Almandoz Sánchez, Eluxka
Loading...
Email Address
person.page.identifierURI
Birth Date
Job Title
Last Name
Almandoz Sánchez
First Name
Eluxka
person.page.departamento
Ciencias
person.page.instituteName
ORCID
person.page.observainves
person.page.upna
Name
- Publications
- item.page.relationships.isAdvisorOfPublication
- item.page.relationships.isAdvisorTFEOfPublication
- item.page.relationships.isAuthorMDOfPublication
4 results
Search Results
Now showing 1 - 4 of 4
Publication Open Access Mechanical performance of AlCrSiN and AlTiSiN coatings on inconel and steel substrates after thermal treatments(MDPI, 2022) Liang, Jing; Almandoz Sánchez, Eluxka; Ortiz Membrado, Laia; Rodríguez Lozano, Rafael; Fernández de Ara, Jonathan; García Fuentes, Gonzalo; Llanes, Luis; Jiménez-Piqué, Emilio; Ciencias; Zientziak; Ingeniería; Ingeniaritza; Institute for Advanced Materials and Mathematics - INAMAT2The objective of this study was to explore the mechanical properties of AlCrSiN and AlTiSiN coatings deposited on Inconel and steel substrates after thermal treatments of 500 °C and 800 °C. Nanoindentation was used to measure the hardness and elastic modulus of the coatings, and microindentation was used for observing the contact damage with Hertzian contact loadings. Microscratch and Mercedes tests were used to evaluate the adhesive strength between coating and substrate with both progressive and static loads, respectively. The surface damage was inspected by optical microscopy and scanning electron microscopy (SEM). Focus ion beams (FIB) were used to mill the cross-sections in order to detect the extent and mode of failure. The results show that AlCrSiN coatings and Inconel substrates exhibit better mechanical performance, even after thermal treatments.Publication Open Access Improvement of the tribocorrosion properties of cemented carbide (WC-Tic-Co) samples with PVD coating(MDPI, 2022) García Lorente, José Antonio; Claver Alba, Adrián; Marques, Mikel; Almandoz Sánchez, Eluxka; Fernández de Ara, Jonathan; Azkona, Ibon; Institute for Advanced Materials and Mathematics - INAMAT2This study aims to investigate the improvement of the tribocorrosion properties of WC-TiC-Co substrates by coating them with hard coatings such as AlCrSiN using cathodic arc deposition. WC-TiC-Co is commonly used in the fabrication of machining and cutting tools; however, there are some materials such as titanium or stainless steel that are difficult to work with; furthermore, in aggressive environments or under high temperatures the performance of the machining tools can be affected, and a failure may occur. This coating is intended to ensure the correct performance of the tools in any conditions. The coatings were characterized by glow discharge optical emission spectroscopy (GDOES), scanning electron microscopy (SEM) and X-ray diffraction (XRD). Tribocorrosion, tribology and corrosion tests were performed to evaluate the tribocorrosion properties of the samples. Furthermore, mechanical and adhesive properties of the coating were studied using scratch and nanoindentation tests. The results showed improved tribocorrosion properties in the samples combined with good adhesive and mechanical properties. These results show the possibility of using these coated materials in the most demanding cutting and machining applications.Publication Open Access Improved adhesion of cathodic arc PVD AlCrSiN coating on ion-implanted WC-Co substrates(Elsevier, 2023) Ortiz Membrado, Laia; García-González, Sandra; Orrit-Prat, Jordi; Bonet, Raül; Caro, Jaume; Fernández de Ara, Jonathan; Almandoz Sánchez, Eluxka; Llanes, Luis; Jiménez-Piqué, Emilio; Ciencias; ZientziakIon implantation has been shown to improve adhesion strength of AlCrSiN coatings due to a synergic enhancement on fracture toughness and load bearing capability of the substrate that can potentially increase the in-service efficiency of coated cutting tools. In this work, AlCrSiN coatings deposited by PVD on WC-Co substrates implanted with Ti, Cr and N ion species have been processed. The mechanical properties and adhesion have been characterized by contact techniques and the residual stress of the coatings and substrates have been evaluated using FIB-DIC technique and Vickers indentation tests, respectively. An improvement of adhesion strength is obtained for treated substrates, especially for those implanted with titanium and chromium ions. This improvement is attributed to the introduction of residual stresses in the substrate, which increases its fracture toughness and enhances its load bearing capability.Publication Open Access Comparative study of mechanical performance of AlCrSiN coating deposited on WC-Co and cBN hard substrates(MDPI, 2023) Liang, Jing; Serra, Marc; Gordon, Sandra; Fernández de Ara, Jonathan; Almandoz Sánchez, Eluxka; Llanes, Luis; Jiménez-Piqué, Emilio; Ciencias; ZientziakThe objective of this study is to explore and compare the mechanical response of AlCrSiN coatings deposited on two different substrates, namely, WC-Co and cBN. Nano-indentation was used to measure the hardness and elastic modulus of the coatings, and micro-indentation was used for observing the contact damage under Hertzian contact with monotonic and cyclic (fatigue) loads. Microscratch and contact damage tests were also used to evaluate the strength of adhesion between the AlCrSiN coatings and the two substrates under progressive and constant loads, respectively. The surface damages induced via different mechanical tests were observed using scanning electron microscopy (SEM). A focused ion beam (FIB) was used to produce a cross-section of the coating–substrate system in order to further detect the mode and extent of failure that was induced. The results show that the AlCrSiN coating deposited on the WC-Co substrate performed better in regard to adhesion strength and contact damage response than the same coating deposited on the cBN substrate; this is attributed to the lower plasticity of the cBN substrate as well as its less powerful adhesion to the coating.