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Master Bond adhesives
Beryllium S-200F, Vacuum Hot Pressed
Categories: Metal; Nonferrous Metal; Beryllium Alloy; Pure Element

Material Notes: The standard structural beryllium grade, generally processed by HIP'ing. Applications include inertial guidance systems, missile interstages, optical substrates, spacecraft structures, and small rocket nozzles.

Property data below for S-200F has been supplemented with other property data generally applicable to pure beryllium.

Please note that there are health hazards associated with beryllium, especially when present as airborne particles generated during processing. As with any material, be aware of hazards and take steps to reduce exposure to a safe level.

General beryllium information: Beryllium is one of the lightest metals and has a high strength-to-weight ratio, stiffness-to-weight ratio, and very high specific heat, thermal conductivity, and heat of fusion. It has significant ductility, is readily machined and can be rolled, drawn, or extruded. It finds applications in nuclear reactors (neutron moderator and reflector), X-ray sources/detectors (X-ray transparency), IR target acquisition systems, inertial guidance instruments, computer parts, other aircraft and satellite structures, and heat sink constraining cores. Beryllium is usually produced via a powder metallurgy process to improve machinability and mechanical properties.

Information provided by Materion Corporation (formerly Brush Wellman) and the references.

Key Words: Brush Wellman; S200F Alloys
Vendors:
Available Properties
  • Density
  • Tensile Strength, Ultimate
  • Tensile Strength, Yield
  • Elongation at Break
  • Tensile Modulus
  • Compressive Yield Strength
  • Notched Tensile Strength, Typical for Kt = 1.9. Notched strength ratio =1.0.
  • Poissons Ratio
  • Fatigue Strength, Krause rotating beam
  • Fatigue Strength, Krause rotating beam
  • Fracture Toughness, KIC for hot-pressed structural grades
  • Shear Modulus, typical Be
  • Electrical Resistivity, typical Be
  • Magnetic Susceptibility, cgs/g (typical Be)
  • Critical Superconducting Temperature, typical Be
  • Heat of Fusion, typical Be
  • CTE, linear
  • CTE, linear, typical Be value
  • CTE, linear, typical Be value
  • CTE, linear, typical Be value
  • Specific Heat Capacity
  • Thermal Conductivity
  • Melting Point
  • Liquidus
  • Boiling Point
  • Emissivity (0-1), typical Be; 650 nm
  • Reflection Coefficient, Visible (0-1), typical Be: 50% visible; 55% UV; 98% IR (10.6 µm)
  • Aluminum, Al
  • BeO
  • Beryllium, Be
  • Carbon, C
  • Iron, Fe
  • Magnesium, Mg
  • Other, each
  • Silicon, Si
  
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