Introduction to Titanium-Based Powder Materials

Titanium-based powder materials are powder-form products made from metallic titanium (Ti) as the base material, processed through various manufacturing techniques. They inherit titanium’s core advantages—such as "high strength, low density, excellent corrosion resistance, and outstanding biocompatibility"—while also possessing the characteristics of powder materials, including "near-net-shape forming capability and the potential for functional coatings." These materials find extensive applications in fields such as aerospace, medical devices, high-end manufacturing, and new energy. The following sections provide a systematic analysis, covering classification, core performance, preparation processes, typical applications, and development trends.

Thermal spray priming powder is a critical material used in thermal spraying technology to enhance the bond strength between the coating and the substrate. Typically applied as the first layer (primer layer) onto a pre-treated substrate surface, it provides reliable support for subsequent working layers through mechanisms such as physical anchoring, chemical reactions, and thermal matching. This material finds extensive applications in fields including aerospace, mechanical repair, and energy. The following sections provide a detailed analysis, covering its core functions, material systems, process characteristics, and application scenarios: I. Core Functions and Mechanisms of Action

Thermal Spray Chromium Oxide Titanium Oxide Powder CT8

A small amount of titanium oxide has been added to the chromium oxide powder raw material, and after undergoing a series of specialized processes, a solid polyhedral powder product has been produced. While maintaining high hardness, the coating also exhibits excellent resistance to micro-vibrations and dynamic friction.

Thermal Spray Aluminum Oxide-Titanium Powder AT3 | AT13 | AT40

The AT3, AT13, AT20, and AT40 series of powders offer excellent cost-performance. Their coatings provide outstanding resistance to corrosion, wear, and impact, delivering exceptional overall performance.

Prepared using high-purity rare-earth raw materials and spheroidization granulation technology, this powder exhibits high sphericity, excellent flowability, and a high coating application rate. The resulting coatings demonstrate superior resistance to high temperatures and plasma corrosion. Yttrium oxide is an extremely important rare-earth oxide material. Although it is not as common as metallic materials, it plays an indispensable role in many advanced technological and industrial fields.

Zirconia coatings are among the most representative functional ceramic coatings used in thermal spraying technology. Their core applications extend far beyond the traditional realms of wear and corrosion resistance, particularly in high-end technological fields.

Thermal Spraying Spherical Magnesium Oxide Powder

Coatings prepared from thermally sprayed spherical magnesium oxide exhibit excellent resistance to high-temperature oxidation, as well as to erosion by a variety of molten metals and alkaline slag. They are suitable for repairing alkaline refractory linings in metallurgical furnace equipment, exhaust pipes of internal combustion engines, bodies of oxygen lances used in steelmaking furnaces, protective coatings for thermocouple sheaths, and high-temperature oxidation-resistant coatings for heat exchanger tanks.

Thermal Spraying Chromium Oxide Powder Cr2O3

Chromium oxide coatings are among the most important and widely used ceramic coating materials in the thermal spray field, renowned for their outstanding wear resistance and corrosion resistance properties.

Silicon carbide (SiC) thermal spray powder boasts properties such as high hardness, high-temperature resistance, and corrosion resistance. Its applications span across multiple high-end industries, including industrial, metallurgical, chemical, electronic, and aerospace sectors.

(W, Ti)C powder is a raw material widely used in the cemented carbide industry and other advanced materials industries. It is typically produced by dissolving two or more carbides along with other compounds such as nitrides. Our company employs a unique carburization and solid-solution process to manufacture composite carbide products that feature stable composition, uniform distribution, high solid-solution capacity, low impurity content, and controllable particle size.

Tungsten carbide-tantalum-titanium solid solution

(W,Ta,Ti)C powder is a raw material widely used in the cemented carbide industry and other advanced materials industries. It is typically produced by dissolving two or more carbides along with other compounds (such as nitrides). Our company employs a unique carburization and solid-solution process to manufacture composite carbide products that feature stable composition, uniform distribution, high solid-solution capacity, low impurity content, and controllable particle size.