А. В. Калашникова scite author profile

А. В. Калашникова

5Publications

2Citation Statements Received

0Citation Statements Given

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Affiliations

All-Russian Research and Design Institute of Metallurgical Engineering, Tatar Scientific Research And Design Institute of Petroleum Engineering

Publications

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A System Approach to Achieving the National Goal of Increasing Life Expectancy to 78 years by 2024

Улумбекова¹,

Прохоренко²,

Калашникова³

et al. 2019

Èkonomika, nalogi, pravo

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The paper defines conditions to achieve the national goal of increasing the lifetime in the Russian Federation to 78 years by 2024 as set in Presidential Decree No. 204 of May 7, 2018. The measures proposed in the Healthcare and Demography national projects are analyzed and additional measures to improve public health are proposed. It is shown that because of inadequate government expenditures on medicines for outpatients, the financial burden of their acquisition by people is four times as much compared to the government spending. It was revealed that to achieve life expectancy of 78 years by 2024, the public healthcare per capita expenditures should grow by 15% annually in constant prices, providing that the country’s GRP per capita increases by 1.7% in 2019, by 3% in 2020 and by 4% in the period of 2021–2024, while the consumption of strong alcoholic beverages decreases by 45% per capita. In the Healthcare national project the healthcare expenditure growth rates are defined to be below 10% at current prices. The paper concludes that the achievement of this goal requires additional government expenditures (including those in the framework of the Healthcare national project). The funds should also be directed to expanding the availability of medicines for outpatients, programs for reducing mortality from infectious diseases, and increasing salaries of lower medical personnel. For the implementation of the Demography national project, particular targets should be set to reduce the alcohol consumption by 45% until 2024, with twofold reduction of the proportion of smokers, along with additional measures to implement the anti-alcohol and anti-tobacco policy and promote healthy living among the population.

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Technology for Preparing Increased Strength Bimetal with a Nitrogen Two-Phase Steel Cladding Layer

2016

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High-Technology Nitrogen-Alloyed Constructional Bimetal Material With Increased Strength

Avdeenko¹,

Моляров²,

Калашникова³

et al. 2016

Izv. vysš. učebn. zaved., Čern. metall.

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Аннотация. Рассмотрена возможность получения листовой двухслойной стали повышенной прочности-биметаллического конструкционного материала с основным слоем из малоуглеродистой марганцовистой микролегированной стали бейнитного класса и плакирующим слоем из легированной азотом коррозионностойкой двухфазной аустенитно-ферритной стали. Опробована технология получения биметаллического материала путем электродуговой наплавки высоколегированной стали сварочной проволокой под слоем флюса на плоскую заготовку из микролегированной стали и последующей горячей деформации с имитацией форсированного подстуживания проката на отводящем рольганге широкополосного стана и медленного охлаждения рулона после смотки полосы. Исследованы микроструктура, механические и коррозионные свойства биметаллического конструкционного материала. Показано, что предложенный материал не уступает в коррозионной стойкости существующим биметаллическим материалам, а по прочностным свойствам-пределу текучести и прочности сцепления разнородных слоев композит превосходит традиционные двухслойные стали и нормативные ограничения не менее, чем на 30-50 % и в 3 раза соответственно. Ключевые слова: биметаллический композиционный материал, двухфазная аустенитно-ферритная сталь, высокопрочная микролегированная сталь, наплавка под слоем флюса, горячая прокатка, микроструктура, механические свойства, питтинг, коррозионная стойкость.

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Effect of Deformation Heat Treatment on the Structure of Two-Phase Steel in a Bimetal Composite and its Mechanical Properties

et al. 2017

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Strong bimetallic structural material alloyed with nitrogen

et al. 2016

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