Ð¢ÐµÑ Ð½Ð¾Ð»Ð¾Ð³Ð¸Ñ‡ÐµÑкий процеÑÑ Ð¼ÐµÑ Ð°Ð½Ð¸Ñ‡ÐµÑкой обработки детали "Шпилька"
Ð¢ÐµÑ Ð½Ð¾Ð»Ð¾Ð³Ð¸Ñ‡ÐµÑкий процеÑÑ Ð¼ÐµÑ Ð°Ð½Ð¸Ñ‡ÐµÑкой обработки детали "Шпилька"
Сформулированы оÑновные технологичеÑкие задачи Ð´Ð»Ñ Ð´ÐµÑ‚Ð°Ð»Ð¸ ― «Шпилька», проведена отработка чертежа детали на технологичноÑÑ‚ÑŒ, проведен Ñравнительный анализ двух методов Ð¿Ð¾Ð»ÑƒÑ‡ÐµÐ½Ð¸Ñ Ð·Ð°Ð³Ð¾Ñ‚Ð¾Ð²Ð¾Ðº. Выбран наиболее оптимальный метод Ð¿Ð¾Ð»ÑƒÑ‡ÐµÐ½Ð¸Ñ Ð·Ð°Ð³Ð¾Ñ‚Ð¾Ð²ÐºÐ¸ на оÑнове раÑчета коÑффициента иÑÐ¿Ð¾Ð»ÑŒÐ·Ð¾Ð²Ð°Ð½Ð¸Ñ Ð¼Ð°Ñ‚ÐµÑ€Ð¸Ð°Ð»Ð° (КИМ) и ÑебеÑтоимоÑти чернового Ñтапа обработки. Спроектирован технологичеÑкий процеÑÑ Ð´Ð»Ñ Ð¸Ð·Ð³Ð¾Ñ‚Ð¾Ð²Ð»ÐµÐ½Ð¸Ñ Ð´ÐµÑ‚Ð°Ð»Ð¸ ― «Шпилька» Ñ Ð¿Ñ€Ð¸Ð¼ÐµÐ½ÐµÐ½Ð¸ÐµÐ¼ универÑального оборудованиÑ. Оформлен комплект технологичеÑкой документации. Спроектирован режущий инÑтрумент: токарный фаÑонный резец. Оформлен чертеж Ð´Ð»Ñ Ñпроектированных режущих инÑтрументов. Проведен анализ различных типов загрузочных уÑтройÑтв, применÑемых в качеÑтве ÑредÑтв автоматизации Ð´Ð»Ñ Ð¼ÐµÑ‚Ð°Ð»Ð»Ð¾Ñ€ÐµÐ¶ÑƒÑ‰Ð¸Ñ… Ñтанков.
The main technological tasks for the part – "Pin" were formulated, the drawing of the part was tested for manufacturability, a comparative analysis of two methods of obtaining blanks was carried out. The most optimal method for obtaining a workpiece was selected based on the calculation of the material utilization factor (CMM) and the cost of the roughing stage of processing. A technological process has been designed for the manufacture of a part - "Pin" using universal equipment.A set of technological documentation has been prepared. The cutting tool has been designed: a lathe shaped cutter. Drawn up a drawing for projected cutting tools. The analysis of various types of loading devices used as automation tools for metal-cutting machines is carried out.
technological process, гоÑизонÑалÑно ÑаÑÑоÑной, паÑÑон, пÑоекÑиÑование, ÑазÑабоÑка, lathe shaping tool engineering, ÑÐµÑ Ð½Ð¾Ð»Ð¾Ð³Ð¸ÑеÑкий пÑоÑеÑÑ, horizontal boring machine automatic loading, workpiece, ÑаÑоннÑй ÑезеÑ, cutting tool, cutting machine, деÑалÑ, ÑокаÑнÑй ÑÑанок, operation, меÑаллоÑежÑÑий ÑÑанок, загоÑовка, опеÑаÑиÑ, авÑомаÑиÑеÑÐºÐ°Ñ Ð·Ð°Ð³ÑÑзка, инÑÑÑÑÐ¼ÐµÐ½Ñ ÑежÑÑий, ÑпÑавление, detail, chuck, control
technological process, гоÑизонÑалÑно ÑаÑÑоÑной, паÑÑон, пÑоекÑиÑование, ÑазÑабоÑка, lathe shaping tool engineering, ÑÐµÑ Ð½Ð¾Ð»Ð¾Ð³Ð¸ÑеÑкий пÑоÑеÑÑ, horizontal boring machine automatic loading, workpiece, ÑаÑоннÑй ÑезеÑ, cutting tool, cutting machine, деÑалÑ, ÑокаÑнÑй ÑÑанок, operation, меÑаллоÑежÑÑий ÑÑанок, загоÑовка, опеÑаÑиÑ, авÑомаÑиÑеÑÐºÐ°Ñ Ð·Ð°Ð³ÑÑзка, инÑÑÑÑÐ¼ÐµÐ½Ñ ÑежÑÑий, ÑпÑавление, detail, chuck, control
selected citations These citations are derived from selected sources.This is an alternative to the "Influence" indicator, which also reflects the overall/total impact of an article in the research community at large, based on the underlying citation network (diachronically).0 popularity This indicator reflects the "current" impact/attention (the "hype") of an article in the research community at large, based on the underlying citation network.Average influence This indicator reflects the overall/total impact of an article in the research community at large, based on the underlying citation network (diachronically).Average impulse This indicator reflects the initial momentum of an article directly after its publication, based on the underlying citation network.Average
Citations provided by BIP!Popularity provided by BIP!