THE ORGANIZATION DEVELOPS A STANDARD IN QUALITY MANAGEMENT
DOI:
https://doi.org/10.37547/ijasr-02-06-09Keywords:
IATF 16949:2016, AIAG, APQP method, flow chart, control planAbstract
This article deals with paragraph 8.3 of the IATF 16949: 2016 International Automotive Standard and the APQP Guide developed by the AIAG (Automotive Industry Action Group) Automotive Industry Standardization Group and the Automotive Division of the American Society for Quality Management in the automotive industry. It is recommended to use the APQP method not only in the automotive industry, but also in any design and manufacturing areas.
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Rustamov, U. S., Alixonov, E. J., Erkaboyev, A. X., Isroilova, S. X., & Boymirzayev, A. R. (2021). Farg ‘ona viloyati aholisini elektr energiyasi tanqisligini bartaraf etishda Mikro-GESlardan foydalanish. Oriental renaissance: Innovative,
educational, natural and social sciences, 1(10), 603-610.
Turgunov, B. M., & Muminov, N. S. (2019). Principles of assessment and management of quality systems in industrial enterprises. Точная наука, (44), 5-14.
Xakimov, D.V., Isroilova, S. X., Alikhanov, E.J., Zayliddinov, T.A., & Ergasheva, G.E. (2020). Product Quality Control at Engineering Enterprises. International Journal of Advanced Research in Science, Engineering and Technology, Vol. 7, Issue 2, February 2020, 12843-12848.
Isroilova, S. X. (2021). Proper organization of the quality management system is the basis of competitiveness. Innovative Technologica: Methodical Research Journal, 2(12), 89-99.
Rustamov, U. S., Isroilova, S. X., & Abdumalikova, Z. I. (2022). Mikro-GES va fotoelektrik quyosh elektr stansiyasiga asoslangan kombinirlashgan (aralash) avtonom energiya manbalarining kompyuter modeli. Oriental renaissance: Innovative, educational, natural and social sciences, 2(3), 710-719.
Хакимов, Д.В., & Махмудова, С.Х. (2019). Разработка системы менеджмента качества на промышленном предприятии. Точная наука, (64), 22-26.
Mihoilovich, E. K., & Xabibulloogli, E. A. (2021). Selection of methods of acceptance inspection in production. Academicia: An International Multidisciplinary Research Journal, 11(10), 1350-1355.
Erkaboyev, A. X. O. G. L., & Isroilova, N. F. Q. (2022). Oziq-ovqat mahsulotlarini ishlab chiqarishda iste’molchilar xavfsizligini ta’minlash. Oriental renaissance: Innovative, educational, natural and social sciences, 2(3), 1066-1072.
Masharipov, S. H., Mamatkulov, M. N., & Erkaboyev, A. X. (2020). Metrological Accuracy and Estimation of Extended Uncertainty of Pressure Gauge in Real Conditions of Explaution International journal of advanced research in science. Engineering and technology (IJARSET), 7(5), 13801-5.
Abdumalikova, Z. I. (2021). Metrological provision in the production and its branches. Asian Journal of Multidimensional Research, 10(10), 1492-1496.
Abdumalikova, Z. I. (2021). Manifestation of Sources of Uncertainty in Measurements. Central asian journal of theoretical & Applied sciences, 2(12), 301-305.
Khurshidjon, Y., Abdumalikovna, A. Z., Muminovna, U. G., & Mirzasharifovna, Q. G. (2020). The study of photoelectric and photographic characteristics of semiconductor photographic system ionisation type. Academicia: An International Multidisciplinary Research Journal, 10(5), 72-82.
Абдумаликова, З. И. (2019). Исследование кинетика пробоя в газоразрядной ячейке с полупроводниковым электродом. Евразийский союз ученых, (10-5), 14-18.
Xabibulloogli, E. A., & Abdukarimovna, M. U. (2021). Assesment of metrological reliability of measurements using the method of producing functions. Academicia: An International Multidisciplinary Research Journal, 11(8), 520-528.
Ergashov, K. M., & Madmarova, U. A. (2020). Research of metrological characteristics optoelectronic of devices for control of humidity of installations. Academicia: An International Multidisciplinary Research Journal, 10(11), 1337-1341.
Maxammadovich, I. J. (2022). Use of solar modules for energy supply residential buildings. Gospodarka i Innowacje., 23, 479-482.
Maxammadovich, I. J. (2022). Design Features of Photoelectric Asymmetric Concentrators. Central asian journal of theoretical & applied sciences, 3(5), 384-388.
Йулдашев, X. Т., Эргашев, К. М., Алихонов, Э. Ж., Иброхимов, Ж. М., & Рустамов, У. С. (2021). Исследование процессов токового усиления в системе полупроводник-газоразрядный промежуток. Oriental renaissance: Innovative, educational, natural and social sciences, 1(10), 114-123.
