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Array ( [0] => stdClass Object ( [id] => 280802 [label] => 1. Значение проблемы надежности для технологических систем. Показатели безотказности [private] => 0 [hits] => 97 [like] => 0 [extra_title] => [site_id] => [content_unique] => [abs_unique] => [category_id] => 0 [metka] => 1579284864 [ban] => 4 ) [1] => stdClass Object ( [id] => 280803 [label] => 2. Показатели долговечности и ремонтопригодности. Параметрическая надежность систем. [private] => 0 [hits] => 90 [like] => 0 [extra_title] => [site_id] => [content_unique] => [abs_unique] => [category_id] => 0 [metka] => 1579697369 [ban] => 4 ) [2] => stdClass Object ( [id] => 280804 [label] => 3. Представление о состоянии изделия, как о траектории случайного процесса в фазовом пространстве [private] => 0 [hits] => 90 [like] => 0 [extra_title] => [site_id] => [content_unique] => [abs_unique] => [category_id] => 0 [metka] => 1579285179 [ban] => 1 ) [3] => stdClass Object ( [id] => 280805 [label] => 4. Анализ области работоспособности изделия. [private] => 0 [hits] => 94 [like] => 0 [extra_title] => [site_id] => [content_unique] => [abs_unique] => [category_id] => 0 [metka] => 1579699528 [ban] => 1 ) [4] => stdClass Object ( [id] => 280806 [label] => 5. Формализация процесса потери работоспособности [private] => 0 [hits] => 90 [like] => 0 [extra_title] => [site_id] => [content_unique] => [abs_unique] => [category_id] => 0 [metka] => 1579285281 [ban] => 4 ) [5] => stdClass Object ( [id] => 280807 [label] => 6. Взаимодействие системы со средой, как система автоматического регулирования Переходные процессы при изменении работоспособности изделия [private] => 0 [hits] => 99 [like] => 0 [extra_title] => [site_id] => [content_unique] => [abs_unique] => [category_id] => 0 [metka] => 1579285497 [ban] => 4 ) [6] => stdClass Object ( [id] => 280808 [label] => 7. Применение нормального распределения в теории надежности. [private] => 0 [hits] => 92 [like] => 0 [extra_title] => [site_id] => [content_unique] => [abs_unique] => [category_id] => 0 [metka] => 1579700399 [ban] => 1 ) [7] => stdClass Object ( [id] => 280809 [label] => 8. Построение эмпирической функции распределения вероятности безотказной работы или функции распределения вероятности отказа [private] => 0 [hits] => 109 [like] => 0 [extra_title] => [site_id] => [content_unique] => [abs_unique] => [category_id] => 0 [metka] => 1579285830 [ban] => 1 ) [8] => stdClass Object ( [id] => 280810 [label] => 9. Применение логарифмически-нормального распределения в теории надежности. [private] => 0 [hits] => 103 [like] => 0 [extra_title] => [site_id] => [content_unique] => [abs_unique] => [category_id] => 0 [metka] => 1579700655 [ban] => 1 ) [9] => stdClass Object ( [id] => 280811 [label] => 10. Определение технического ресурса технологической системы в зависимости от ресурсов её узлов, агрегатов, деталей [private] => 0 [hits] => 89 [like] => 0 [extra_title] => [site_id] => [content_unique] => [abs_unique] => [category_id] => 0 [metka] => 1579701635 [ban] => 4 ) [10] => stdClass Object ( [id] => 280812 [label] => 11. Оценка параметров распределения методом приравнивания моментов [private] => 0 [hits] => 87 [like] => 0 [extra_title] => [site_id] => [content_unique] => [abs_unique] => [category_id] => 0 [metka] => 1579616785 [ban] => 1 ) [11] => stdClass Object ( [id] => 280813 [label] => 12. Применение распределения Вейбулла в теории надежности. [private] => 0 [hits] => 106 [like] => 0 [extra_title] => [site_id] => [content_unique] => [abs_unique] => [category_id] => 0 [metka] => 1579701741 [ban] => 1 ) [12] => stdClass Object ( [id] => 280814 [label] => 13. Основные направления прогнозирования надежности