The virtual training complex should allow simulating the process of conducting laboratory work on stands of the OSM series. Designed to prepare students for laboratory work and test control of knowledge gained as a result of laboratory work. The virtual educational complex is supplied on a USB drive, which is also a license key. The […]

The complex contains didactic software for students to conduct independent laboratory and practical work using a PC in the general technical disciplines “Strength of Materials” and “Technical Mechanics”. The complex consists of twenty laboratory experiments performed in the form of separate software modules for PCs combined into two virtual laboratory stands.

The virtual training complex should allow simulating the process of conducting laboratory work on stands of the MIM series. Designed to prepare students for laboratory work and test control of knowledge gained as a result of laboratory work. The virtual educational complex is supplied on a USB drive, which is also a license key. The […]

The virtual educational complex should allow simulating the process of testing on machines of the UIEM series. Designed to prepare students for laboratory work and test control of knowledge acquired as a result of laboratory work. The virtual educational complex is supplied on a USB drive, which is also a license key. The complex operates […]

Virtual laboratory work contains graphic information, three-dimensional models of materials, equipment, fixtures and tools, similar to real ones. Allows you to conduct laboratory experiments according to methodological recommendations. Can be used as preparation for students to take real laboratory work. Possible integration into the distance education system.

Virtual laboratory work contains graphic information, three-dimensional models of materials, equipment, fixtures and tools, similar to real ones. Allows you to conduct laboratory experiments according to methodological recommendations. Can be used as preparation for students to take real laboratory work. Possible integration into the distance education system.

Virtual laboratory work contains graphic information, three-dimensional models of materials, equipment, fixtures and tools, similar to real ones. Allows you to conduct laboratory experiments according to methodological recommendations. Can be used as preparation for students to take real laboratory work. Possible integration into the distance education system.

Virtual laboratory work contains graphic information, three-dimensional models of materials, equipment, fixtures and tools, similar to real ones. Allows you to conduct laboratory experiments according to methodological recommendations. Can be used as preparation for students to take real laboratory work. Possible integration into the distance education system.

The complex is designed to teach safe techniques for working with instrumentation and test materials when conducting virtual laboratory work. The complex is an effective tool that helps to carry out training, verification and testing of acquired knowledge. The complex is safe and reliable in operation and does not require special maintenance.

Virtual laboratory work contains graphic information, three-dimensional models of materials, equipment, fixtures and tools, similar to real ones. Allows you to conduct laboratory experiments according to methodological recommendations. Can be used as preparation for students to take real laboratory work. Possible integration into the distance education system.

Virtual laboratory work contains graphic information, three-dimensional models of materials, equipment, fixtures and tools, similar to real ones. Allows you to conduct laboratory experiments according to methodological recommendations. Can be used as preparation for students to take real laboratory work. Possible integration into the distance education system.

Virtual laboratory work contains graphic information, three-dimensional models of materials, equipment, fixtures and tools, similar to real ones. Allows you to conduct laboratory experiments according to methodological recommendations. Can be used as preparation for students to take real laboratory work. Possible integration into the distance education system.

Virtual laboratory work contains graphic information, three-dimensional models of materials, equipment, fixtures and tools, similar to real ones. Allows you to conduct laboratory experiments according to methodological recommendations. Can be used as preparation for students to take real laboratory work. Possible integration into the distance education system.

Virtual laboratory work contains graphic information, three-dimensional models of materials, equipment, fixtures and tools, similar to real ones. Allows you to conduct laboratory experiments according to methodological recommendations. Can be used as preparation for students to take real laboratory work. Possible integration into the distance education system.

Virtual laboratory work contains graphic information, three-dimensional models of materials, equipment, fixtures and tools, similar to real ones. Allows you to conduct laboratory experiments according to methodological recommendations. Can be used as preparation for students to take real laboratory work. Possible integration into the distance education system.

Virtual laboratory work contains graphic information, three-dimensional models of materials, equipment, fixtures and tools, similar to real ones. Allows you to conduct laboratory experiments according to methodological recommendations. Can be used as preparation for students to take real laboratory work. Possible integration into the distance education system.

Virtual laboratory work contains graphic information, three-dimensional models of materials, equipment, fixtures and tools, similar to real ones. Allows you to conduct laboratory experiments according to methodological recommendations. Can be used as preparation for students to take real laboratory work. Possible integration into the distance education system.

An interactive virtual stand that contains a description, basic concepts and definitions accompanying work in application programs that implement the finite element calculation method. The stand describes any set of terms, concepts, types of grids, types of calculations, types of elements, etc. presented on a physical stand or simulated in a virtual environment, which is […]

An interactive virtual stand that contains a description and sequence of preprocessor preparation of the model, which includes the creation of a calculation model, creation of a finite element mesh, setting the type of finite element, part material, initial and boundary conditions, etc. The description is relevant for applied calculation software systems: ANSYS, MSC Nastran […]

An interactive virtual stand that contains a description and sequence of actions when performing calculations. The manual also contains a description of the types of calculations performed and the parameters corresponding to the calculations. The description is relevant for applied calculation software systems: ANSYS, MSC Nastran or MSC Marc (specified in the Technical Specifications) and […]

An interactive virtual stand that contains a description and sequence of actions during post-processing processing of finite element analysis results, including visualization of results, construction of graphs, tables, etc. The description is relevant for applied calculation software systems: ANSYS, MSC Nastran or MSC Marc. The manual may be useful to students of technical specialties within […]