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Hybrid PVD System

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Introduction

Hybrid PVD system operates based on both cathodic arc and sputtering processes. In cathodic arc deposition, an electric arc is used to vaporize material from a target, while in sputtering atoms are ejected from a target as a result of the bombardment of the target by high energy particles. Then the vaporized/ejected material condenses on a substrate, forming a thin film. Hybrid PVD is widely used to synthesize extremely hard films to protect the surface of cutting tools and extend their life remarkably.
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Hybrid PVD System

$0.00

Introduction

Hybrid PVD system operates based on both cathodic arc and sputtering processes. In cathodic arc deposition, an electric arc is used to vaporize material from a target, while in sputtering atoms are ejected from a target as a result of the bombardment of the target by high energy particles. Then the vaporized/ejected material condenses on a substrate, forming a thin film. Hybrid PVD is widely used to synthesize extremely hard films to protect the surface of cutting tools and extend their life remarkably.
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Hybrid PVD System

$0.00

Introduction

Hybrid PVD system operates based on both cathodic arc and sputtering processes. In cathodic arc deposition, an electric arc is used to vaporize material from a target, while in sputtering atoms are ejected from a target as a result of the bombardment of the target by high energy particles. Then the vaporized/ejected material condenses on a substrate, forming a thin film. Hybrid PVD is widely used to synthesize extremely hard films to protect the surface of cutting tools and extend their life remarkably.
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Wear & Corrosion resistant Super hard Nanolayer & Nanocomposite Coatings

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Introduction

Wear- and corrosion-resistant super-hard nanolayer and nanocomposite coatings are widely applied onto the surface of the turbine and compressor blades in the oil, gas and aerospace industries as an alternative for the conventional coatings. It is worth mentioning that the deposition of above-mentioned coatings is performed by using a Hybrid PVD system which operates based on both cathodic arc and sputtering processes.

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Wear & Corrosion resistant Super hard Nanolayer & Nanocomposite Coatings

$0.00

Introduction

Wear- and corrosion-resistant super-hard nanolayer and nanocomposite coatings are widely applied onto the surface of the turbine and compressor blades in the oil, gas and aerospace industries as an alternative for the conventional coatings. It is worth mentioning that the deposition of above-mentioned coatings is performed by using a Hybrid PVD system which operates based on both cathodic arc and sputtering processes.

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iran2africa-Wear-&-Corrosion-resistant-Super-hard-Nanolayer-&-Nanocomposite-Coatings-product
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Wear & Corrosion resistant Super hard Nanolayer & Nanocomposite Coatings

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Introduction

Wear- and corrosion-resistant super-hard nanolayer and nanocomposite coatings are widely applied onto the surface of the turbine and compressor blades in the oil, gas and aerospace industries as an alternative for the conventional coatings. It is worth mentioning that the deposition of above-mentioned coatings is performed by using a Hybrid PVD system which operates based on both cathodic arc and sputtering processes.

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Wear & Erosion resistant Super hard Nanolayer & Nanocomposite Coatings

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Introduction

Nanolayer and nanocomposite coatings such as TiN, TiAlN, TiCN, TiSiN are deposited on a variety of cutting tools such as drill, reamer, finger milling, grinding tools, etc., for extending their life span (about 3 to 5 times), improving their performance and enhancing the quality of the manufactured components. It is worth mentioning that the deposition of above-mentioned coatings is performed by using a Hybrid PVD system which operates based on both cathodic arc and sputtering processes.
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iran2africa-Wear-&-Erosion-resistant-Super-hard-Nanolayer-&-Nanocomposite-Coatings-product
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Wear & Erosion resistant Super hard Nanolayer & Nanocomposite Coatings

$0.00

Introduction

Nanolayer and nanocomposite coatings such as TiN, TiAlN, TiCN, TiSiN are deposited on a variety of cutting tools such as drill, reamer, finger milling, grinding tools, etc., for extending their life span (about 3 to 5 times), improving their performance and enhancing the quality of the manufactured components. It is worth mentioning that the deposition of above-mentioned coatings is performed by using a Hybrid PVD system which operates based on both cathodic arc and sputtering processes.
ADD TO ENQUIRY BASKET
Quick view
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Add to wishlist

Wear & Erosion resistant Super hard Nanolayer & Nanocomposite Coatings

$0.00

Introduction

Nanolayer and nanocomposite coatings such as TiN, TiAlN, TiCN, TiSiN are deposited on a variety of cutting tools such as drill, reamer, finger milling, grinding tools, etc., for extending their life span (about 3 to 5 times), improving their performance and enhancing the quality of the manufactured components. It is worth mentioning that the deposition of above-mentioned coatings is performed by using a Hybrid PVD system which operates based on both cathodic arc and sputtering processes.
ADD TO ENQUIRY BASKET
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