A technique to study nanofatigue behavior of coatings has been developed. Based on measurements of amorphous carbon coatings (DLC), higher hardness, fracture toughness and adhesion strength are responsible for a longer fatigue life. This technique can be satisfactorily used to simulate and study damage in head-disk and MEMS/NEMS interfaces
The aim of this paper is to investigate the mechanism of nanoscale fatigue using nano-impact and mul...
Nanocrystalline materials oer many advantages for use in aerospace structures due to their small gra...
Atomic force microscopy based microwear experiments allow deeper understanding of mechanisms of wear...
A technique to study nanofatigue behavior of coatings has been developed. Based on measurements of a...
A technique to perform nanofatigue experiments was developed. This technique utilizes a depth-sensin...
A technique to quantify in real time the microstructural changes occurring during mechanical nanos...
© 2019 Elsevier Ltd Improving the fatigue resistance of DLC coatings under highly loaded repetitive ...
Diamond-like carbon (DLC) coatings are becoming increasingly popular in the automotive industry due ...
Micro-impact testing, a new repetitive contact testing technique has been developed to simulate the ...
The determination of mechanical properties of thin films is of crucial interest for applications of ...
DLC coatings have seen recent use as protective coatings for flow control devices in the oil and gas...
Research had been carried out for the past few decades to improve material properties and produce ma...
This paper presents nano-impact (low cycle fatigue) behavior of as-deposited amorphous nitinol (TiNi...
The aim of this paper is to investigate the mechanism of nanoscale fatigue using nano-impact and mul...
Nanocrystalline materials oer many advantages for use in aerospace structures due to their small gra...
Atomic force microscopy based microwear experiments allow deeper understanding of mechanisms of wear...
A technique to study nanofatigue behavior of coatings has been developed. Based on measurements of a...
A technique to perform nanofatigue experiments was developed. This technique utilizes a depth-sensin...
A technique to quantify in real time the microstructural changes occurring during mechanical nanos...
© 2019 Elsevier Ltd Improving the fatigue resistance of DLC coatings under highly loaded repetitive ...
Diamond-like carbon (DLC) coatings are becoming increasingly popular in the automotive industry due ...
Micro-impact testing, a new repetitive contact testing technique has been developed to simulate the ...
The determination of mechanical properties of thin films is of crucial interest for applications of ...
DLC coatings have seen recent use as protective coatings for flow control devices in the oil and gas...
Research had been carried out for the past few decades to improve material properties and produce ma...
This paper presents nano-impact (low cycle fatigue) behavior of as-deposited amorphous nitinol (TiNi...
The aim of this paper is to investigate the mechanism of nanoscale fatigue using nano-impact and mul...
Nanocrystalline materials oer many advantages for use in aerospace structures due to their small gra...
Atomic force microscopy based microwear experiments allow deeper understanding of mechanisms of wear...
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