hyperDENT ® crack is the leading software in the dental CAM technology market, which is appreciated among professionals for its modular structure. This is a CAM solution adapted to the specific hardware and the user’s implementation needs. Regardless of the size of the company, for dentists, laboratories or milling centers, FOLLOW-ME! offers suitable hyperDENT ® product packages for perfect interaction between the CAM program and the machines.
hyperDENT® crack is:
- An open, highly automated and flexible system
- Complete coverage of the production process with a single CAM software
- Simple and intuitive operation
- Maximum accuracy and efficiency of time consumption throughout the entire process
- Regardless of the material
- Flexible addition of functions
- Maximum freedom when creating strategies
- All-in-one hybrid manufacturing and milling
- Automatic measurement for the milling process (hybrid production)
- Automatic recognition of structures using identification tags
- Optimal surface treatment thanks to a proven trajectory
- Continuous improvement and development of software
- Premium Worldwide Support Service
hyperDENT® Full cracked modules:
Creating individual strategies
The hyperDENT ® strategy Generator module allows you to create customized machining strategies for all types of parts, which can later be tested in a solid-state simulation. Thanks to a simple and intuitive user interface, an experienced CAM user can create and change processing strategies (i.e., cutting modes, tools, milling tasks). To change basic parameters, such as cutting modes, hyperDENT ® recommends the Strategy Generator module Lite version with limited access to changeable parameters.
Milling of implants and various geometries
With the help of the hyperDENT® Implant Module, individual abutments, bridges and beams can be made of round blanks. With smart categorization, only one master strategy is required for all systems. The module also includes a library of replaced interface geometries for the most common implant system, which can be connected to the corresponding geometry library in CAD. Despite possible inaccuracies in the loaded systems, an automated geometry replacement mechanism ensures the manufacture of high-precision parts.
Hybrid production of dental structures
The hyperDENT® hybrid module allows you to combine additive and subtractive technologies in one workflow. Complex geometries, internal cavities and dental structures that previously could not be performed by milling can be manufactured with very high quality using minimal material. Automated workflows such as optimal placement on the platform, creation of support structures or creation of allowances in areas for post milling are an All-In-One solution.
Production of complete removable prostheses
The hyperDENT® Prosthesis module provides digital prosthetic manufacturing with less processing time compared to the analog process. hyperDENT® is one of the first software CAM systems to provide this solution as an automated workflow. With the help of the Prosthesis Module, you can create various workflow options, such as a fully installed dentition or pre-formed dental pockets. Interfaces for various CAD systems are available, guaranteeing ease of use.
Grinding of glass ceramics
The grinding module provides grinding of glass ceramics using special strategies to create tool trajectories. If possible, the full diameter and effective length of the tool are used to increase the service life of the tool and ensure high process stability.
Advantages of using hyperDENT Cracked version 2022
User Interface
Simplified user manual. The calculation can be performed in just three steps, and the standard user interface always displays the current state of the calculation (Practicelab, Compact). An extended guide for professionals. With the Classic user interface, advanced users have all the features and can use the full functionality of hyperDENT ® .
Smart selection of workpieces
hyperDENT® Practice lab automatically determines the workpieces needed for processing and offers it in a dialog box, including all known parameters such as the size of the structure and material.
Automatic placement of structures and configuration of connectors
The optimal placement of structures to be milled occurs immediately after the selection of the workpiece. Automatic tilt or rotation of the structure in accordance with the mechanical capabilities of the machine. At the same time, the connector will be installed using the default parameters.
Individual milling output and milling activation (Machine Connect)
The milling process can already be activated on the machine during the calculation of tool trajectories. Direct communication between hyperDENT® MachineConnect and the machine checks the current status and appropriate actions are taken. The scope of possibilities depends on the machine.
Milling of prefab (premil) workpieces
Milling of prefab (premil) workpieces is also possible without the use of the hyperDENT ® Implant Module (4 and 5-axis milling in a closed holder or 5-axis synchronous milling). Using different milling strategies in different parts of the abutment guarantees optimal surface quality. The required blank is automatically selected due to the configured database, saves time and prevents errors.
Custom areas
By creating custom areas, you can achieve a high degree of flexibility by using certain strategies and tools. Categorization of user areas allows you to use many features of the program (for example, individual milling of residual material) even when using the same design (available in hyperDENT® Classic).
Connector and stabilizer for synterization
Connector and stabilizer profiles for synterization for each design with special requirements. The shape and position can be edited individually. The algorithm of the optimized connector arrangement guarantees a fast and easy workflow, and also facilitates the calculation of the tool path.
Hole milling
With hyperDENT®, it is possible to process any possible holes with any processing cycles. With the help of a smart categorization function, processing of several holes can occur on the same structure.
Billet Filter
When automatically selecting the workpiece required for milling, all known parameters of the material, the machine, and the dimensions of the structure are taken into account. The dialog box will show only the desired blanks, which will greatly simplify the selection.
Automatic tilt and positioning
The structure is loaded into the workpiece and tilted according to the settings and capabilities of the machine, and then aligned according to the chosen strategy. This automation guarantees milling safety.
Implant interfaces in CAD
hyperDENT® has implant interfaces for CAD from 3Shape, DentalWings and Exocad. The entire workflow can be simplified by using CAD data in hyperDENT®. You can also run hyperDENT® directly from 3Shape and open data directly from hyperDENT®.
Working in multiple windows
hyperDENT® Classic can be run multiple times to work with multiple projects at the same time. While one or more projects are being calculated, the following projects can be prepared. This will ensure the optimization and efficient use of CAM.
Angular threaded channels
With hyperDENT ® , milling angular threaded channels is not a problem. In fact, it is as simple as milling conventional threaded channels due to their manual or automatic detection. Optimized milling with the use of T-shaped cutters ensure an easy machining process.
Conclusion about the software hyperDENT crack
Each characteristic and function must meet the highest quality requirements in four dimensions: ease of use, flexibility, efficiency and milling quality. hyperDENT is fully automated – users can create their own milling strategies and perform various types of restorations.
Each hyperdent user can choose the module that will complement or improve the existing software.
hyperDENT is very fast in calculations and milling, and moreover, it provides excellent edge fit and excellent surface quality.
This software is perfect for both small dental laboratories, milling centers and dental clinics with laboratory practice