Edição |
Seção |
Título |
Arquivo |
Volume 7, Nº 3 (2016) |
Plasma Chemical Methods of Production and Treatment of Materials |
Effect of electromechanical treatment on the structure and microhardness of plasma coating from Cr–Mn steel |
|
Volume 7, Nº 3 (2016) |
Functional Coating and Surface Treatment |
Structure and shear strength of implants with plasma coatings |
|
Volume 7, Nº 4 (2016) |
Article |
Hydroxyapatite-based coatings for intraosteal implants |
|
Volume 7, Nº 4 (2016) |
Article |
Structure and mechanical properties of three-dimensional capillary-porous titanium coatings on intraosteal implants |
|
Volume 8, Nº 2 (2017) |
Materials for Support of Human Activity and Environmental Protection |
The shear strength of Ti–HA composite coatings for intraosseous implants |
|
Volume 8, Nº 3 (2017) |
Functional Coatings and Surface Treatment |
The boundary between the hydroxyapatite coating and titanium substrate |
|
Volume 9, Nº 1 (2018) |
Article |
Composite Coatings Based on Low-Temperature Calcium Phosphates for Intraosseous Implants |
|
Volume 9, Nº 2 (2018) |
General Purpose Materials |
Variation of Contents of Carbon, Nitrogen, and Oxygen upon Formation of Plasma Cermet Coatings with Steel Matrix Reinforced with Titanium Carbide |
|
Volume 9, Nº 3 (2018) |
Functional Coatings and Surface Treatment |
Structure and Wear Resistance of Plasma Coatings Sputtered Using TiC + HSS Binder Composite Powder |
|
Volume 9, Nº 5 (2018) |
Materials for Ensuring Human Vital Activity and Environmental Protection |
Shear Strength of the Cylindrical Titanium Implant–Plastic System |
|
Volume 10, Nº 2 (2019) |
General Purpose Materials |
Cermet Plasma TiC–Cr3C2–NiCr–Mo–C Coatings |
|
Volume 10, Nº 3 (2019) |
Plasmochemical Methods of Production and Treatment of Materials |
Cermet Plasma Coatings with Titanium Carbide |
|
Volume 10, Nº 5 (2019) |
General-Purpose Materials |
Cermet Plasma Coatings Based on Silicon Carbide |
|