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Токарев Антон Николаевич, Юдин Игорь Андреевич, Родько Илья Игоревич, Берестов Александр Васильевич, and Божко Юрий Валентинович
Знание машиностроительного оборудования необходимо при проектировании приборов и установок. Курс посвящен изучению основных методов обработки материалов и используемому при этом оборудованию, технологиям соединения деталей и узлов, нанесения покрытий и обработки поверхностей, методам автоматизации производств и использованию робототехнологических комплексов на производствах, основным трендам развития оборудования и систем его управления, переходу к Индустрии 4.0. Целями курса является формирование у учащихся понимания методов изготовления деталей и узлов разрабатываемой продукции и особенностей разработки машиностроительного...
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Знание машиностроительного оборудования необходимо при проектировании приборов и установок. Курс посвящен изучению основных методов обработки материалов и используемому при этом оборудованию, технологиям соединения деталей и узлов, нанесения покрытий и обработки поверхностей, методам автоматизации производств и использованию робототехнологических комплексов на производствах, основным трендам развития оборудования и систем его управления, переходу к Индустрии 4.0. Целями курса является формирование у учащихся понимания методов изготовления деталей и узлов разрабатываемой продукции и особенностей разработки машиностроительного оборудования, ознакомление с основным парком оборудования, тенденциями его развития и последующем контроле приобретаемых ими компетенций.
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Good to know

Know what's good
, what to watch for
, and possible dealbreakers
Essential for learners interested in understanding the production process of machinery
Taught by notable instructors in this field
Covers key aspects of machine building equipment design and system management
Develops an understanding of machine design and production processes

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Activities

Be better prepared before your course. Deepen your understanding during and after it. Supplement your coursework and achieve mastery of the topics covered in Основные технологии машиностроительных производств with these activities:
Review machine shop fundamentals
Prepare your knowledge about the basics of machine shop fabrication to ensure a strong base for this course.
Browse courses on Machine Tools
Show steps
  • Review notes from previous course(s) and consult textbooks
  • Go through the course syllabus and review unit 1 topics
  • Identify areas where your knowledge is weak and focus on reviewing those
Read "Fundamentals of Machine Elements" by Bernard J. Hamrock, Steven R. Schmid, and Bo O. Jacobson
Familiarize yourself with the core concepts underlying mechanical devices.
Show steps
  • Establish a baseline understanding of the basic concepts and terminology used in mechanical engineering.
  • Apply fundamental principles of mechanics and materials science to analyze and design machine components.
  • Critically assess the performance and reliability of machine elements under various operating conditions.
Read "Machining and Machine Tools" by A.B. Chattopadhyay
Gain a comprehensive understanding of the theory and practice of machining and machine tools.
Show steps
  • Describe the fundamental principles and processes involved in machining and machine tools.
  • Analyze the performance and efficiency of various machining operations.
  • Select and apply appropriate tooling and techniques for different machining applications.
Six other activities
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Solve practice problems on machine design and analysis
Strengthen your ability to apply theoretical concepts to real-world design and analysis problems.
Show steps
  • Identify and formulate engineering problems related to machine design and analysis.
  • Apply appropriate analytical and numerical techniques to solve these problems.
  • Evaluate the validity and accuracy of the obtained solutions.
Design and simulate a simple machine component
Develop your skills in designing and analyzing machine components using computer-aided tools.
Show steps
  • Define the functional requirements and specifications for the machine component.
  • Sketch and model the component using computer-aided design software.
  • Simulate the performance of the component under various operating conditions.
  • Analyze the simulation results and make necessary design modifications.
Attend a workshop on advanced manufacturing techniques
Get hands-on experience with cutting-edge manufacturing technologies.
Browse courses on Advanced Manufacturing
Show steps
  • Identify and research relevant workshops in your area.
  • Register and attend the workshop.
  • Actively participate in the demonstrations and exercises.
  • Network with industry experts and fellow participants.
Participate in a machine design competition
Challenge yourself to solve real-world design problems and showcase your skills.
Show steps
  • Identify and research relevant competitions.
  • Form a team and develop a concept for your design.
  • Design, build, and test your prototype.
  • Present your design to a panel of judges.
Mentor a junior student in machine design
Reinforce your understanding by sharing your knowledge and skills with others.
Browse courses on Mentoring
Show steps
  • Identify and reach out to potential mentees.
  • Establish regular meetings and provide guidance on machine design concepts.
  • Review mentee's work and provide constructive feedback.
  • Attend mentee's presentations and offer support.
Contribute to an open-source machine design project
Engage with the global machine design community and contribute to real-world projects.
Browse courses on Open Source
Show steps
  • Identify and research open-source machine design projects.
  • Join the project community and learn about their goals.
  • Identify areas where you can contribute your skills.
  • Submit your contributions and collaborate with other developers.

