Products & Services

See also: Categories | Featured Products | Technical Articles | More Information
Page: 1 2 3 Next

Conduct Research Top

  • Alloy
    Alloy 42 is a family of nickel iron alloys, suitable for joining to ceramic chips in electronic circuits, as well as glass-to-metal joining applications such as leaded windows and cathode tubes. It is a relatively inexpensive alternative to other electronic alloys such as Kovar. The medical
  • Bronze and Copper-Alloy Bearings
    with soft alloy shafts and reduces friction in low-lubrication conditions (start-up, for example) while slightly sacrificing wear resistance. Thus, copper lead and leaded bronzes are often used where compatibility outweighs the effects of lower mechanical properties. Other alloying elements are added
  • Using Titanium, Zirconium and Nickel Alloy Threaded Fasteners (.pdf)
    Titanium, zirconium, and nickel alloy threaded fasteners make excellent mechanical joints. Like any materials, however, they have advantages and disadvantages. There are some design, procurement, and manufacturing practices that can increase the success of those joints. This paper will try to point
  • "Liquid electrode " finishes alloy parts
    A special electrochemicalmachining (ECM) technology uses an electrolyte solution with proprietary chemistry as a "tool " to perform finishing operations on alloy parts instead of the more-typical, conformal, metal electrode. Close-up samples of a medical implant show the part before (top) and after
  • AN0011 Solder Alloy Choice and Stress Release Cracking in Through Hole Ceramic Capacitors
    into this phenomenon to categorize the effects of these alloys. This application note aims to demonstrate the effect the choice of solder alloy has when soldering to the internal bore of these through hole capacitors. Through hole ceramic capacitors are based on the technology of multi layer chip
  • Tensile Residual Stress Fields Produced In Austenitic Alloy Weldments (.pdf)
    residual stress and yield. strength distributions into the inside diameter surface of. a simulated Alloy 600 penetration J-welded into a. reactor pressure vessel. The degree of cold working. and the resulting yield strength increase caused by prior. machining and weld shrinkage were calculated from
  • Fatigue Life Improvement Of An Aluminum Alloy Fsw With Low Plasticity Burnishing (.pdf)
    ) to introduce a deep surface layer of. compressive residual stress. LPB processing. after friction stir welding has increased the. high cycle fatigue endurance of aluminum. alloy FSW by 80%. However, the LPB. processing parameters have not yet been. optimized to produce the maximum. achievable fatigue life
  • Structure-Property Relationships in Conventional and Nanocrystalline NiTi Intermetallic Alloy Wire (.pdf)
    International. DOI: 10.1007/s11665-009-9369-y. 1059-9495/$19.00. Structure-Property Relationships in Conventional. and Nanocrystalline NiTi Intermetallic Alloy Wire. Jeremy E. Schaffer. (Submitted October 8, 2008; in revised form December 3, 2008). Homogeneous 177-lm diameter nanocrystalline Nitinol wires were

More Information Top

Lock Indicates content that may require registration and/or purchase. Powered by IHS Goldfire