сложных систем [private] => 0 [hits] => 81 [like] => 0 [extra_title] => [site_id] => [content_unique] => [abs_unique] => [category_id] => 0 [metka] => 1579616862 [ban] => 1 ) [13] => stdClass Object ( [id] => 280815 [label] => 14. Основные классы задач прогнозирования надежности систем [private] => 0 [hits] => 95 [like] => 0 [extra_title] => [site_id] => [content_unique] => [abs_unique] => [category_id] => 0 [metka] => 1579616900 [ban] => 4 ) [14] => stdClass Object ( [id] => 280816 [label] => 15. Проверка однородности результатов наблюдений, Сущность метода критерия χ2, критерия Андерсона, критерия знаков. [private] => 0 [hits] => 101 [like] => 0 [extra_title] => [site_id] => [content_unique] => [abs_unique] => [category_id] => 0 [metka] => 1579703294 [ban] => 1 ) [15] => stdClass Object ( [id] => 280817 [label] => 16. Значения явлений в поверхностных слоях при разрушении и старении материалов [private] => 0 [hits] => 94 [like] => 0 [extra_title] => [site_id] => [content_unique] => [abs_unique] => [category_id] => 0 [metka] => 1579616969 [ban] => 4 ) [16] => stdClass Object ( [id] => 280818 [label] => 17. Обобщенная схема прогнозирования надежности технологических систем [private] => 0 [hits] => 88 [like] => 0 [extra_title] => [site_id] => [content_unique] => [abs_unique] => [category_id] => 0 [metka] => 1579617020 [ban] => 1 ) [17] => stdClass Object ( [id] => 280819 [label] => 18. Метод эталонных (нормированных) модулей . Комплексный метод испытаний и диагностирования систем по их выходным параметрам. [private] => 0 [hits] => 89 [like] => 0 [extra_title] => [site_id] => [content_unique] => [abs_unique] => [category_id] => 0 [metka] => 1579617078 [ban] => 4 ) [18] => stdClass Object ( [id] => 280820 [label] => 19. Отказы. Классификация отказов по характеру изменений параметров. [private] => 0 [hits] => 99 [like] => 0 [extra_title] => [site_id] => [content_unique] => [abs_unique] => [category_id] => 0 [metka] => 1579703769 [ban] => 4 ) [19] => stdClass Object ( [id] => 280821 [label] => 20. Методы прогнозирования, основанные на экспертных оценках [private] => 0 [hits] => 98 [like] => 0 [extra_title] => [site_id] => [content_unique] => [abs_unique] => [category_id] => 0 [metka] => 1579704237 [ban] => 4 ) [20] => stdClass Object ( [id] => 280822 [label] => 21. Показатели надежности невосстанавливаемых систем [private] => 0 [hits] => 79 [like] => 0 [extra_title] => [site_id] => [content_unique] => [abs_unique] => [category_id] => 0 [metka] => 1579705304 [ban] => 4 ) [21] => stdClass Object ( [id] => 280823 [label] => 22. Напряженное состояние поверхностного слоя [private] => 0 [hits] => 89 [like] => 0 [extra_title] => [site_id] => [content_unique] => [abs_unique] => [category_id] => 0 [metka] => 1579617212 [ban] => 4 ) [22] => stdClass Object ( [id] => 280824 [label] => 23. Классификация процессов старения [private] => 0 [hits] => 100 [like] => 0 [extra_title] => [site_id] => [content_unique] => [abs_unique] => [category_id] => 0 [metka] => 1579617242 [ban] => 4 ) [23] => stdClass Object ( [id] => 280825 [label] => 24. Прямые методы измерения диагностики и контроля параметров технологических систем [private] => 0 [hits] => 90 [like] => 0 [extra_title] => [site_id] => [content_unique] => [abs_unique] => [category_id] => 0 [metka] => 1579705629 [ban] => 4 ) [24] => stdClass Object ( [id] => 280826 [label] => 25. Методы моделирования прогнозирования надежности технологических систем [private] => 0 [hits] => 93 [like] => 0 [extra_title] => [site_id] => [content_unique] => [abs_unique] => [category_id] => 0 [metka] => 1579706116 [ban] => 4 ) [25] => stdClass Object ( [id] => 280827 [label] => 26. Оценка качества прогнозирования надежности