The master's dissertation consists of list of notations, an introduction and 5 sections, a conclusions and a list of references. The total volume is 110 pages, with 42 illustrations, 26 tables and 28 references.
This topic is relevant because the need for automation is growing rapidly in various industries. With the development of new technologies and computer technology, it has become possible to solve many issues in the field of automation and optimization of certain processes, which began to be performed much faster and better.
The master's dissertation consists of six sections, 111 pages, contains 40 illustrations, 21 sources were processed.
Relevance of the topic: ultrasonic methods of non-destructive testing have become widespread in metallurgy, mechanical engineering, construction, assessment of the quality of welds and the condition of operating materials and structural elements. Ultrasound does not destroy or damage the sample and is characterized by high speed and reliability of the study in the absence of danger to humans. Timely control helps to identify defective products in the early stages of production, to establish the suitability for operation of existing structural elements and to prevent accidents. Therefore, the improvement of qualitative and quantitative indicators of control by ultrasonic methods is an urgent area of development of non-destructive testing.
To date, many welded structures have been widely used in many industries. The advantages of this method of bonding various metal structures are the savings of metal, cost reduction, speed of operation and strengthening the structure as a whole. Failure to provide the required quality of welded joints can lead to the destruction of such objects, so controlling them for defects is an urgent task nowadays. In a master's thesis, this problem is solved by developing an ultrasonic automated system for the control of welded joints.
In the master's thesis the instruments, axle control systems, their comparison, and the choice of the method of the method of analysis were analyzed.
The characteristics of the automated non-destructive testing system, advantages and disadvantages are considered. An ultrasonic wheel axle control system was developed. A system is proposed that includes a mechanical block, a flaw detection unit, and a data processing unit. The defectoscopy unit consists of four channels of two transducers in each.
The master's thesis consists of four sections, 90 pages, 35 illustrations, 27 tables, 18 sources of literature were processed.
The first section provided an analytical review that looked at the object of control. The methods of non-destructive testing of tanks, their advantages and disadvantages are analyzed. In the second section, a direct combined piezoelectric transducer and a prism were calculated. The calculations of the acoustic and electroacoustic tracts were carried out. A structural scheme is developed, and a functional scheme is based on it. All nodes of the functional circuit are calculated and agreed. In the third section, the automation system was calculated and modeled in the SolidWorks software environment. In the fourth development of the startup project was carried out: market analysis, search for competitors, etc. Based on the calculations, an electrical circuit design was designed.
