Digital measurements in mechanical engineering

Description: The discipline studies the methods and technologies of using digital tools to measure various parameters and characteristics in mechanical engineering. Within the framework of this discipline, students study the principles of operation of digital measuring devices, methods of processing and analyzing the data obtained, as well as their application in various branches of mechanical engineering. Such knowledge can improve the accuracy and efficiency of measurements, as well as improve the quality of production and product control.

Amount of credits: 6

Course Workload:

Component: Component by selection

Cycle: Base disciplines

Goal

• The purpose of the discipline "Digital measurements in mechanical engineering" is to teach students modern methods and technologies of digital measurements, which are widely used in modern industry. Students learn the basics of working with digital measuring instruments, software for data processing and analysis, as well as methods to improve the accuracy and reliability of measurements. In addition, within the framework of the discipline, students study the principles of operation of modern measuring systems, including automated control and production process management systems. As a result of studying this discipline, students acquire the necessary knowledge and skills for effective digital measurements in mechanical engineering and other industries.

Objective

• Definition of basic concepts and terms in the field of digital measurements. The study of the principles of operation of digital measuring instruments. Development of methods for calibration and verification of digital measuring instruments. The study of methods of data processing and analysis of measurement results. Determination of errors and uncertainties in digital measurements. Exploring ways to improve the accuracy and reliability of digital measurements. The application of digital measurements in various fields of mechanical engineering, such as quality control, maintenance and diagnostics of equipment. Development and conduct of experiments using digital measuring instruments. The study of modern technologies and trends in the field of digital measurements. Preparation of reports and presentations on the results of digital measurements.

Learning outcome: knowledge and understanding

• The basic principles of operation of digital measuring instruments and their advantages over analog ones. Types of digital measuring instruments, their features and applications in mechanical engineering. Methods of processing and analyzing data obtained using digital measuring instruments. Basic concepts and terms used in digital measurements, such as resolution, accuracy, sampling, and others. Skills in working with digital measuring instruments, carrying out measurements, analyzing results and issuing reports. Understanding the importance of the correct selection and calibration of digital measuring instruments to ensure the accuracy and reliability of measurements. In general, training on this topic will help the student to deepen his knowledge in the field of digital measurements and their application in mechanical engineering, which in the future will allow him to work effectively with modern equipment and carry out accurate measurements to achieve high results in his professional activity., the ability to carry out digital measurements

Learning outcome: applying knowledge and understanding

• The result of training in the field of "Digital measurements in mechanical engineering" will be the ability to apply modern methods and technologies of digital measurements to improve the quality and efficiency of production processes in mechanical engineering. Students will be able to use specialized software and equipment to make accurate measurements, analyze data and optimize production operations. In addition, they will be able to apply their knowledge to develop new measurement methods and improve existing technologies in mechanical engineering.

Learning outcome: formation of judgments

• Digital measurements in mechanical engineering are an integral part of modern manufacturing. They allow you to increase the accuracy of measurements, improve product quality and reduce equipment setup time. Thanks to digital measurements, data can be processed and analyzed quickly, which helps to improve production processes and increase the efficiency of equipment. In general, digital measurements in mechanical engineering play an important role in modern industry and help companies to be competitive in the market.

Learning outcome: communicative abilities

• After completing the training on the topic "Digital measurements in mechanical engineering", the student will acquire the following communication skills: The ability to explain the basic principles and advantages of digital measurements in mechanical engineering to other people. The ability to conduct a dialogue with colleagues and specialists in the field of mechanical engineering on the topic of digital measurements, exchange opinions and experience. The skill of presenting the results of digital measurements in an understandable and accessible form for the audience. The ability to communicate effectively with customers and clients on digital measurement issues within the framework of projects. The ability to argue their decisions and conclusions based on digital measurement data when discussing projects and tasks with the team. These communication skills will help the student successfully apply knowledge about digital measurements in mechanical engineering in practice, as well as effectively interact with colleagues and customers in the professional field.

Learning outcome: learning skills or learning abilities

• After completing the training on the topic "Digital measurements in mechanical engineering", the student can develop the following skills and abilities: The ability to work with modern digital measuring instruments and equipment. Skills in processing and analyzing data obtained from digital measurements. Understanding the principles of operation of digital measuring systems and their application in mechanical engineering. The ability to carry out accurate measurements and quality control of products using digital technologies. The ability to effectively use information technology to process and present measurement results. Teamwork and communication skills with colleagues when performing measurement tasks. In general, training on this topic will allow the student to acquire the necessary knowledge and skills for successful work in the field of mechanical engineering, where digital measurements play an important role in ensuring the quality and accuracy of production.

Teaching methods

1. Lecture-seminar-credit system 2. Research methods 3. Information and communication technologies

Topics of lectures

• Introduction to Digital Measurements in Mechanical Engineering
• Basic principles of digital measurement
• Advantages of digital measurements over analog ones
• Technical means for carrying out digital measurements
• The use of digital measuring instruments to control the size and shape of parts
• Software for analysis and processing of measurement data
• Evaluation of the accuracy and reliability of digital measurements
• Monitoring of equipment and process parameters using digital measuring devices
• Automation of the product quality control process using digital technologies
• Improving production efficiency through digital measurements
• Demonstration of the operation of digital measuring devices in practice
• Analysis of measurement results and decision-making based on the data obtained
• Development of innovative digital measurement methods to improve production processes
• Prospects for the development of digital technologies in the field of measurement
• Recommendations on the use of digital measurements to improve quality and efficiency

Key reading

• Горбунов В. А. Цифровые измерения в машиностроении. - М.: Машиностроение, 2002. Кузнецов В. А. Цифровые методы измерений в машиностроении. - М.: Машиностроение, 2005. Шевченко А. И. Цифровые измерения в машиностроении. - М.: Издательство МГТУ им. Н.Э. Баумана, 2010. Быков В. В. Цифровые технологии в метрологии и измерениях. - СПб.: Политехника, 2012. Смирнов А. В. Цифровые методы измерений и обработки результатов. - М.: Высшая школа, 2014.

Further reading

• Беспалов А.Н., Константинов А.В. Цифровые методы измерений в машиностроении. Москва: Издательский дом МЭИ, 2012. Горбунов В.А., Гречко В.В., Шишов В.В. Цифровые измерения в машиностроении. Москва: Издательство МГТУ им. Н.Э. Баумана, 2015. Кузнецов В.П., Кузнецов П.В. Цифровые измерения в машиностроении. Санкт-Петербург: Издательство Политехнического университета, 2017. Смирнов А.А. Цифровые методы измерений в машиностроении. Москва: Издательство МИЭТ, 2018. Чернышев В.П., Чернышева О.В. Цифровые технологии в машиностроении. Москва: Издательство МАДИ, 2019.