Механо-фізико-хімічне моделювання процесу руйнування поверхні деталі у вільному абразивному середовищі
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Дата
2020
ORCID
DOI
doi.org/10.20998/2078–7405.2020.92.08
Науковий ступінь
Рівень дисертації
Шифр та назва спеціальності
Рада захисту
Установа захисту
Науковий керівник
Члени комітету
Видавець
Національний технічний університет "Харківський політехнічний інститут"
Анотація
Представлено аналіз явищ в зоні зіткнення гранул робочого середовища з поверхнею деталей. Відзначено, що гранули абразиву, які виступають зі зв’язки зернами, проникають в оброблювану поверхню деталі. Зазначено, що контакт абразивної гранули з поверхнею деталі здійснюється в межах площадок малої величини, які визначаються силою зіткнення, кількістю і станом активних зерен, рівнем їх закріплення, розмірами та фізико-механічними властивостями матеріалу деталі. Розглянуто поведінку одиничної гранули, що переміщується відносно оброблюваної деталі. Виділено основні види впливу абразивного
зерна на оброблювану поверхню. Встановлено параметри режиму обробки, які визначають
характер фізико-механічних процесів взаємодії одиничної гранули й оброблюваної деталі.
Розглянуто відмінності методу віброабразивної обробки від відомих оздоблювально-зачищувальних методів. Наведено механізм руйнування матеріалу деталі та представлені
етапи механо-фізико-хімічного моделювання процесу віброабразивної обробки.
The analysis of the phenomena in the zone of collision of the working medium granules with the parts surface is presented. It is noted that the abrasive granules of are embedded in the processed part surface by the grains protruding from the bundle. It is indicated that the contact of the abrasive granule with the part surface carried out within small size areas, determined by the strength of the collision, the number and state of the active grains, their level of fixation, dimensions and physical and mechanical properties of the part material. The behavior of a single granule moving relative to the processed part is considered. The main types of abrasive grain action on the processed surface are highlighted, that is, cutting, plastic deformation and friction, it is noted that over time, abrasive grain can initially perform only friction, then plastic deformation, then cutting. It is established that such an alternation of the abrasive grains work is associated with the nature of the movement of the granules on the surface of the processed part. High-speed video recording of single processing traces showed that granules leave on contact surfaces the processing traces that are difficult to outline, differ in depth and location on the surface. It was determined that the track depth changes in the direction of granule movement and is calculated by the speed of its movement, as well as by the strength and frequency of penetration into the material of the part during contact. Electron microscopic studies show the presence of adhesive spots and oxide films at the contact sites. This confirms that in the process under consideration, as well as during grinding, polishing, and finishing, continuous exposure of juvenile surfaces occurs. It was established that the interaction of active juvenile surfaces and plastically deformed volumes of metal with aggressive components of the working medium leads to the formation of secondary weakened structures on their surface, the layer thickness of which is 0.05 ... 0.08 μm. The parameters of the processing mode that determine the nature of the physical and mechanical processes of interaction of the single granule and the processed part are established. The differences of the vibrating abrasive treatment method from the known finishing methods are considered. The mechanism of destruction of the part material is shown and the stages of mechanical and physicochemical modeling of the process of vibrating abrasive treatment are presented.
The analysis of the phenomena in the zone of collision of the working medium granules with the parts surface is presented. It is noted that the abrasive granules of are embedded in the processed part surface by the grains protruding from the bundle. It is indicated that the contact of the abrasive granule with the part surface carried out within small size areas, determined by the strength of the collision, the number and state of the active grains, their level of fixation, dimensions and physical and mechanical properties of the part material. The behavior of a single granule moving relative to the processed part is considered. The main types of abrasive grain action on the processed surface are highlighted, that is, cutting, plastic deformation and friction, it is noted that over time, abrasive grain can initially perform only friction, then plastic deformation, then cutting. It is established that such an alternation of the abrasive grains work is associated with the nature of the movement of the granules on the surface of the processed part. High-speed video recording of single processing traces showed that granules leave on contact surfaces the processing traces that are difficult to outline, differ in depth and location on the surface. It was determined that the track depth changes in the direction of granule movement and is calculated by the speed of its movement, as well as by the strength and frequency of penetration into the material of the part during contact. Electron microscopic studies show the presence of adhesive spots and oxide films at the contact sites. This confirms that in the process under consideration, as well as during grinding, polishing, and finishing, continuous exposure of juvenile surfaces occurs. It was established that the interaction of active juvenile surfaces and plastically deformed volumes of metal with aggressive components of the working medium leads to the formation of secondary weakened structures on their surface, the layer thickness of which is 0.05 ... 0.08 μm. The parameters of the processing mode that determine the nature of the physical and mechanical processes of interaction of the single granule and the processed part are established. The differences of the vibrating abrasive treatment method from the known finishing methods are considered. The mechanism of destruction of the part material is shown and the stages of mechanical and physicochemical modeling of the process of vibrating abrasive treatment are presented.
Опис
Ключові слова
пластичне деформування, тертя, сліди обробки, руйнування матеріалу, plastic deformation, friction, traces of processing, destruction of the material
Бібліографічний опис
Міцик А. В. Механо-фізико-хімічне моделювання процесу руйнування поверхні деталі у вільному абразивному середовищі / А. В. Міцик, В. О. Федорович, А. І. Грабченко // Резание и инструменты в технологических системах = Cutting & tools in technological systems : междунар. науч.-техн. сб. – Харьков : НТУ "ХПИ", 2020. – Вып. 92. – С. 62-67.