изделия [private] => 0 [hits] => 90 [like] => 0 [extra_title] => [site_id] => [content_unique] => [abs_unique] => [category_id] => 0 [metka] => 1579617401 [ban] => 1 ) [26] => stdClass Object ( [id] => 280828 [label] => 27. Сущность радиоактивных методов измерения диагностики и контроля параметров технологических систем [private] => 0 [hits] => 95 [like] => 0 [extra_title] => [site_id] => [content_unique] => [abs_unique] => [category_id] => 0 [metka] => 1579617447 [ban] => 1 ) [27] => stdClass Object ( [id] => 280829 [label] => 28. Комбинированная структурная схема надежности, резервирование 2/3. Вероятность безотказной работы этих системы. [private] => 0 [hits] => 85 [like] => 0 [extra_title] => [site_id] => [content_unique] => [abs_unique] => [category_id] => 0 [metka] => 1579707248 [ban] => 1 ) [28] => stdClass Object ( [id] => 280830 [label] => 29. Типовые закономерности протекания процессов старения во времени [private] => 0 [hits] => 94 [like] => 0 [extra_title] => [site_id] => [content_unique] => [abs_unique] => [category_id] => 0 [metka] => 1579617589 [ban] => 1 ) [29] => stdClass Object ( [id] => 280831 [label] => 30. Скользящее, смешанное, общее, постоянное резервирование [private] => 0 [hits] => 97 [like] => 0 [extra_title] => [site_id] => [content_unique] => [abs_unique] => [category_id] => 0 [metka] => 1579706760 [ban] => 4 ) [30] => stdClass Object ( [id] => 280832 [label] => 31. Пример линейной зависимости, описывающей процесс повреждения. [private] => 0 [hits] => 89 [like] => 0 [extra_title] => [site_id] => [content_unique] => [abs_unique] => [category_id] => 0 [metka] => 1579617657 [ban] => 1 ) [31] => stdClass Object ( [id] => 280833 [label] => 32. Пример процесса с наличием экстремума, описывающего процесс повреждения [private] => 0 [hits] => 84 [like] => 0 [extra_title] => [site_id] => [content_unique] => [abs_unique] => [category_id] => 0 [metka] => 1579617722 [ban] => 1 ) [32] => stdClass Object ( [id] => 280834 [label] => 33. Пример процесса с наличием экстремума, описывающего процесс повреждения [private] => 0 [hits] => 98 [like] => 0 [extra_title] => [site_id] => [content_unique] => [abs_unique] => [category_id] => 0 [metka] => 1579617737 [ban] => 1 ) [33] => stdClass Object ( [id] => 280835 [label] => 34. Пример процесса с запаздыванием начала повреждения [private] => 0 [hits] => 87 [like] => 0 [extra_title] => [site_id] => [content_unique] => [abs_unique] => [category_id] => 0 [metka] => 1579703333 [ban] => 1 ) [34] => stdClass Object ( [id] => 280836 [label] => 35. Методы физического моделирования, основанные на теории подобия, их применение в исследованиях показателей надежности. [private] => 0 [hits] => 95 [like] => 0 [extra_title] => [site_id] => [content_unique] => [abs_unique] => [category_id] => 0 [metka] => 1579703830 [ban] => 4 ) [35] => stdClass Object ( [id] => 280837 [label] => 36. Оценка предельного состояния изделия [private] => 0 [hits] => 105 [like] => 0 [extra_title] => [site_id] => [content_unique] => [abs_unique] => [category_id] => 0 [metka] => 1579617856 [ban] => 1 ) [36] => stdClass Object ( [id] => 280838 [label] => 37. Оценка предельного состояния изделия по степени повреждения и по выходному параметру. Критерии оценки предельного состояния по выходному параметру [private] => 0 [hits] => 100 [like] => 0 [extra_title] => [site_id] => [content_unique] => [abs_unique] => [category_id] => 0 [metka] => 1579617871 [ban] => 1 ) [37] => stdClass Object ( [id] => 280839 [label] => 38. Факторы, влияющие на надежность систем [private] => 0 [hits] => 83 [like] => 0 [extra_title] => [site_id] => [content_unique] => [abs_unique] => [category_id] => 0 [metka] => 1579704168 [ban] => 4 ) [38] => stdClass