01 Development of the infrastructure base
Development of the Technical Infrastructure
Development of the technical and technological infrastructure for conducting research and development in the field of mechanical engineering
The Advanced Mechanical Engineering Technologies Center fosters a sustainable engineering environment where the educational process is directly integrated with the solution of practical scientific and technical tasks. The Center’s activities are structured to unite the potential of students, academic supervisors, and industrial partners in order to achieve concrete engineering outcomes.
To develop the scientific, technical, and creative potential of students and to establish an innovative environment for student engineering and research teams.
01 Development of the infrastructure base
Development of the technical and technological infrastructure for conducting research and development in the field of mechanical engineering
02 Industrial Cooperation
Collaboration with industrial partners within educational and scientific-technical projects.
03 Project-Based Activities
Implementation of scientific and technical projects carried out by student research teams in the field of engineering education.
04 Young Professionals
Support for the training of young professionals in modern engineering fields.
05 Popularization
Promotion of engineering specialties offered at Ahmet Baitursynuly Kostanay Regional University.
06 Expert Involvement
Involvement of mechanical engineering industry specialists in educational and scientific-technical projects.
07 Funding
Facilitating the increase in funding for research activities and innovative projects of the University in the field of engineering.
velopment and design of parts, assemblies, and mechanical engineering products.
Engineering and reverse engineering of products and structures.
Creation of digital 3D models and digital twins of products based on 3D scanning with subsequent processing and geometric reconstruction.
Development and manufacturing of prototypes using 3D printing technologies with engineering and composite materials.
Manufacturing of composite products using manual lay-up and vacuum infusion methods, enabling transition from prototype to functional product.
Conducting engineering calculations and computer modeling of structures and processes.
The Center delivers engineering solutions in a results-oriented format. Each solution undergoes digital development, analytical justification, and practical implementation.
Obtaining engineering solutions that take into account real operating conditions and applied context.
Restoration and improvement of existing products based on reverse engineering.
Reducing development time through digital modeling and rapid prototyping.
Utilization of advanced technologies, including 3D scanning, 3D printing, and composite materials, without the need to establish in-house infrastructure.
Engaging motivated engineering teams under academic supervision to address project tasks.
Formation of a talent pipeline of specialists already involved in solving practical engineering tasks.
