Hybrid Honeycomb

  • Overview +


    Monolithic honeycomb structure with bonded face sheet

    Many ultra-precision tools include an optical subassembly. Such subassemblies must be mounted to a rigid, flat, damped surface to maintain the positional stability of the optical system. Until now, engineers have had to choose between a machined aluminum plate and a honeycomb optical breadboard. Aluminum plates have the advantage of being machined to precision flatness and parallelism as well has tight tolerances on hole positions. Honeycomb breadboards have the advantage of providing structural damping along with a much higher stiffness-to-weight ratio. TMC's latest innovation combines the best of both. Hybrid Honeycomb™ starts as an aluminum plate. The plate is machined to achieve the desired features. The underside is then machined away leaving a monolithic honeycomb pattern to lighten the structure. Then, a bottom skin is epoxied over the honeycomb cells, closing the structure and providing additional damping and stiffness.Ideal for optical subassemblies in photonics tools and applications, Hybrid Honeycomb is an engineered solution that is configured to your unique requirements

    Patent Pending

     

  • The TMC Advantage +


    Machined, monolithic aluminum panel ensures precision flatness, parallelism, and hole tolerance can be achieved. Comparable tolerance to machined aluminum plates Honeycomb core machined from solid aluminum plate.

    Epoxy bonded face sheet seals honeycomb core and provides additional stiffness and damping Dimensional precision of a machined aluminum plate with the damping and high stiffness-to-mass ratio of a honeycomb breadboard
  • Specifications +


    Top Plate: Machined Aluminum

    Finish: Clear or Black anodize

    Core: Integral to the top plate. Cells machined from a monolithic structure

    Bottom Plate:
     Machined Aluminum

    Hole Pattern: M6 on 25mm, ¼-20 on 1 inch centers or custom

    Holes: Sealed through the process of machining blind holes
  • Performance +


     
  • Ordering Chart +