Object ( [id] => 280840 [label] => 39. Методы испытания на надежность. [private] => 0 [hits] => 90 [like] => 0 [extra_title] => [site_id] => [content_unique] => [abs_unique] => [category_id] => 0 [metka] => 1579704398 [ban] => 4 ) [39] => stdClass Object ( [id] => 280841 [label] => 40. Оценка надежности изделий по результатам испытаний [private] => 0 [hits] => 91 [like] => 0 [extra_title] => [site_id] => [content_unique] => [abs_unique] => [category_id] => 0 [metka] => 1579617967 [ban] => 1 ) [40] => stdClass Object ( [id] => 280842 [label] => 41. Аналитические расчеты показателей надежности. Оценка вероятности безотказной работы. [private] => 0 [hits] => 100 [like] => 0 [extra_title] => [site_id] => [content_unique] => [abs_unique] => [category_id] => 0 [metka] => 1579618854 [ban] => 1 ) [41] => stdClass Object ( [id] => 280843 [label] => 42. Определение технического ресурса технологической системы [private] => 0 [hits] => 101 [like] => 0 [extra_title] => [site_id] => [content_unique] => [abs_unique] => [category_id] => 0 [metka] => 1579618910 [ban] => 1 ) [42] => stdClass Object ( [id] => 280844 [label] => 43. Определение числа запасных частей изделия и материалов для технического обслуживания и ремонта с учётом показателей надёжности [private] => 0 [hits] => 97 [like] => 0 [extra_title] => [site_id] => [content_unique] => [abs_unique] => [category_id] => 0 [metka] => 1579618976 [ban] => 4 ) [43] => stdClass Object ( [id] => 280845 [label] => 44. Оценка классификационных признаков составных частей системы для выбора номенклатуры ЗИПа. Определение числа ЗИП [private] => 0 [hits] => 93 [like] => 0 [extra_title] => [site_id] => [content_unique] => [abs_unique] => [category_id] => 0 [metka] => 1579618985 [ban] => 4 ) [44] => stdClass Object ( [id] => 280846 [label] => 45. Методика расчёта номенклатуры ЗИПа [private] => 0 [hits] => 91 [like] => 0 [extra_title] => [site_id] => [content_unique] => [abs_unique] => [category_id] => 0 [metka] => 1579704594 [ban] => 4 ) [45] => stdClass Object ( [id] => 280847 [label] => 46. Три уровня изучения поведения материалов. [private] => 0 [hits] => 80 [like] => 0 [extra_title] => [site_id] => [content_unique] => [abs_unique] => [category_id] => 0 [metka] => 1579619047 [ban] => 4 ) [46] => stdClass Object ( [id] => 280848 [label] => 47. Применение экспоненциального распределения в теории надежности. [private] => 0 [hits] => 82 [like] => 0 [extra_title] => [site_id] => [content_unique] => [abs_unique] => [category_id] => 0 [metka] => 1579706498 [ban] => 1 ) [47] => stdClass Object ( [id] => 280849 [label] => 48. Приближённый метод расчёта численного состава запасных частей [private] => 0 [hits] => 94 [like] => 0 [extra_title] => [site_id] => [content_unique] => [abs_unique] => [category_id] => 0 [metka] => 1579619113 [ban] => 1 ) [48] => stdClass Object ( [id] => 280850 [label] => 49. Уточнённый метод расчёта численного состава запасных частей [private] => 0 [hits] => 91 [like] => 0 [extra_title] => [site_id] => [content_unique] => [abs_unique] => [category_id] => 0 [metka] => 1579619209 [ban] => 1 ) [49] => stdClass Object ( [id] => 280851 [label] => 50. Метод расчёта численного состава запасных частей на основании систематизации отказов систем, их узлов в эксплуатации и плановых технических обслуживании и ремонтов [private] => 0 [hits] => 87 [like] => 0 [extra_title] => [site_id] => [content_unique] => [abs_unique] => [category_id] => 0 [metka] => 1579620556 [ban] => 1 ) [50] => stdClass Object ( [id] => 280852 [label] => 51. Основная цель диагностирования технологической системы. Общая схема проведения испытаний и диагностирования на стадии проектирования опытных образцов [private] => 0 [hits] => 