Колмаков К.М., Козлов В.Г. «Экспериментально-теоретическое обоснование параметров процесса расснаряжения осколочно-фугасных боеприпасов ультразвуковым способом» Труды международного симпозиума "Надежность и качество", № 2, с. 161-164 (2014)

Левин С.В., Хмелёв В.Н., Хмелёв С.С., Кузовников Ю.М., Цыганок С.Н. «Создание системы контроля для исследования эффективности ультразвуковой обработки в проточных объёмах» Ползуновский вестник, № 3, с. 173-176 (2015)

Рассматривается исследование и создание системы контроля для исследования эффективности ультразвуковой обработки в проточных объёмах, основанной на измерении амплитуды колебаний и ее распределения вдоль поверхности технологических объемов. Ключевые слова: ультразвуковые технологические аппараты, ультразвуковое воздействие.

Шуваев В.Г., Шуваев И.В. «Обеспечение качества резьбовых соединений методами вибрационной диагностики при ультразвуковой сборке» Труды международного симпозиума "Надежность и качество", № 2, с. 116-117 (2014)

Шуваев В.Г., Папшев В.А., Баев И.И. «Использование ультразвуковых колебаний при нарезании резьбы метчиками» Труды международного симпозиума "Надежность и качество", № 2, с. 229-230 (2011)

Шуваев В.Г., Шуваев И.В. «Применение дополнительных ультразвуковых колебаний при ударно-импульсной затяжке резьбовых соединений» Труды международного симпозиума "Надежность и качество", № 2, с. 230-231 (2011)

Папшев В.А., Родимов Г.А., Шапошников С.Д. «Деформационное упрочнение поверхностного слоя деталей в процессе сборки подвижных соединений с применением ультразвуковых колебаний» Труды международного симпозиума "Надежность и качество", № 2, с. 172-174 (2013)

Папшев В.А., Родимов Г.А., Шапошников С.Д. «Влияние ультразвуковых колебаний на точность сборки подвижных соединений» Труды международного симпозиума "Надежность и качество", № 2, с. 174-176 (2013)

Шуваев В.Г. «Направленное формирование параметров качества поверхностного слоя деталей при ультразвуковой финишной обработке» Труды международного симпозиума "Надежность и качество", № 2, с. 169-170 (2015)

Кияновский Н.В., Цывинда Н.И. «Виброакустическая диагностика инструментальных систем в процессах обработки труднообрабатываемых материалов» Морские интеллектуальные технологии, 1, № 3-1, с. 76-83 (2010)

Показаны пути повышения эффективности обработки труднообрабатываемых материалов (высокомарганцовистых сталей) за счет использования в задачах диагностического обеспечения работоспособности режущего инструмента из сверхтвердых материалов на основе кубического нитрида бора впервые установленных диагностических признаков разрушения режущей пластины на частотах резонансных значений амплитуд ее колебаний. Background. Fatigue life of most important details of crushing equipment – wear plates – does not only depend on the operating conditions, but also on the method of their mechanic treatment. Austenitic composition of steel 110Г13Л ensures unique properties – better resistance to wear and tendency to hardening together with high elasticity and impact hardness. This makes it difficult to treat it by cutting action (for example, cuttability for this kind of steel is 1480 MN/m2, while, for example, for steel Х18Н10Т it is only 592 МN/m²). The use of cutting tools with plates made of polycrystalline super hard materials (PSHM) based on cubic boron nitride (CBN) has become the solution to the problem of the decrease of cutting force during the treatment of high manganese steels by sintered-hard alloys from 125 to 8–10 kN. At the same time the longer life of an expensive tool needs the use of diagnostics technologies and methods of prevention of plates’ fractures during the treatment of high manganese steels. Materials and/or methods. As a diagnostic method of technical state of the cutting instrument there has been used the method of vibroacoustic diagnostics with the reading of diagnostic information during the identification of resonance phenomena of the tool’s vibroexcitation. Results. There has been shown for the first time that the level of resonance excitation of a tool with PSHM based on CNB plates during the treatment of high manganese steels is twice bigger than resonance excitation during the treatment of carbon steel of the same hardness. There has been stated the stability of diagnostic reaction to the change of the technical state of a cutting tool, equipped with cutting plates made of PSHM based on CNB during the treatment of details of high manganese steels within the frequency range of 1.6–1.8 kHz. The constant diagnostic characteristic of the beginning of intensive fracture of the cutting plate within the technological parameters of details treatment is the increase by 2.5–2.6 maximums of resonance values of vibration amplitude of a tool on the frequency of their characteristic vibration. Conclusion. It has become possible to diagnostically control the working capacity of the cutting tool, equipped with PSHM based on CNB plates during the mechanic treatment of details of high manganese steels as well as the creation of monitoring systems and adaptive control of the instrument’s resource.

Кияновский Н.В., Цывинда Н.И. «Виброакустическая диагностика инструментальных систем в процессах обработки труднообрабатываемых материалов» Морские интеллектуальные технологии, 1, № 3-1, с. 76-83 (2010)

Показаны пути повышения эффективности обработки труднообрабатываемых материалов (высокомарганцовистых сталей) за счет использования в задачах диагностического обеспечения работоспособности режущего инструмента из сверхтвердых материалов на основе кубического нитрида бора впервые установленных диагностических признаков разрушения режущей пластины на частотах резонансных значений амплитуд ее колебаний. Background. Fatigue life of most important details of crushing equipment – wear plates – does not only depend on the operating conditions, but also on the method of their mechanic treatment. Austenitic composition of steel 110Г13Л ensures unique properties – better resistance to wear and tendency to hardening together with high elasticity and impact hardness. This makes it difficult to treat it by cutting action (for example, cuttability for this kind of steel is 1480 MN/m2, while, for example, for steel Х18Н10Т it is only 592 МN/m²). The use of cutting tools with plates made of polycrystalline super hard materials (PSHM) based on cubic boron nitride (CBN) has become the solution to the problem of the decrease of cutting force during the treatment of high manganese steels by sintered-hard alloys from 125 to 8–10 kN. At the same time the longer life of an expensive tool needs the use of diagnostics technologies and methods of prevention of plates’ fractures during the treatment of high manganese steels. Materials and/or methods. As a diagnostic method of technical state of the cutting instrument there has been used the method of vibroacoustic diagnostics with the reading of diagnostic information during the identification of resonance phenomena of the tool’s vibroexcitation. Results. There has been shown for the first time that the level of resonance excitation of a tool with PSHM based on CNB plates during the treatment of high manganese steels is twice bigger than resonance excitation during the treatment of carbon steel of the same hardness. There has been stated the stability of diagnostic reaction to the change of the technical state of a cutting tool, equipped with cutting plates made of PSHM based on CNB during the treatment of details of high manganese steels within the frequency range of 1.6–1.8 kHz. The constant diagnostic characteristic of the beginning of intensive fracture of the cutting plate within the technological parameters of details treatment is the increase by 2.5–2.6 maximums of resonance values of vibration amplitude of a tool on the frequency of their characteristic vibration. Conclusion. It has become possible to diagnostically control the working capacity of the cutting tool, equipped with PSHM based on CNB plates during the mechanic treatment of details of high manganese steels as well as the creation of monitoring systems and adaptive control of the instrument’s resource.