Career center

Learners who complete Основные технологии машиностроительных производств will develop knowledge and skills that may be useful to these careers:
Mechanical Engineer
Mechanical Engineers are responsible for designing and developing mechanical systems and components. This course, Основные технологии машиностроительных производств, may be useful. It provides knowledge of machine tools, technologies for joining parts and assemblies, methods of surface treatment, methods of automating production, and the use of robotic technology complexes in production. This knowledge can help Mechanical Engineers to design and develop more efficient and reliable mechanical systems.
Technical Writer
Technical Writers are responsible for writing and editing technical documentation. This course, Основные технологии машиностроительных производств, may be useful. It provides knowledge of machine tools, technologies for joining parts and assemblies, methods of surface treatment, methods of automating production, and the use of robotic technology complexes in production. This knowledge can help Technical Writers to write and edit technical documentation that is more accurate, clear, and concise.
Mechatronics Engineer
Mechatronics Engineers are responsible for designing, developing, and maintaining systems that combine mechanical, electrical, and computer engineering. This course, Основные технологии машиностроительных производств, may be useful. It provides knowledge of machine tools, technologies for joining parts and assemblies, methods of surface treatment, methods of automating production, and the use of robotic technology complexes in production. This knowledge can help Mechatronics Engineers to design, develop, and maintain systems that combine mechanical, electrical, and computer engineering more efficiently and effectively.
Industrial Engineer
Industrial Engineers are responsible for improving the efficiency and effectiveness of industrial processes. This course, Основные технологии машиностроительных производств, may be useful. It provides knowledge of machine tools, technologies for joining parts and assemblies, methods of surface treatment, methods of automating production, and the use of robotic technology complexes in production. This knowledge can help Industrial Engineers to identify and implement improvements to industrial processes.
Manufacturing Engineer
Manufacturing Engineers are responsible for planning, implementing, and improving manufacturing processes. This course, Основные технологии машиностроительных производств, may be useful. It provides knowledge of machine tools, technologies for joining parts and assemblies, methods of surface treatment, methods of automating production, and the use of robotic technology complexes in production. This knowledge can help Manufacturing Engineers to design and improve more efficient and effective manufacturing processes.
Production Manager
Production Managers are responsible for overseeing the production process and ensuring that products are manufactured efficiently and effectively. This course, Основные технологии машиностроительных производств, may be useful. It provides knowledge of machine tools, technologies for joining parts and assemblies, methods of surface treatment, methods of automating production, and the use of robotic technology complexes in production. This knowledge can help Production Managers to make informed decisions about the production process and to ensure that products are manufactured to the highest standards.
Quality Control Inspector
Quality Control Inspectors are responsible for ensuring that products meet quality standards. This course, Основные технологии машиностроительных производств, may be useful. It provides knowledge of machine tools, technologies for joining parts and assemblies, methods of surface treatment, methods of automating production, and the use of robotic technology complexes in production. This knowledge can help Quality Control Inspectors to identify and correct defects in products.
Product Designer
Product Designers are responsible for designing and developing products. This course, Основные технологии машиностроительных производств, may be useful. It provides knowledge of machine tools, technologies for joining parts and assemblies, methods of surface treatment, methods of automating production, and the use of robotic technology complexes in production. This knowledge can help Product Designers to design and develop products that are more efficient, effective, and user-friendly.
Automation Engineer
Automation Engineers are responsible for designing, implementing, and maintaining automated systems. This course, Основные технологии машиностроительных производств, may be useful. It provides knowledge of machine tools, technologies for joining parts and assemblies, methods of surface treatment, methods of automating production, and the use of robotic technology complexes in production. This knowledge can help Automation Engineers to design, implement, and maintain automated systems more efficiently and effectively.
Robotics Technician
Robotics Technicians are responsible for installing, maintaining, and repairing robots. This course, Основные технологии машиностроительных производств, may be useful. It provides knowledge of machine tools, technologies for joining parts and assemblies, methods of surface treatment, methods of automating production, and the use of robotic technology complexes in production. This knowledge can help Robotics Technicians to install, maintain, and repair robots more efficiently and effectively.
Research Engineer
Research Engineers are responsible for conducting research and development in the field of engineering. This course, Основные технологии машиностроительных производств, may be useful. It provides knowledge of machine tools, technologies for joining parts and assemblies, methods of surface treatment, methods of automating production, and the use of robotic technology complexes in production. This knowledge can help Research Engineers to conduct research and development in the field of engineering more efficiently and effectively.
Project Engineer
Project Engineers are responsible for managing and overseeing engineering projects. This course, Основные технологии машиностроительных производств, may be useful. It provides knowledge of machine tools, technologies for joining parts and assemblies, methods of surface treatment, methods of automating production, and the use of robotic technology complexes in production. This knowledge can help Project Engineers to manage and oversee engineering projects more efficiently and effectively.
Tool and Die Maker
Tool and Die Makers are responsible for making and repairing tools and dies. This course, Основные технологии машиностроительных производств, may be useful. It provides knowledge of machine tools, technologies for joining parts and assemblies, methods of surface treatment, methods of automating production, and the use of robotic technology complexes in production. This knowledge can help Tool and Die Makers to make and repair tools and dies more efficiently and effectively.
Machine Operator
Machine Operators are responsible for operating and maintaining machinery. This course, Основные технологии машиностроительных производств, may be useful. It provides knowledge of machine tools, technologies for joining parts and assemblies, methods of surface treatment, methods of automating production, and the use of robotic technology complexes in production. This knowledge can help Machine Operators to operate and maintain machinery more efficiently and effectively.
Maintenance Mechanic
Maintenance Mechanics are responsible for maintaining and repairing machinery and equipment. This course, Основные технологии машиностроительных производств, may be useful. It provides knowledge of machine tools, technologies for joining parts and assemblies, methods of surface treatment, methods of automating production, and the use of robotic technology complexes in production. This knowledge can help Maintenance Mechanics to maintain and repair machinery and equipment more efficiently and effectively.

