Coating systems
Innovative technologies at a glance: Discover the diversity and precision of our processes
Coating systems by Putzier
Thermal spray coatings perform different jobs. Depending on your needs, they can be used to protect against wear or corrosion – and in many cases they also improve the function of components.
Choose the function that the thermal spray coating needs to carry out in your particular case.
Protective coatings
Putzier Surface Technology effectively protects your components from wear and corrosion. Our ceramic, metallic and carbide coating systems offer robust protection against abrasion, erosion, cavitation and friction wear. In addition, our metallic coating systems ensure reliable corrosion protection, even at high temperatures.
Protective coating:
Technical properties
Functional coating
Putzier Surface Technology effectively protects your components from wear and corrosion. Our ceramic, metallic and carbide coating systems offer robust protection against abrasion, erosion, cavitation and friction wear. In addition, our metallic coating systems ensure reliable corrosion protection, even at high temperatures.
Functional coating:
Technical properties
Material
Putzier Surface Technology effectively protects your components from wear and corrosion. Our ceramic, metallic and carbide coating systems offer robust protection against abrasion, erosion, cavitation and friction wear. In addition, our metallic coating systems ensure reliable corrosion protection, even at high temperatures.
Material:
Technical properties
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Thermal spraying is a surface engineering process in which materials are applied in molten or semi-molten form to a surface to protect, regenerate or improve its properties. At Putzier Surface Engineering, this process is used to optimize heavily stressed components, regenerate worn surfaces, and protect vulnerable components from failure.
Thermal spraying is a surface engineering process in which materials are applied in molten or semi-molten form to a surface to protect, regenerate or improve its properties. At Putzier Surface Engineering, this process is used to optimize heavily stressed components, regenerate worn surfaces, and protect vulnerable components from failure.
Thermal spraying is a surface engineering process in which materials are applied in molten or semi-molten form to a surface to protect, regenerate or improve its properties. At Putzier Surface Engineering, this process is used to optimize heavily stressed components, regenerate worn surfaces, and protect vulnerable components from failure.
Thermal spraying is a surface engineering process in which materials are applied in molten or semi-molten form to a surface to protect, regenerate or improve its properties. At Putzier Surface Engineering, this process is used to optimize heavily stressed components, regenerate worn surfaces, and protect vulnerable components from failure.
Thermal spraying is a surface engineering process in which materials are applied in molten or semi-molten form to a surface to protect, regenerate or improve its properties. At Putzier Surface Engineering, this process is used to optimize heavily stressed components, regenerate worn surfaces, and protect vulnerable components from failure.