Hyper Dent

A broad spectrum of restorations

The automated production of dental prostheses is coming on in leaps and bounds. Where just a few years ago, crowns and bridges were considered ‘state-of-the-art’, today the spectrum is much wider. In the current market, hyperDENT is leading the way in responding to demand. The following restorations can be done using hyperDENT:

Classic restorations

  • Inlays/onlays
  • Inlay/onlay bridges
  • Caps and frameworks for veneering
  • Fully anatomical crowns and bridges
  • Telescopic structures – primary parts
  • Maryland bridges
  • Dental structures with precision attachments
  • Tooth-stump caps
  • Veneers
  • Tertiary structures*
  • Innovative restorations
  • Abutments and bridge abutments on an adhesive base or with screw fitting
  • Caps for dental implants
  • Occlusal splints*
  • Splints for navigated implantation*
  • Complete models*

Easy To Use

Intuitive operational guidance without restrictions

Load the piece, position it, calculate – and you’re done. hyperDENT has a unique choice of functionality, reducing or simplifying the user’s tasks.

  • The Load Wizard automatically specifies the order of individual work steps for the user, simplifying the operation significantly.
  • With blank management, you can quickly and easily locate and re-machine blanks that have already been used.
  • The automatically positioned connectors and sinter pins can be adapted quite simply at the click of a mouse, or parametrically. Connectors on objects already positioned in the blank can also be cut afterwards.
  • Several objects can be placed wherever you like within an unmachined part, simply by moving and turning them using the mouse. The position of the pieces is automatically checked for integrity and machinability.
  • Objects can be height-optimized using the ‘object alignment’ function, whereby the object is turned within the blank to minimize the space it requires. This means that thinner blanks can be used.
  • Direct interfaces with all large CAD systems ensure that data is carried over with additional information, such as tooth preparation limits or emergence profile. This simplifies the workflow and reduces the number of work steps.
  • The template generator allows you to create tailored machining templates for the widest variety of object types, and check them directly using material removal simulation. The user can thus respond immediately to market demands.

Freedom of choice of material

New materials mean a constant stream of new innovations in dental technology, and they are also the deciding factor when it comes to cost. hyperDENT gives you maximum flexibility in your choice of materials as there are no restrictions at all on manufacturers or types of material.

The following materials can be machined using hyperDENT:

  • Zirconium oxide
  • PMMA
  • Wax
  • Cobalt chromium alloys
  • Titanium
  • Precious metal alloys
  • Composites
  • Glass ceramics
  • Gypsum

In the machining of glass ceramics, hyperDENT’s capabilities are almost unique in the market – which is also shown by the fact that hyperDENT is the preferred CAM software for certified processes of important manufacturers of lithium disilicate.

High Performance

Fast and extremely reliable

Time is one of the deciding factors in the production of dental prostheses. Fast calculation and milling times should be achieved without damaging process reliability. No other CAM software has the functionalities that are built into hyperDENT, allowing it to rise to this challenge.

  • With multi-core support, the tool path calculations can be delivered to all the processor’s cores in parallel, leading to a significant reduction in calculation time.
  • Depending on the job, tool format and depth of immersion, the boundaries of the milling area are automatically widened, avoiding a potential collision.
  • Automatic blank-tracking ensures process reliability for rough-machining and the machining of surplus material.
  • An optional depth-limiter for tool paths, and automatic selection of the right tool length, prevent machining errors and the production of rejects.
  • An automatic collision control in both 3-axis and 5-axis modes, and an optional control for tool collisions against blanks, blank holders and tool holders, prevent any unpleasant milling accidents.
  • An automatic check of the machine’s axis limitation means that calculations are immediately interrupted if an error should occur.
  • During the production of screw-retained abutments, the screw channel is automatically recognized, and hyperDENT’s internal geometry is regenerated to remove any scanning errors.