top of page


Innovative technologies in the field of mechanical engineering have revolutionized the industry by improving the efficiency, precision and functionality of machines and production processes. These technologies offer a wide range of solutions from design to manufacturing and maintenance, significantly impacting the future of the manufacturing industry.


They not only improve the efficiency and performance of machines, but also enable innovations in design, production and maintenance, which ultimately lead to advanced and future-oriented solutions.


Automation technologies are of crucial importance in modern mechanical engineering. They improve efficiency, increase productivity and enable materials to be processed in demanding environments.


The Internet of Things (IoT) has transformed the manufacturing industry by enabling connected machines and systems. Sensors in machines collect real-time data to enable performance analysis, predictive maintenance and improved control mechanisms. This increases efficiency and helps reduce downtime.


Wet Process:

Our wet processing machines play a crucial role in the production of semiconductor components, microchips and other high-tech products. Wet processing refers to the wet chemical treatment, cleaning and structuring of semiconductor materials to achieve desired properties.

The development of innovative machines in wet processing has helped to significantly improve performance, precision and efficiency in production. By using cutting-edge technologies, manufacturers can increase the quality and yield of their products while meeting the stringent purity, precision and process control requirements required in the manufacture of cutting-edge electronic components.


Machine Software:

Our machine software offers a variety of tools for process monitoring, control and optimization. These applications include data management, production planning, quality control, and machine performance and maintenance monitoring. They enable efficient management of production processes and help improve overall efficiency.

The increasing integration of Industry 4.0 technologies into machine software is also notable. IoT applications and connected machines enable real-time data collection and analysis, leading to better monitoring, maintenance prediction and operational optimization. Machine learning is used to optimize systems, automate processes and make data-driven decisions.



Innovative human-machine interface (HMI) in mechanical engineering plays a central role in the interaction between the operator and the machines in manufacturing plants. An effective HMI optimizes the user experience, increases productivity and minimizes potential risks when operating machines.

Modern HMIs go far beyond traditional control panels and control consoles. They offer a variety of functions and innovations that optimize the interaction between humans and machines.

SAS Softec's HMI provides real-time data and performance analytics to help operators monitor the status of machines and processes. Through charts, dashboards and alerts, operators can quickly respond to deviations, identify problems and optimize production processes.

Our 43" touchscreens offer intuitive and user-friendly operation. They provide visual displays, graphical user interfaces and interactive elements that allow operators to easily control and monitor machines.

bottom of page