The Applications of Ultra-Thin Nanofilm for Aerospace Advanced Manufacturing Technology

Xie, Guobo; Bai, Hongwu; Miao, Guobin; Feng, Guobao; Yang, Jing; He, Yun; Li, Xiaojun; Liu, Xinyi

doi:10.3390/nano11123282

Cited by 14 publications

(8 citation statements)

References 28 publications

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“…For the satellite sensors in outer space, special space characteristics, which include passive inter-modulation, multipactor, and so on, significantly affect the entire performance [ 1 , 2 , 3 ]. Among them, low-pressure discharge can be regarded as one of the most urgent and valuable challenges in the development of satellite sensors [ 4 ].…”

Section: Introductionmentioning

confidence: 99%

One-Step Crank-Nicolson Direct-Splitting Algorithm with Enhanced Absorption to Evaluate Low-Pressure Discharge for Satellite Sensors in Outer Space

Wang

Xie

et al. 2023

Sensors

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Low-pressure discharge causes air ionization resulting in performance degeneration or failure for the satellite sensors in outer space. Here, a one-step Crank--Nicolson Direct-Splitting (CNDS) algorithm is proposed to evaluate the electrical behavior of satellite sensors under the low-pressure discharge circumstance. To be more specific, the CNDS algorithm is proposed in the Lorentz medium, which can accurately analyze the ionized air and generated plasma. Higher order perfectly matched layer (PML) is modified in the Lorentz medium to efficiently terminate the unbounded lattice. It can be concluded that the proposed algorithm shows entire considerable performance in the low-pressure discharge evaluation. The proposed PML formulation behaviors enhanced absorbing performance compared with the existing algorithm. Through the experiments, it can be observed that the low-pressure discharge phenomenon causes performance variation, which shows a significant influence on the satellite sensors. Meanwhile, results show considerable agreement between the simulation and experiment results which indicates the effectiveness of the algorithm.

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Section: Introductionmentioning

confidence: 99%

One-Step Crank-Nicolson Direct-Splitting Algorithm with Enhanced Absorption to Evaluate Low-Pressure Discharge for Satellite Sensors in Outer Space

Wang

Xie

et al. 2023

Sensors

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“…Components containing microstructures have been widely used in biomedical [ 1 ], aerospace [ 2 , 3 ], scientific and technological electronics [ 4 , 5 ] and other industries. However, it is difficult to produce these components in batch by conventional manufacturing technologies.…”

Section: Introductionmentioning

confidence: 99%

Application and Optimization of the Thin Electric Heater in Micro-Injection Mold for Micropillars

Weng

Tang

et al. 2022

Nanomaterials

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The development of variotherm systems has helped to improve the quality of micro-injection molded products. Thin electric heaters have significant advantages in size, efficiency and installation convenience. However, the use of thin electric heaters has brought the problem of non-uniform temperature distribution of the insert. The good replication of the functional surfaces containing microstructures quickly and uniformly is still a challenge. In this work, the heating performance of the thin electric heater in a variotherm system is investigated by combining numerical simulations with experiments. Micro-injection molding of PP micropillars was also performed. The obtained results show that the addition of a transition layer with high thermal conductivity in the heating structure can optimize the uniformity of the temperature distribution of the insert. Furthermore, the replication heights of the micropillars can be significantly increased by the developed variotherm mold, which provides a new idea for the optimal design of a local variotherm system.

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“…Наноматериалы обладают набором уникальных физико-химических параметров, таких как малый размер, большое соотношение площади поверхности к объёму, высокая реакционная способность и другими, что качественно отличает их от химических аналогов микроразмерного диапазона. Благодаря этому, в настоящее время для улучшения свойств и качества выпускаемой продукции наноразмерные материалы интенсивно используются в пищевой [Shafiq et al, 2020], химической [Piracha et al, 2021], металлургической промышленности , медицине [Salata, 2004], сельском хозяйстве [Neme et al, 2021], аэрокосмической [Xie et al, 2021], нефтегазовой отраслях , автомобилестроении и прочих сферах хозяйственной деятельности человека. В результате процессов производства, использования и утилизации продукции наноиндустрии в окружающую среду поступают наночастицы (НЧ), что приводит к загрязнению атмосферного воздуха , воды , почвы и, как следствие, увеличению риска экспозиции населения.…”

Section: Introductionunclassified

Study and comparative evaluation of the toxicity of molybdenum (VI) oxide nanoparticles at a single oral exposure

Zaitseva¹,

Землянова²,

Степанков³

et al. 2022

Вест. ПГУ. Биол.

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The toxic effect of nanoparticles of molybdenum (VI) oxide (MoO3 NPs) after a single oral intake was studied. We administered the test substance as an aqueous suspension at a dose of 2000 mg/kg body weight. Organs were taken from surviving animals 14 days after exposure to study the bioaccumulation of MoO3 NPs and pathomorphological changes caused by the action of this nanomaterial. On the second day after exposure, the death of 50% of the group exposed to NPs was recorded. It has been established that MoO3 NPs accumulate in the heart, lungs, liver, kidneys and brain in concentrations 15.59-221.86 times higher than the control values. In the liver of exposed rats revealed by histological methods the development of hepatitis and microvesicular steatosis; in the lungs – acute bronchitis, vasculitis; in the brain – subarachnoid hemorrhage. MoO3 NPs have a more apparent ability to bioaccumulate and produce toxic effects in comparison with their microdispersed analogue under single oral introductions into the body.

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The Applications of Ultra-Thin Nanofilm for Aerospace Advanced Manufacturing Technology

Cited by 14 publications

References 28 publications

One-Step Crank-Nicolson Direct-Splitting Algorithm with Enhanced Absorption to Evaluate Low-Pressure Discharge for Satellite Sensors in Outer Space

One-Step Crank-Nicolson Direct-Splitting Algorithm with Enhanced Absorption to Evaluate Low-Pressure Discharge for Satellite Sensors in Outer Space

Application and Optimization of the Thin Electric Heater in Micro-Injection Mold for Micropillars

Study and comparative evaluation of the toxicity of molybdenum (VI) oxide nanoparticles at a single oral exposure

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