PARTS MADE BERYLLIUM ALUMINUM METAL

Brand Owner (click to sort) Address Description
BERALCAST IBC ENGINEERED MATERIALS CORP. 55 JONSPIN ROAD WILMINGTON MA 01887 Parts made of beryllium-aluminum metal matrix composite for use in the aerospace industry, namely, gimbals, namely, gyroscopes; parts made of beryllium-aluminum metal matrix composite for use in the aerospace industry, namely, battery cases; parts made of beryllium-aluminum metal matrix composite for use in the aerospace industry, namely, dynamic output sensor components, namely, sensor chips for scientific use;Parts made of beryllium-aluminum metal matrix composite for use in the automotive industry, namely, automotive rocker arms, namely, rocker arms for motors and turbine wheels, namely, wheels being parts of machines;Parts made of beryllium-aluminum metal matrix composite for use in the aerospace industry, namely, structural and dynamic members for advanced electro optic systems, namely, metal brackets;Parts made of beryllium-aluminum metal matrix composite for use in commercial applications, namely, high speed reciprocating members, namely, metal matrix alloy material for use in the manufacture of satellites, rockets, missiles, aerospace vehicles, aircraft engines and brakes;Parts made of beryllium-aluminum metal matrix composite for use in the aerospace industry, namely, optical benches for imaging systems, namely, benches;
IBC ADVANCED ALLOYS IBC Advanced Alloys Corp. 401 Arvin Road Franklin IN 46131 Parts made of beryllium-aluminum metal matrix composite for use in the aerospace industry, namely, gimbals, namely, gyroscopes; parts made of beryllium-aluminum metal matrix composite for use in the aerospace industry, namely, battery cases; and parts made of beryllium-aluminum metal matrix composite for use in the aerospace industry, namely, dynamic output sensor components, namely, gimbal housing for electro optic sensors;Parts made of beryllium-aluminum metal matrix composite for use in the automotive industry, namely, automotive rocker arms, namely, rocker arms for motors and turbine wheels, namely, wheels being parts of machines; parts made from beryllium copper, chrome copper, aluminum bronze, and copper nickel alloys for a wide variety of industrial applications, namely, injection mold tooling; parts made from beryllium copper, chrome copper, aluminum bronze, and copper nickel alloys for a wide variety of industrial applications, namely, machines for manufacturing micro and non-scale structures by solidifying a fluid compound to conform to a shape of a mold; parts made from beryllium copper, chrome copper, aluminum bronze, and copper nickel alloys for a wide variety of industrial applications, namely, resistance welding wheels, namely, seam welder wheels; parts made from beryllium copper, chrome copper, aluminum bronze, and copper nickel alloys for a wide variety of industrial applications, namely, welding arm guns, namely, gas welding guns; parts made from beryllium copper, chrome copper, aluminum bronze, and copper nickel alloys for a wide variety of industrial applications, namely, power generation equipment, namely, DC generators; parts made from beryllium copper, chrome copper, aluminum bronze, and copper nickel alloys for a wide variety of industrial applications, namely, electric motors, namely, electric starter motors; parts made from beryllium copper, chrome copper, aluminum bronze, and copper nickel alloys for a wide variety of industrial applications, namely, sputtering target backing plates, namely, sputtering target backing plates; parts made from beryllium copper, chrome copper, aluminum bronze, and copper nickel alloys for a wide variety of industrial applications, namely, amorphous metal strip casting rings, namely, screw rings of metal; parts made from beryllium copper, chrome copper, aluminum bronze, and copper nickel alloys for a wide variety of industrial applications, namely, casting molds, namely, molding and die-casting tools, namely, steel pins, molding presses being machine parts for dies and molds;Parts made of beryllium-aluminum metal matrix composite for use in the aerospace industry, namely, structural and dynamic members for advanced electro optic systems, namely, metal brackets, parts made of beryllium-aluminum metal matrix composite for use in the aerospace industry, namely, flanges for marine and deep sea applications, namely, metal flanges;Parts made of beryllium-aluminum metal matrix composite for use in commercial applications, namely, high speed reciprocating members, namely, metal matrix alloy material for use in the manufacture of satellites, rockets, missiles, aerospace vehicles, aircraft engines and brakes;ADVANCED ALLOYS;Parts made of beryllium-aluminum metal matrix composite for use in the aerospace industry, namely, optical benches for imaging systems, namely, benches;
 

Where the owner name is not linked, that owner no longer owns the brand

    
Technical Examples
  1. A bond joint and process of bonding metal parts to one another to form seamless, hollow metal articles, particularly made from beryllium. Tooling is assembled to the parts, prior to hot pressing, to cause pressure to be applied to flanges that extend peripherally from the parts. The parts, assembled together with the tooling, are then subjected to hot isostatic pressing of the flanges at a temperature of about 1700° F. to 1750° F., and at a pressure of about 2000 psi to 2500 psi, for around 3 hours. The tooling surrounding the metal parts functions to limit the amount of compression of the flanges. Articles formed by this process are particularly useful in space flight applications because they are formed of a homogeneous material. This means that the articles can operate under high pressure despite being subjected to temperature cycling. Strength of the bond joint is enhanced because no filler metal is used. The absence of a filler metal also eliminates any thermal stress problems as a result of differences in coefficients of thermal expansion.