Digitalization of the thermoplastic beryllium oxide slurry forming process using ultrasonic activation

,; Zhapbasbayev, U.; Ramazanova, G.; ,; Retnawati, H.; ,; Sattinova, Z.; ,

doi:10.31643/2024/6445.23

Cited by 2 publications

(2 citation statements)

References 18 publications

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“…New alloys have increased strength, ductility, heat resistance, corrosion resistance, variable crystal size in the matrix, and other properties. These magnesium materials include additives of manganese [ [4], [5], [6], [7], [8], and [9]], zirconium [ [10], [11], [12], [13], [14], [15], [16], [17], and [18]] and beryllium [ [19], [20], [21], [22], [23], [24], and [25]].…”

Section: Introductionmentioning

confidence: 99%

Recycling of beryllium, manganese, and zirconium from secondary alloys by magnesium distillation in vacuum

Volodin,

Abdulvaliyev,

Trebukhov

et al. 2024

KIMS/CUMR/MShKP

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One of the methods for processing secondary magnesium raw materials containing rare refractory metals can be a distillation with the extraction of magnesium into condensate and the accumulation of rare metals in the distillation residue. The residue can be used as a master alloy for special alloys. To justify the possibility of this process, we calculated the boundaries of the vapor-liquid equilibrium fields for the regions of liquid solutions existence in the Mg – Be, Mg – Mn, and Mg – Zr systems at atmospheric pressure (101.33 kPa) and in vacuum (1.33 kPa). The value of the vacuum is due to the fact that a further increase in rarefaction will lead to the magnesium crystallization from the melt, and it will complicate the technology.We established that in the distillation process of magnesium removal from Mg – Be and Mg – Zr alloys, the vapor phase will be represented by more than 99.95 of magnesium. The presence of 0.45 mass.% Mn is possible in the Mg – Mn system at 1000 °C in thevapor phase – condensate . However, results of preliminary tests of the evaporation intensity established that the process conducted at 850-900 °C provides an acceptable evaporation rate of the volatile component (Mg) for technological conditions.Thus, we confirmed the possibility of the proposed method to process secondary light alloys containing beryllium, manganese, and zirconium, which can be involved in the main process intended to produce special alloys in the form of a master alloy with magnesium.

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Section: Introductionmentioning

confidence: 99%

Recycling of beryllium, manganese, and zirconium from secondary alloys by magnesium distillation in vacuum

Volodin,

Abdulvaliyev,

Trebukhov

et al. 2024

KIMS/CUMR/MShKP

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“…Numerous research endeavors have aimed to address these challenges (Sheriyev et al, 2016;Retnawati, 2017;Zhapbasbayev et al, 2021;Rohde et al, 2023;Zhapbasbayev et al, 2024). The utilization of human-machine interfaces (HMIs) , mobile applications (Santosh et al, 2016), and online feedback tools on computers (Samuel et al, 2014) has shown promise in improving thermal comfort, energy efficiency, and environmental well-being by gathering user thermal comfort data.…”

Section: Introductionmentioning

confidence: 99%

Smart control system for optimal energy use in the oil and gas sector

Tasmurzayev,

Shinassylov,

Amangeldy

et al. 2023

Materials of International Practical Internet Conference “Challenges of Science”

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This paper delves into the development of a smart control system for air conditioning and heating within the oil, gas, and energy sectors. It explores techniques for creating an automated sensor monitoring framework and adjusting sensor settings for temperature and air conditioning management. The proposed intelligent HVAC (Heating, Ventilation, and Air Conditioning) system acquires live data from temperature and leak sensors, along with air conditioning units and switches. The paper introduces the system's structure, its operational principles, schematic representations of the control module, and the monitoring and management setup. The core component of the real-time monitoring and management system is realized through the utilization of the SCADA software for the control and supervision of sensor parameters.

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Digitalization of the thermoplastic beryllium oxide slurry forming process using ultrasonic activation

Cited by 2 publications

References 18 publications

Recycling of beryllium, manganese, and zirconium from secondary alloys by magnesium distillation in vacuum

Recycling of beryllium, manganese, and zirconium from secondary alloys by magnesium distillation in vacuum

Smart control system for optimal energy use in the oil and gas sector

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