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Image Search Results


Figure 2. Architecture of the (a) CrN-DLC coating and (b) the DLC-W multilayer coating.

Journal: Coatings

Article Title: Elevated Temperature Tribological Behavior of Duplex Layer CrN/DLC and Nano Multilayer DLC-W Coatings Deposited on Carburized and Hardened 16MnCr5 Steel

doi: 10.3390/coatings14091197

Figure Lengend Snippet: Figure 2. Architecture of the (a) CrN-DLC coating and (b) the DLC-W multilayer coating.

Article Snippet: Coatings 2024, 14, x FOR PEER REVIEW 4 of 21 The as-deposited CrN/DLC and DLC-W coatings' surface topography was obtained using a Bruker, multimode 8, Atomic Force Microscope (AFM), with a silicon nitride tip of k ~ 0.5 N/m.

Techniques:

Figure 4. AFM images: (a) CrN/DLC, (b) DLC-W.

Journal: Coatings

Article Title: Elevated Temperature Tribological Behavior of Duplex Layer CrN/DLC and Nano Multilayer DLC-W Coatings Deposited on Carburized and Hardened 16MnCr5 Steel

doi: 10.3390/coatings14091197

Figure Lengend Snippet: Figure 4. AFM images: (a) CrN/DLC, (b) DLC-W.

Article Snippet: Coatings 2024, 14, x FOR PEER REVIEW 4 of 21 The as-deposited CrN/DLC and DLC-W coatings' surface topography was obtained using a Bruker, multimode 8, Atomic Force Microscope (AFM), with a silicon nitride tip of k ~ 0.5 N/m.

Techniques:

Figure 6. 3D and 2D image of wear track for DLC-W coated tappet (a,b) 25 ◦C (c,d) 150 ◦C (e,f) 200 ◦C (g,h) 250 ◦C.

Journal: Coatings

Article Title: Elevated Temperature Tribological Behavior of Duplex Layer CrN/DLC and Nano Multilayer DLC-W Coatings Deposited on Carburized and Hardened 16MnCr5 Steel

doi: 10.3390/coatings14091197

Figure Lengend Snippet: Figure 6. 3D and 2D image of wear track for DLC-W coated tappet (a,b) 25 ◦C (c,d) 150 ◦C (e,f) 200 ◦C (g,h) 250 ◦C.

Article Snippet: Coatings 2024, 14, x FOR PEER REVIEW 4 of 21 The as-deposited CrN/DLC and DLC-W coatings' surface topography was obtained using a Bruker, multimode 8, Atomic Force Microscope (AFM), with a silicon nitride tip of k ~ 0.5 N/m.

Techniques:

Figure 14. SEM images and EDS mapping of the wear track for DLC-W coated tappet at (a–e) 25 ◦C, (f–j) 150 ◦C, (k–o) 200 ◦C, (p–t) 250 ◦C.

Journal: Coatings

Article Title: Elevated Temperature Tribological Behavior of Duplex Layer CrN/DLC and Nano Multilayer DLC-W Coatings Deposited on Carburized and Hardened 16MnCr5 Steel

doi: 10.3390/coatings14091197

Figure Lengend Snippet: Figure 14. SEM images and EDS mapping of the wear track for DLC-W coated tappet at (a–e) 25 ◦C, (f–j) 150 ◦C, (k–o) 200 ◦C, (p–t) 250 ◦C.

Article Snippet: Coatings 2024, 14, x FOR PEER REVIEW 4 of 21 The as-deposited CrN/DLC and DLC-W coatings' surface topography was obtained using a Bruker, multimode 8, Atomic Force Microscope (AFM), with a silicon nitride tip of k ~ 0.5 N/m.

Techniques:

Figure 15. SEM image and EDS composition of wear scar for contact ball on DLC-W coatings.

Journal: Coatings

Article Title: Elevated Temperature Tribological Behavior of Duplex Layer CrN/DLC and Nano Multilayer DLC-W Coatings Deposited on Carburized and Hardened 16MnCr5 Steel

doi: 10.3390/coatings14091197

Figure Lengend Snippet: Figure 15. SEM image and EDS composition of wear scar for contact ball on DLC-W coatings.

Article Snippet: Coatings 2024, 14, x FOR PEER REVIEW 4 of 21 The as-deposited CrN/DLC and DLC-W coatings' surface topography was obtained using a Bruker, multimode 8, Atomic Force Microscope (AFM), with a silicon nitride tip of k ~ 0.5 N/m.

Techniques:

Figure 17. Hardness and elastic modulus at different temperatures for CrN/DLC and DLC-W coatings.

Journal: Coatings

Article Title: Elevated Temperature Tribological Behavior of Duplex Layer CrN/DLC and Nano Multilayer DLC-W Coatings Deposited on Carburized and Hardened 16MnCr5 Steel

doi: 10.3390/coatings14091197

Figure Lengend Snippet: Figure 17. Hardness and elastic modulus at different temperatures for CrN/DLC and DLC-W coatings.