Эргашов, К. М. (2021). Улучшение измерительных параметров двухволнового оптоэлектронного устройства. Universum: технические науки, (11-2 (92)), 49-52.
Yuldashev, K. T., Ergashev, Q. M., Ibrokhimov, J. M., & Madmarova, U. A. (2019). EJ Alikhanov The study of Stability Combustion of the Gas Discharge in Sub-micron Gas-filled Cell with Semiconductor Electrode. International Journal of Advanced Research in Science, Engineering and Technology, 6(11), 11907-11911.
Obidov, J. G., & Alixonov, E. J. (2021). Organization of the education process based on a credit system, advantages and prospects. Academicia: An International Multidisciplinary Research Journal, 11(4), 1149-1155.
Obidov, J. G. O. (2020). About safety technique and issues of supplying electricity of the textile industry. Academicia: An International Multidisciplinary Research Journal, 10(9), 123-127.
Obidov, J. G., & Ibrohimov, J. M. (2021). Application and research of energy-saving lighting devices in engineering networks. Academicia: An International Multidisciplinary Research Journal, 11(4), 1370-1375.
Yuldashev, K. T., Akhmedov, S. S., & Ibrohimov, J. M. (2020). Damping cell from gallium arsenide with plasma contacts in an extreme gas discharge cell. Journal of Tashkent Institute of Railway Engineers, 16(1), 36-41.
Yuldashev, K. T. (2020). Research photoelectric and photographic characteristics of the converter of the image of the ionization type. Scientific Bulletin of Namangan State University, 2(10), 16-22.
Yuldashev, X. T. (2019). Analysis of electrical parameters of the ionization system at high frequency currents. Scientific-technical journal, 23(4), 172-176.
Boymirzaev, A. R. (2021). Optoelectronic two-wave gas analyzer. Innovative Technologica: Methodical Research Journal, 2(12), 127-132.
Тожибоев, А. К., & Боймирзаев, А. Р. (2020). Исследование использования энергосберегающих инверторов в комбинированных источниках энергии. Экономика и социум, (12), 230-235.
Боймирзаев, А. Р. (2019). Особенности свечения разряда в полупроводниковом газоразрядном преобразователе ИК-изображения. Евразийский союз ученых, (10-5), 19-20.
Рустамов, У. С. (2020). Математическое и компьютерное моделирование Микро-ГЭС башенного типа. Экономика и социум, (12), 58-62.
Otakulov, O. X., Ergashev, S. F., Kuldashov, O. X., & Rustamov, U. (2020). Modeling of geothermal Micro-GES. Scientific-technical journal, 24(2), 89-93.
Мамасадиков, Ю. (2021). Aлихонов ЭЖ Оптоэлектронное устройство для контроля линейной плотности хлопковых лент с функциональной разветкой. Universum: технические науки: электрон. научн. журн, 10, 91.
Alikhonov, E. J. (2021). Determination of linear density of cotton ribbons by photoelectric method. Science and Education, 2(11), 461-467.
Мамасадиков, Ю., & Алихонов, Э. Ж. (2020). Фотоэлектрические методы для автоматического контроля линейной плотности хлопковые ленты. НТЖ ФерПИ, 80-85.
Yusupjon, M., & Jamoldinovich, A. E. Photoelectric methods for automatic linear density control cotton tapes. International Journal For Innovative Engineering and Management Research, 9(12), 82-87.
Алихонов, Э. Ж. (2021). Определение линейной плотности хлопковые ленты фотоэлектрическим методом. Universum: технические науки, (11-2 (92)), 35-38.
Jamoldinovich, A. E. (2020). The importance of metrology and standardization today Alikhonov Elmurod. International scientific and technical journal “innovation technical and technology”, 1(4), 1-3.
Mamasodikov, Y., & Qipchaqova, G. M. (2020). Optical and radiation techniques operational control of the cocoon and their evaluation. Academicia: An International Multidisciplinary Research Journal, 10(5), 1581-1590.
Кипчакова, Г. М., & Мирзаев, С. А. (2021). Определение дефектов поверхности текстильных изделий. Universum: технические науки, (10-1 (91)), 83-86.
Qipchaqova, G. M. (2021). Basic errors of optical moisture meters. Academicia: An International Multidisciplinary Research Journal, 11(3), 686-690.
Mamasadikov, Y., & Mamasadikova, Z. Y. (2020). Optoelectronic device for remote control of hydrocarbon concentration in air. Scientific-technical journal, 3(6), 3-7.
Мамасадиков, Ю. М. (2018). Оптоэлектронный двухволновый метод для дистанционного газового анализа. In Современные технологии в нефтегазовом деле-2018 (pp. 158-160).
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