DIGITAL TWIN: 3D modeling allows analyzing data and monitoring systems to detect problems before they occur in processes, products or services. Proper modeling prevents downtime, develops opportunities for improvement and even allows future planning through simulations.
Being able to satisfy the requirements of a project before it is physically manufactured, is a great advantage and in DESCAR we have the necessary experience to generate a reliable and solvent modeling to perform the calculations that the project requires
ROBOT + OLP: Offline programming is the most efficient way to increase the profitability of the investment as production times are drastically reduced.
This type of tool allows programming without the need to stop production, and can anticipate the construction of future facilities.
In DESCAR we use RobCad, RoboExpert and Process Simulate to carry out training, programming and optimization tasks reducing risks, allowing faster starts, reducing the time of modifications and increasing productivity
ERGONOMY: In the concept of constant improvement of safety, comfort and efficiency conditions in which machines and tools are used, ergonomic analysis is opened along the entire production chain. The correct application of ergonomic concepts ensures the interests of all the actors involved in a plant (workers, employers, manufacturers of machines and tools and suppliers of inputs in general). The ergonomic study of jobs seeks to improve the quality of life of the worker by lowering as much as possible the conditions that make work accidents possible (painful or negligent).
DESCAR uses terminals equipped with PROCESS SIMULATE that allows a complete and thorough analysis of each job
DISCREET EVENTS: In search of constant efficiency in all areas of the plant is necessary global optimization with efficient allocation of resources and high productivity. That is why we start the simulation of discrete events to create a digital model of logistics systems allowing the exploration of the characteristics of the process and its subsequent optimization.
The digital models allow experimenting in hypothetical scenarios analyzing bottlenecks, statistics and performance diagrams. Thanks to this method, reliable decisions are made quickly, the use of resources and materials is optimized in general and specific lines
FEM: The Finite Element Analysis consists of a complex deferential solution approach. Its main tool is the dots mesh (its function is discretizing the solid that we need to analyze). This method is used when there is not an analytical solution. It is widely used in design and / or industrial products enhancement and obtains very close solutions about determinate situations. It is a versatile method because it works with transmission heat situations; fluids mechanics; velocity or pressures calculates; and electromagnetic fields. On DESCAR we make structural calculations, for specific work conditions or external conditions