90 [like] => 0 [extra_title] => [site_id] => [content_unique] => [abs_unique] => [category_id] => 0 [metka] => 1579620566 [ban] => 4 ) [51] => stdClass Object ( [id] => 280853 [label] => 52. Методы диагностики и контроля параметров технологических систем [private] => 0 [hits] => 89 [like] => 0 [extra_title] => [site_id] => [content_unique] => [abs_unique] => [category_id] => 0 [metka] => 1579708087 [ban] => 4 ) [52] => stdClass Object ( [id] => 280854 [label] => 53. Статистические методы прогнозирования надежности технологических систем [private] => 0 [hits] => 90 [like] => 0 [extra_title] => [site_id] => [content_unique] => [abs_unique] => [category_id] => 0 [metka] => 1579620672 [ban] => 1 ) [53] => stdClass Object ( [id] => 280855 [label] => 54. Электропотенциальные методы определения состояния технологической системы [private] => 0 [hits] => 85 [like] => 0 [extra_title] => [site_id] => [content_unique] => [abs_unique] => [category_id] => 0 [metka] => 1579620697 [ban] => 1 ) [54] => stdClass Object ( [id] => 280856 [label] => 55. Ультразвуковые методы определения состояния технологической системы [private] => 0 [hits] => 91 [like] => 0 [extra_title] => [site_id] => [content_unique] => [abs_unique] => [category_id] => 0 [metka] => 1579620722 [ban] => 1 ) [55] => stdClass Object ( [id] => 280857 [label] => 56. Капиллярные методы определения состояния технологической системы [private] => 0 [hits] => 97 [like] => 0 [extra_title] => [site_id] => [content_unique] => [abs_unique] => [category_id] => 0 [metka] => 1579620753 [ban] => 1 ) [56] => stdClass Object ( [id] => 280858 [label] => 57. Косвенные методы измерений диагностируемых параметров [private] => 0 [hits] => 87 [like] => 0 [extra_title] => [site_id] => [content_unique] => [abs_unique] => [category_id] => 0 [metka] => 1579620781 [ban] => 4 ) [57] => stdClass Object ( [id] => 280859 [label] => 58. Датчики для диагностирования технологических систем [private] => 0 [hits] => 95 [like] => 0 [extra_title] => [site_id] => [content_unique] => [abs_unique] => [category_id] => 0 [metka] => 1579620807 [ban] => 1 ) [58] => stdClass Object ( [id] => 280860 [label] => 59. Изнашивание деталей систем, классификация изнашивания. [private] => 0 [hits] => 91 [like] => 0 [extra_title] => [site_id] => [content_unique] => [abs_unique] => [category_id] => 0 [metka] => 1579707543 [ban] => 4 ) [59] => stdClass Object ( [id] => 280861 [label] => 60. Датчики внутренней информации для диагностирования технологических систем [private] => 0 [hits] => 98 [like] => 0 [extra_title] => [site_id] => [content_unique] => [abs_unique] => [category_id] => 0 [metka] => 1579620861 [ban] => 4 ) [60] => stdClass Object ( [id] => 280862 [label] => 61. Визуально-оптические методы определения состояния технологической системы [private] => 0 [hits] => 92 [like] => 0 [extra_title] => [site_id] => [content_unique] => [abs_unique] => [category_id] => 0 [metka] => 1579620887 [ban] => 1 ) [61] => stdClass Object ( [id] => 280863 [label] => 62. Магнитные методы определения состояния технологической системы [private] => 0 [hits] => 91 [like] => 0 [extra_title] => [site_id] => [content_unique] => [abs_unique] => [category_id] => 0 [metka] => 1579620909 [ban] => 1 ) [62] => stdClass Object ( [id] => 280864 [label] => 63. Классификация датчиков внешней информации для диагностирования технологических систем [private] => 0 [hits] => 94 [like] => 0 [extra_title] => [site_id] => [content_unique] => [abs_unique] => [category_id] => 0 [metka] => 1579620933 [ban] => 1 ) [63] => stdClass Object ( [id] => 280865 [label] => 64. Сущность оптико-телевизионных методов измерения диагностики и контроля параметров технологических систем [private] => 