properties of the borided layer. The results of the specific wear rate values were higher at 5 mm/s sliding speed than those recorded at 30 mm/s due to the influence of the exposure time of the sample and the complex combinations of chemical reactions with boron (e.g., B2S3, Cr2O3, and Fe2O3) on the surface during the sliding during 6 h of exposure in Hank’s solution due to the formation of the passive film. The knowledge of chemical species formed during wet sliding wear tests on borided AISI 316L is essential for understanding wear mechanisms and materials’ performance and optimizing material properties and materials’ and components’ reliability in the biomedical industry for screws and fastening plates.

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“…This review primarily focuses on alloying design, while coatings and other surface modifications of metals and alloys are beyond the scope of this article. Readers interested in tribocorrosion of coatings may refer to several papers such as [10][11][12] for a focused review on the performance of coatings under combined wear and corrosion conditions.…”

Section: Introductionmentioning

confidence: 99%

A Review on Tribocorrosion Behavior of Aluminum Alloys: From Fundamental Mechanisms to Alloy Design Strategies

Zhang,

Dandu,

Klu

et al. 2023

CMD

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Tribocorrosion, a research field that has been evolving for decades, has gained renewed attention in recent years, driven by increased demand for wear- and corrosion-resistant materials from biomedical implants, nuclear power generation, advanced manufacturing, batteries, marine and offshore industries, etc. In the United States, wear and corrosion are estimated to cost nearly USD 300 billion per year. Among various important structural materials, passive metals such as aluminum alloys are most vulnerable to tribocorrosion due to the wear-accelerated corrosion as a result of passive film removal. Thus, designing aluminum alloys with better tribocorrosion performance is of both scientific and practical importance. This article reviews five decades of research on the tribocorrosion of aluminum alloys, from experimental to computational studies. Special focus is placed on two aspects: (1) The effects of alloying and grain size on the fundamental wear, corrosion, and tribocorrosion mechanisms; and (2) Alloy design strategies to improve the tribocorrosion resistance of aluminum alloys. Finally, the paper sheds light on the current challenges faced and outlines a few future research directions in the field of tribocorrosion of aluminum alloys.

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A Scientometric Review on Tribocorrosion in Hard Coatings

Cited by 9 publications

References 77 publications

Biomaterials in Concrete for Engineering Applications: A Bibliometric Review

Biomaterials in Concrete for Engineering Applications: A Bibliometric Review

Chemical Species Formed on FeB-Fe2B Layers during Wet Sliding Wear Test

A Review on Tribocorrosion Behavior of Aluminum Alloys: From Fundamental Mechanisms to Alloy Design Strategies

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