Aps-Materials, Inc.
4011 Riverside Dr
Dayton
OH Ohio
United States
45405
Phone:
+1 937 278 6547, Fax: +1 937 278 4352
Tags:
aerospace aircraft coatings
Welcome to APS Materials, Inc. Thermal Spray Coatings by APS Materials, Inc. (APS). Founded in 1975 by four engineers with strong backgrounds in material science, their goal was to provide a complete resource for Thermal Spray (TS) technology to the thermal spray coating industry. Today, APS is experiencing rapid growth as a client based provider of innovative thermal spray solutions for a wide range of needs in surface modification. The versatility of our staff and processes is reflected in the diverse clientele and industries we serve, including aerospace, materials processing, biomedical, automotive, and electronics. Thermal spray coatings by APS are simply the superior choice. Biomedical APS also produces both porous and bioactive coatings for the Orthopaedic marketplace. The coatings consist of Commercial Pure (CP) Titanium and its alloys, specifically Titanium - 6% Aluminum - 4% Vanadium (Ti-6Al-4V), as well as Hydroxyapatite, a calcium phosphate material that is used as a synthetic bone substitute. In 1980, because of the markets need to have a more permanently fixed implant, APS derived the process of applying porous and bio-active coatings to implants. Biomet, at that time a small orthopaedic company, sponsored much of the research that enabled them to become one of the largest orthopaedic companies in the world. Aerospace Aircraft engine manufacturers such as General Electric (GE), Pratt & Whitney and Rolls Royce are the largest users of thermal spray coatings. APS Materials works primarily with General Electrics Aircraft Engine Group, or AEG. We are one of only a few approved suppliers of coatings for jet engine components that meet the stringent GE coating specifications. Electronics The manufacturing processes of silicon wafers and semiconductors require very specialized, highly- engineered coatings solutions because of the harsh environment required for the operation. This harsh environment dramatically shortens the life of chamber components, used to house the process, threatening the q