0 [hits] => 102 [like] => 0 [extra_title] => [site_id] => [content_unique] => [abs_unique] => [category_id] => 0 [metka] => 1579620966 [ban] => 1 ) [64] => stdClass Object ( [id] => 280866 [label] => 65. Оптические датчики расстояния для диагностирования технологических систем [private] => 0 [hits] => 95 [like] => 0 [extra_title] => [site_id] => [content_unique] => [abs_unique] => [category_id] => 0 [metka] => 1579621000 [ban] => 4 ) [65] => stdClass Object ( [id] => 280867 [label] => 66. Сущность электромеханических методов измерения диагностики и контроля параметров технологических систем [private] => 0 [hits] => 94 [like] => 0 [extra_title] => [site_id] => [content_unique] => [abs_unique] => [category_id] => 0 [metka] => 1579620979 [ban] => 1 ) [66] => stdClass Object ( [id] => 280868 [label] => 67. Сущность ультразвуковых и пневматических методов измерения диагностики и контроля параметров технологических систем [private] => 0 [hits] => 88 [like] => 0 [extra_title] => [site_id] => [content_unique] => [abs_unique] => [category_id] => 0 [metka] => 1579621045 [ban] => 1 ) [67] => stdClass Object ( [id] => 280869 [label] => 68. Контактные датчики для диагностирования технологических систем [private] => 0 [hits] => 94 [like] => 0 [extra_title] => [site_id] => [content_unique] => [abs_unique] => [category_id] => 0 [metka] => 1579723560 [ban] => 1 ) [68] => stdClass Object ( [id] => 280870 [label] => 69. Оценка надежности технологических систем по результатам эксплуатации [private] => 0 [hits] => 81 [like] => 0 [extra_title] => [site_id] => [content_unique] => [abs_unique] => [category_id] => 0 [metka] => 1579621319 [ban] => 1 ) [69] => stdClass Object ( [id] => 280871 [label] => 70. Блок-схема возникновения отказа. Блок-схема отказа направляющих станка [private] => 0 [hits] => 98 [like] => 0 [extra_title] => [site_id] => [content_unique] => [abs_unique] => [category_id] => 0 [metka] => 1579621472 [ban] => 4 ) [70] => stdClass Object ( [id] => 280872 [label] => 71. Оценка параметров распределения методом максимального правдоподобия [private] => 0 [hits] => 94 [like] => 0 [extra_title] => [site_id] => [content_unique] => [abs_unique] => [category_id] => 0 [metka] => 1579621615 [ban] => 1 ) [71] => stdClass Object ( [id] => 280873 [label] => 72. Законы состояния и старения. [private] => 0 [hits] => 91 [like] => 0 [extra_title] => [site_id] => [content_unique] => [abs_unique] => [category_id] => 0 [metka] => 1579709346 [ban] => 4 ) [72] => stdClass Object ( [id] => 280874 [label] => 73. Методы оценки локальных повреждений [private] => 0 [hits] => 107 [like] => 0 [extra_title] => [site_id] => [content_unique] => [abs_unique] => [category_id] => 0 [metka] => 1579621665 [ban] => 1 ) [73] => stdClass Object ( [id] => 280875 [label] => 74. Расчет погрешности прогнозирования надежности изделия [private] => 0 [hits] => 90 [like] => 0 [extra_title] => [site_id] => [content_unique] => [abs_unique] => [category_id] => 0 [metka] => 1579621709 [ban] => 1 ) [74] => stdClass Object ( [id] => 280876 [label] => 75. Временные зависимости, описывающие процесс повреждения [private] => 0 [hits] => 104 [like] => 0 [extra_title] => [site_id] => [content_unique] => [abs_unique] => [category_id] => 0 [metka] => 1579621812 [ban] => 1 ) [75] => stdClass Object ( [id] => 280877 [label] => 76. Факторы, отрицательно влияющие на надежность сложных систем [private] => 0 [hits] => 90 [like] => 0 [extra_title] => [site_id] => [content_unique] => [abs_unique] => [category_id] => 0 [metka] => 1579621846 [ban] => 4 ) [76] => stdClass Object ( [id] => 280878 [label] => 77. Классификация процессов старения. [private] => 0 [hits] => 95 [like] => 0 [extra_title] => [site_id] => [content_unique] => [abs_unique] => [category_id] => 0 [metka] => 1579621886 [ban] => 4 ) [77] => stdClass Object ( [id] => 280879 [label] => 78. Три этапа прогнозирования надежности сложных систем [private] => 0 [hits] => 93 [like] => 0 [extra_title] => [site_id] => [content_unique] => [abs_unique] => [category_id] => 0 [metka] => 1579621977 [ban] => 1 ) [78] => stdClass Object ( [id] => 280880 [label] => 79. Схема прогнозирования надежности систем на различных этапах разработки и производства [private] => 0 [hits] => 103 [like] => 0 [extra_title] => [site_id] => [content_unique] => [abs_unique] => [category_id] => 0 [metka] => 1579713195 [ban] => 4 ) [79] => stdClass Object ( [id] => 280881 [label] => 80. Область существования процесса старения [private] => 0 [hits] => 91 [like] => 0 [extra_title] => [site_id] => [content_unique] => [abs_unique] => [category_id] => 0 [metka] => 1579622009 [ban] => 4 ) [80] => stdClass Object ( [id] => 280882 [label] => 81. Критерии согласия. Критерий Колмогорова. [private] => 0 [hits] => 83 [like] => 0 [extra_title] => [site_id] => [content_unique] => [abs_unique] => [category_id] => 0 [metka] => 1579724760 [ban] => 1 ) [81] => stdClass Object ( [id] => 280883 [label] => 82. Методы прогнозирования надежности сложных систем. [private] => 0 [hits] => 111 [like] => 0 [extra_title] => [site_id] => [content_unique] => [abs_unique] => [category_id] => 0 [metka] => 1579622049 [ban] => 1 ) [82] => stdClass Object ( [id] => 280884 [label] => 83. Показатели надежности восстанавливаемых систем [private] => 0 [hits] => 97 [like] => 0 [extra_title] => [site_id] => [content_unique] => [abs_unique] => [category_id] => 0 [metka] => 1579728191 [ban] => 4 ) [83] => stdClass Object ( [id] => 280885 [label] => 84. Сбор и обработка информации о надежности. График - гистограмма и полигон распределения [private] => 0 [hits] => 90 [like] => 0 [extra_title] => [site_id] => [content_unique] => [abs_unique] => [category_id] => 0 [metka] => 1579711449 [ban] => 4 ) [84] => stdClass Object ( [id] => 280886 [label] => 85. Процессы старения, протекающие при контакте поверхностей. Процессы разъедания [private] => 0 [hits] => 89 [like] => 0 [extra_title] => [site_id] => [content_unique] => [abs_unique] => [category_id] => 0 [metka] => 1579622119 [ban] => 1 ) [85] => stdClass Object ( [id] => 280887 [label] => 86. Этапы общего подхода к решению задачи прогнозирования надежности изделия [private] => 0 [hits] => 94 [like] => 0 [extra_title] => [site_id] => [content_unique] => [abs_unique] => [category_id] => 0 [metka] => 1579622164 [ban] => 1 ) [86] => stdClass Object ( [id] => 280888 [label] => 87. Резервирование и дублирование объектов [private] => 0 [hits] => 102 [like] => 0 [extra_title] => [site_id] => [content_unique] => [abs_unique] => [category_id] => 0 [metka] => 1579711931 [ban] => 4 ) [87] => stdClass Object ( [id] => 280889 [label] => 88. Структурные схемы технологических систем, виды соединения элементов в структурных схемах, Структурная схема надежности с последовательным соединением элементов [private] => 0 [hits] => 98 [like] => 0 [extra_title] => [site_id] => [content_unique] => [abs_unique] => [category_id] => 0 [metka] => 1579712655 [ban] => 1 ) [88] => stdClass Object ( [id] => 280890 [label] => 89. Структурная схема надежности с параллельной, параллельно-последовательной и последовательно-параллельной структурой. Вероятность безотказной работы этих системы. [private] => 0 [hits] => 90 [like] => 0 [extra_title] => [site_id] => [content_unique] => [abs_unique] => [category_id] => 0 [metka] => 1579284684 [ban] => 1 ) )

Надежность и диагностика технологических систем

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