The modeling of 3D objects and the methods of their application and presentation have gained significant importance in both simulation environments and beyond. In this era of advanced technology, the ability to create accurate and realistic 3D models has opened up a world of possibilities for various industries. From engineering and manufacturing to entertainment and architecture, the utilization of 3D objects has become a fundamental aspect of visualizing and analyzing complex systems and designs. Within the realm of simulation, the modeling of 3D objects allows for a comprehensive understanding of processes and facilitates the identification of potential issues or optimization opportunities. Simulation software, such as Tecnomatix Plant Simulation, provides a platform for integrating these models seamlessly into virtual environments, enabling the exploration and fine-tuning of production processes with enhanced accuracy and efficiency [1].

However, the application and presentation of 3D models extend far beyond the boundaries of simulation. These models find applications in product design, virtual prototyping, architectural visualization, and even immersive experiences like virtual reality. They serve as powerful tools for communicating ideas, showcasing concepts, and facilitating informed decision-making. This study focuses on exploring the utilization of 3D visualization and the integration of models within the Tecnomatix Plant Simulation software. Additionally, it examines the application and presentation of these models in diverse contexts beyond the simulation environment. The software provides a comprehensive library of predefined models, encompassing basic representations of machinery, conveyor belts, and various types of transportation vehicles. Users have the flexibility to customize the graphics of these objects within the simulation, allowing for visual modifications according to their specific requirements [2].