A. D. Novikov scite author profile

A. D. Novikov

5Publications

3Citation Statements Received

5Citation Statements Given

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Bauman Moscow State Technical University

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Developing English language competence for specialists in rocket and space composite structures

2018

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Composite materials is a rapidly developing field of science and technology. Training specialists in composite materials requires special approach with regard to their English language competence. The paper looks at the proposed English language course for Rocket and space structures. The course in question must comply with the requirements of the Bologna process, curriculum and education standards and at the same time meet the learners' needs in terms of their professional competence. A multi-level system is proposed that includes academics apart from undergraduate and postgraduate students.

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Comparative analysis of the honeycomb and thin-shell space antenna reflectors

Резник¹,

Novikov²

2016

MATEC Web Conf.

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Abstract. Parabolic three-layered reflectors from polymer composite materials with the aluminium honeycomb fillers became widely used in space communication systems in the past decades. There are technological possibilities for creating reflectors in the form of thin-walled ribbed shell with the lower linear density than that of the three-layered structures. The paper presents the results of the temperature and stress-strain analysis for the two types of structures, which could help to select the variant with the best performance characteristics.

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Evaluation construction made of polymer composite materials by molding using reusable flexible punches production profitability

Stoyanova

Novikov

Borodulin

2020

IOP Conf. Ser.: Mater. Sci. Eng.

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Mirror Space Antenna Reflector Made of Composite Materials Constructive Appearance Determination

Novikov

Prosuntsov

Резник

2017

Vestn. Ross. univ. družby nar., Ser. Inž. issled.

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Московский государственный технический университет им. Н.Э. Баумана (национальный исследовательский университет) 2-я Бауманская ул., 5, стр. 1, Москва, Россия, 105005 В данной статье описаны поисковые исследования оптимальных конструкторско-техно-логических решений сверхлегкого рефлектора зеркальной космической антенны из углепла-стика. Исследования включали в себя конечно-элементное моделирование температурного и напряженно-деформированного состояния рефлектора на геостационарной орбите. В резуль-тате сравнения результатов моделирования для ряда вариантов рефлектора выбрана конструк-ция, с минимальными значениями температурных перемещений и погонной плотности.Ключевые слова: рефлектор зеркальной космической антенны, конечно-элементное мо-делирование, конструктивно-компоновочная схема, композиционный материал Рефлекторы зеркальных космических антенн (РЗКА) диаметром до 3 м пред-ставляют собой параболические оболочки открытого профиля, основным кон-струкционным материалом которых служит углепластик. Современные тенденции в области развития систем космической связи указывают на необходимость сни-жения погонной плотности конструкции РЗКА до значений, не превышающих 2 кг/м 2 , и увеличения рабочей частоты антенн, что, в свою очередь, повышает требования к размеростабильности. Так, для бортовой антенны межспутниковой связи, работающей на частоте 60 ГГц, соответствующие предельные отклонения профиля не должны превышать 0,1 мм.Различные варианты РЗКА можно отнести к следующим конструктивно-ком-поновочным схемам: трехслойная с сотовым заполнителем, с кольцевым ободом, с реберным подкреплением, комбинированная.Отличительная особенность трехслойных схем -наличие сотового заполни-теля из алюминия или композиционных материалов (КМ) между оболочками из КМ, чаще всего из углепластика (рис. 1).Данная схема обеспечивает высокую жесткость конструкции, но отличается сравнительно высокой погонной плотность (2,29 кг/м 2 для РЗКА диаметром 1,2 м) [1].В схеме с кольцевым ободом постоянной или переменной ширины одна из накрывающих обод сплошных или сетчатых поверхностей используется для от-ражения радиоволн (рис. 2).

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Developing of the autoclave-free composite manufacturing technology

Novikov

Lubyanskiy

Ignatov

2020

IOP Conf. Ser.: Mater. Sci. Eng.

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Nowadays there are numerous ways of making parts of polymer composite materials. The main controlled properties of a part depending on a used technology are porosity and binder percentage, which influence on quality and strength of a part, and also manufacturing cycle time and costs of the used equipment. The main aim of the research was to increase the efficiency of the PCM moulding comparing to the resin infusion method. For reaching the aim there was developed the moulding technology with using elastic diaphragm inflation, as well as there were conducted series of tests by using the dynamo-mechanic analyzer. The way of making the mould and pattern of reinforcing plies layout were offered. For technology approbation there were made a serie of carbon fiber reinforced plastic sport helmets, and got results of time properties of manufacturing. It was discovered that the number of parts made for the time unit by using the inflation method twice exceeds the number of ones made by vacuum infusion method. Specific properties of constructions made by the offered technology also exceed properties of parts made by traditional methods. Inflation technology was successfully put in production and proved its efficiency, reliability and profitability.

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A. D. Novikov

Developing English language competence for specialists in rocket and space composite structures

Comparative analysis of the honeycomb and thin-shell space antenna reflectors

Evaluation construction made of polymer composite materials by molding using reusable flexible punches production profitability

Mirror Space Antenna Reflector Made of Composite Materials Constructive Appearance Determination

Developing of the autoclave-free composite manufacturing technology

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