Article Snippet: Coatings 2024, 14, x FOR PEER REVIEW 4 of 21 The as-deposited CrN/DLC and DLC-W coatings' surface topography was obtained using a Bruker, multimode 8, Atomic Force Microscope (AFM), with a silicon nitride tip of k ~ 0.5 N/m.

Techniques:

Figure 5. XPS survey spectrum of SiOx-doped DLC film.

Journal: Coatings

Article Title: Anti-Corrosion SiOx-Doped DLC Coating for Raster Steel Linear Scales

doi: 10.3390/coatings14070818

Figure Lengend Snippet: Figure 5. XPS survey spectrum of SiOx-doped DLC film.

Article Snippet: The crystallographic nature of the stainless steel and SiOx-doped DLC film coated stainless steel samples was determined using a D8 Discover X-ray diffractometer (Bruker AXS GmbH, Ber in, Germany) with a Cu Kα (λ= 1.54 Å) X-ray source.

Techniques:

Figure 6. Topographic AFM images and height profiles of stainless steel with ripples (a,c) and SiOx-doped DLC film on stainless steel with ripples (b,d).

Journal: Coatings

Article Title: Anti-Corrosion SiOx-Doped DLC Coating for Raster Steel Linear Scales

doi: 10.3390/coatings14070818

Figure Lengend Snippet: Figure 6. Topographic AFM images and height profiles of stainless steel with ripples (a,c) and SiOx-doped DLC film on stainless steel with ripples (b,d).

Article Snippet: The crystallographic nature of the stainless steel and SiOx-doped DLC film coated stainless steel samples was determined using a D8 Discover X-ray diffractometer (Bruker AXS GmbH, Ber in, Germany) with a Cu Kα (λ= 1.54 Å) X-ray source.

Techniques:

Figure 7. UV–Vis-NIR reflectance spectra of stainless steel (a), stainless steel with ripples (b), SiOx- doped DLC film on stainless steel (c), and SiOx-doped DLC film on stainless steel with ripples (d).

Journal: Coatings

Article Title: Anti-Corrosion SiOx-Doped DLC Coating for Raster Steel Linear Scales

doi: 10.3390/coatings14070818

Figure Lengend Snippet: Figure 7. UV–Vis-NIR reflectance spectra of stainless steel (a), stainless steel with ripples (b), SiOx- doped DLC film on stainless steel (c), and SiOx-doped DLC film on stainless steel with ripples (d).

Article Snippet: The crystallographic nature of the stainless steel and SiOx-doped DLC film coated stainless steel samples was determined using a D8 Discover X-ray diffractometer (Bruker AXS GmbH, Ber in, Germany) with a Cu Kα (λ= 1.54 Å) X-ray source.

Techniques:

Figure 8. Corrosion evolution on stainless steel (a) and SiOx-doped DLC film-coated stainless steel (b) over a 24-h period of immersion in a 5% salt solution. The time-lapse images were captured at regular intervals from 1 to 10. Mark size: 500 µm.

Journal: Coatings

Article Title: Anti-Corrosion SiOx-Doped DLC Coating for Raster Steel Linear Scales

doi: 10.3390/coatings14070818

Figure Lengend Snippet: Figure 8. Corrosion evolution on stainless steel (a) and SiOx-doped DLC film-coated stainless steel (b) over a 24-h period of immersion in a 5% salt solution. The time-lapse images were captured at regular intervals from 1 to 10. Mark size: 500 µm.

Article Snippet: The crystallographic nature of the stainless steel and SiOx-doped DLC film coated stainless steel samples was determined using a D8 Discover X-ray diffractometer (Bruker AXS GmbH, Ber in, Germany) with a Cu Kα (λ= 1.54 Å) X-ray source.

Techniques:

Figure 9. Corrosion evolution on stainless steel (a) and SiOx-doped DLC film-coated stainless steel (b) over a 72-h period of salt spray testing. Optical microscope images were captured at regular 24-h intervals. Mark size: 20 µm.

Journal: Coatings

Article Title: Anti-Corrosion SiOx-Doped DLC Coating for Raster Steel Linear Scales

doi: 10.3390/coatings14070818

Figure Lengend Snippet: Figure 9. Corrosion evolution on stainless steel (a) and SiOx-doped DLC film-coated stainless steel (b) over a 72-h period of salt spray testing. Optical microscope images were captured at regular 24-h intervals. Mark size: 20 µm.

Article Snippet: The crystallographic nature of the stainless steel and SiOx-doped DLC film coated stainless steel samples was determined using a D8 Discover X-ray diffractometer (Bruker AXS GmbH, Ber in, Germany) with a Cu Kα (λ= 1.54 Å) X-ray source.

Techniques: Microscopy