[Case Study] Improvement of Cycle Time through NC Cutting Simulation
Easy, convenient, and highly scalable Velicut! It also helps reduce the burden on workers.
This is a case study introduction for Sakamoto Factory, Production Technology Department of Mino Industrial Co., Ltd. The company consistently carries out everything from casting to processing of aluminum die-cast products and has introduced "Vericut." As a result of the introduction, it has contributed to improvements in cycle time and reduced the burden on workers. "We have high expectations for the future evolution and support of Vericut, which we see as a 'magical machine software that can do anything,'" is the feedback we have received. *For more details, please refer to the PDF document or feel free to contact us.
basic information
For more details, please refer to the PDF document or feel free to contact us.
Price range
Delivery Time
Applications/Examples of results
For more details, please refer to the PDF document or feel free to contact us.
catalog(1)
Download All CatalogsRecommended products
Distributors
CGTech is a global leading company in CNC machine simulation software. Its simulation software, "Vericut," is used in various production environments, including the aerospace industry, automotive, railways, molds, home appliances, power generation, and heavy industry, and is highly regarded worldwide. ■ What is Vericut... Vericut simulates using G-code NC programs for machine tools, unlike CAD/CAM system simulations. Vericut supports a wide range of machine tools, including multi-axis machining such as high-efficiency and high-precision 5-axis processing, lathes, multi-tasking machines, and multi-surface machining machines. ■ Pursuing the perfection of G-code NC programs Vericut provides a "virtual machine" that faithfully reproduces in-machine operations such as macro programs, macro variables, ATC operations, and pallet changes in detail. Vericut offers a variety of features, including not only crash detection but also pre-inspection of over-cutting/under-cutting by comparing the machined cutting model with the design model, as well as optimization of NC programs considering tool load.




























