Original abstract has 13 special characters - please check & edit Today, Ti(ind 1 - x)Al(ind x)N coatings represent a standard PVD coating for cutting tools. Fcc-Ti(ind 1 - x)Al(ind x)N is a metastable homogeneous phase with excellent properties such as high hardness, high oxidation resistance and high cutting performance. An important aim is the preparation of coatings with maximum aluminum content and oxidation resistance. But PVD processes are limited to the deposition of monophase Ti(ind 1 - x)Al(ind x)N coatings with a maximum x = 0.65. In this work the preparation of monophase fcc-Ti(ind 1 - x)Al(ind x)N coatings with x-values of up to 0.9 is described. A low pressure chemical vapor deposition process (LPCVD) using TiCl(ind 4), AlCl(i...
Aluminum enriched coatings have been developed for titanium aluminide alloys. It has been shown that...
Modern, state-of-the-art, PVD coatings are required to fulfill a variety of different applications. ...
Ti-Al-N coatings were deposited on high-speed steel substrates by filtered vacuum arc deposition (FV...
Today, Ti(sub 1-x)Al(sub x)N coatings represent a standard PVD coating for cutting tools. Fcc-Ti(sub...
Today, Ti1 - xAlxN coatings represent a standard PVD coating for cutting tools. Fcc-Ti1 - xAlxN is a...
The performance of cutting tools can be increased by wear resistance coatings with improved properti...
Ti1 - xAlxN is a well established material for cutting tool applications exhibiting a high hardness ...
International audienceThe increased need for protecting cutting tools has led to the development of ...
Ti1-xAlxN coatings are among the most commonly used coatings for protecting cutting tools. These coa...
For several decades, the increasing productivity in many industrial domains has led to a significant...
Physical Vapor Deposition (PVD) Ti1−xAlxN coated cemented carbide tools are commonly used to c...
Modern tools for metal cutting applications, such as turning or milling, are typically improved with...
The structural, physical–chemical, and micromechanical characteristics of Al0.6Ti0.4N coatings depos...
A new family of physical vapor deposited (PVD) coatings is presented in this paper. These coatings a...
Hard (Ti, Al)N based coatings were deposited by means of physical vapor deposition (PVD) arc ion-pla...
Aluminum enriched coatings have been developed for titanium aluminide alloys. It has been shown that...
Modern, state-of-the-art, PVD coatings are required to fulfill a variety of different applications. ...
Ti-Al-N coatings were deposited on high-speed steel substrates by filtered vacuum arc deposition (FV...
Today, Ti(sub 1-x)Al(sub x)N coatings represent a standard PVD coating for cutting tools. Fcc-Ti(sub...
Today, Ti1 - xAlxN coatings represent a standard PVD coating for cutting tools. Fcc-Ti1 - xAlxN is a...
The performance of cutting tools can be increased by wear resistance coatings with improved properti...
Ti1 - xAlxN is a well established material for cutting tool applications exhibiting a high hardness ...
International audienceThe increased need for protecting cutting tools has led to the development of ...
Ti1-xAlxN coatings are among the most commonly used coatings for protecting cutting tools. These coa...
For several decades, the increasing productivity in many industrial domains has led to a significant...
Physical Vapor Deposition (PVD) Ti1−xAlxN coated cemented carbide tools are commonly used to c...
Modern tools for metal cutting applications, such as turning or milling, are typically improved with...
The structural, physical–chemical, and micromechanical characteristics of Al0.6Ti0.4N coatings depos...
A new family of physical vapor deposited (PVD) coatings is presented in this paper. These coatings a...
Hard (Ti, Al)N based coatings were deposited by means of physical vapor deposition (PVD) arc ion-pla...
Aluminum enriched coatings have been developed for titanium aluminide alloys. It has been shown that...
Modern, state-of-the-art, PVD coatings are required to fulfill a variety of different applications. ...
Ti-Al-N coatings were deposited on high-speed steel substrates by filtered vacuum arc deposition (FV...