Showing all 8 results

Cathodic Arc & Sputtering System

$0.00

Introduction

Cathodic Arc Deposition system is a widely used industrial-scale machine for applying high quality thin film coatings. In cathodic arc process, an electric arc is used to vaporize material from a cathode target. Then the vaporized material condenses on a substrate, forming a thin film. The technique can be used to deposit metallic, ceramic, and composite films.

Cathodic Arc Deposition System

$0.00

Introduction

Cathodic Arc Deposition system is a widely used industrial-scale machine for applying high quality thin film coatings. The Arc-PVD process is based on low-voltage, high current cathodic arc physics that produce dense and highly ionized plasma. In this process an electric arc is used to vaporize material from a cathode target. Then the vaporized material condenses on a substrate, forming a thin film. The technique can be used to deposit metallic, ceramic, and composite films.

Golfa Nanocoating-Decorative Corrosion- & Scratch-resistant Nanostructured Coatings

$0.00

Introduction

Faucets and taps contain internal and external sections. The internal sections are usually made of brass and ferrous alloys. Corrosion and abrasion resistance and beautiful appearance for external sections have achieved by applying a variety of coatings. Hard coatings are the common types which have been widely used because of their wear resistance and beautiful colors. Appropriate coatings with proper deposition processes are chosen due to the material of faucets. Nitrides containing simple metal such as TiN, ZrN and CrN are the first generation of PVD hard coatings which have been used for decorative purposes due to their beautiful appearance. Among common methods for deposition of these coatings, different PVD methods (Arc-PVD and sputtering) have become more attractive due to some special properties which can be obtained by them, such as getting nanostructured coating, high speed of production and good coating quality.

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.

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.

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.

Wear Erosion & Corrosion resistant Super hard Nanolayer & Nanocomposite Coatings

$0.00

Introduction

Extremely hard nanolayer and nanocomposite coatings, resistant to wear, erosion, as well as corrosion, are deposited onto the surface of a variety of forming tools such as die and punch, deep drawing, cold and hot forging, extrusion, die casting, and injection moulding tools to improve the surface quality of the moulds, extend their life span up to 10 times, and enhance their performance remarkably. 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.

Zirconium-based Nanoceramic Conversion Coating

$0.00

Introduction

Zirconium-based conversion coating, as a suitable alternative for common phosphate and chromate coatings, are widely applied on metallic surfaces to promote the paint adhesion and improve the corrosion performance. These coatings are based on the eco-friendly compounds; furthermore, the main advantage of these coatings is no need for thermal energy which consequently leads to cost reduction.