Reading list

We've selected ten books that we think will supplement your learning. Use these to develop background knowledge, enrich your coursework, and gain a deeper understanding of the topics covered in Основные технологии машиностроительных производств.
This textbook provides a comprehensive overview of manufacturing processes, including machining, forming, and assembly. It is commonly used as a textbook in engineering programs.
Provides a comprehensive overview of the principles of machine component design, covering topics such as stress analysis, material selection, and failure prevention. It would be a useful reference for students who want to deepen their understanding of the design principles behind the equipment and processes covered in the course.
Provides an overview of advanced machining processes, such as EDM, laser cutting, and 3D printing. It valuable reference for engineers and researchers involved in these technologies.
Provides a comprehensive overview of CAD/CAM, covering topics such as geometric modeling, computer-aided manufacturing, and rapid prototyping. It would be a useful reference for students who want to learn more about the use of CAD/CAM in машиностроительных производств.
Provides a comprehensive overview of advanced machining processes, covering topics such as laser machining, waterjet cutting, and electrochemical machining. It would be a useful reference for students who want to learn more about the latest developments in machining technology.
Provides a comprehensive overview of automation, production systems, and computer-integrated manufacturing, covering topics such as robotics, programmable logic controllers, and flexible manufacturing systems. It would be a useful reference for students who want to learn more about the latest developments in automation and manufacturing technology.
Provides a comprehensive overview of modern manufacturing, covering topics such as materials, processes, and automation. It would be a useful reference for students who want to learn more about the latest developments in manufacturing technology.
Provides a comprehensive overview of engineering mechanics, covering topics such as statics, dynamics, and mechanics of materials. It would be a useful reference for students who want to learn more about the fundamental principles of engineering.
Provides a comprehensive overview of thermodynamics, covering topics such as the laws of thermodynamics, heat transfer, and power cycles. It would be a useful reference for students who want to learn more about the fundamental principles of thermodynamics.

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