Microstructure and properties of pure and composite metal powders after mechanical activation in planetary ball mill

Objective: to carry out the physiological and hygienic evaluation of the working conditions of operators producing chromium disilicide nanopowders by high-energetical mechanoactivation method and to develop the preventive recommendations. Material and methods. The object of research was the technological process of producing nanocrystalline chromium disilicide powder within a planetary ball mill. The hygienic assessment of the technological process, technological equipment and psycho-physiologic evaluation of the working environment of the operators were carried out using the generally accepted psychophysiological, hygienic, and chronometer methods of study. The concentration of nanoparticles in the working area was measured using the diffusion aerosol spectrometer DAS-2702 («Aeronanoteh», Russia), the nanopowder particle size was measured by the device Analysette 12 DynaSizer («Fritsch», Germany), the chemical composition of air samples was determined by atomic emission spectrometry with inductively coupled plasma (ICP-AES) using the device «Ortima 2100 DV» («Perkin-Elmer», USA). Results. It was found out for the first time that the mechanical activation process was accompanied by emission of nano-sized chromium into the air of the working area, which had not been detected before the beginning of the work. The total concentration of nanoparticles in the main room was 1.6-1.9 times higher than that in the working area of the planetary ball mill and exceeded the test levels recommended for nanomaterials in European countries. Conclusion. The basic adverse factors in case of producing nanopowder of chromium disilicide by mechanoactivation method are presence of nanoparticles of metals in the workplace air and intensity of work. We have proposed hygienic recommendations which are aimed at improving the plant design for the high-energy mechanical activation in the direction of ensuring tightness, reduction of manual work operations, audible and visual signaling during the technological process.

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Development of Technology of Nicrosil and Nisil Thermocouple Materials Using Extrusion of Metal Powders

Key Engineering Materials ◽

10.4028/www.scientific.net/kem.746.201 ◽

2017 ◽

Vol 746 ◽

pp. 201-206

Author(s):

Anatoliy R. Samboruk ◽

Aleksandr P. Amosov ◽

Elena A. Kuznets ◽

Antonina A. Kuzina ◽

Yuri M. Markov

Keyword(s):

Powder Metallurgy ◽

Radiation Resistance ◽

Ball Mill ◽

Planetary Ball Mill ◽

Metal Powders ◽

Casting Technology ◽

Uniform Microstructure ◽

Thermal Emf ◽

Resistance To Oxidation ◽

Powder Metallurgy Methods

Nicrosil-nisil (NiCrSi-NiSi) thermocouples (Type N) have a high thermal EMF stability, radiation resistance, resistance to oxidation of the thermocouple wires and can be used as a universal means of measuring temperatures up to 1300 °C. However, when the traditional metallurgical method is used for the production of rod and wire materials of nicrosil and nisil from ingots of metals, it is difficult to ensure the homogeneity of the ingots and materials of the thermocouple. It is known that powder metallurgy methods can provide a greater homogeneity of the material compared to casting technology. The aim of this work was to study the possibility of using powder technology for the fabrication of rods of nicrosil and nisil thermocouple materials by extrusion and sintering of powders of source metals. Reduction in size and mixing of the raw powder components in a planetary ball mill was investigated. The regularities of pressing the prepared mixtures and microstructure of materials sintered from them were determined. Samples of nicrosil and nisil thermocouple materials in the form of cylindrical rods with a diameter of about 5 mm and a length of 200 mm with an uniform microstructure were also fabricated by extrusion of prepared mixtures followed by sintering. Experimentally determined specific differential thermal EMF of the thermocouple made from the sintered rods coincided with the theoretical value.

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Enhancing lithium leaching by mechanical activation

Mongolian Journal of Chemistry ◽

10.5564/mjc.v19i45.1090 ◽

2018 ◽

Vol 19 (45) ◽

pp. 44-48 ◽

Cited By ~ 3

Author(s):

Nader Setoudeh ◽

Ataollah Nosrati ◽

Nicholas J Welham

Keyword(s):

Mechanical Activation ◽

Calcination Temperature ◽

Ball Mill ◽

Hot Water ◽

Planetary Ball Mill ◽

Isothermal Heating ◽

Water Leaching ◽

Air Atmosphere ◽

Mass Ratios

The lithium (Li) bearing minerals lepidolite and spodumene were mixed with different mass ratios of Na2SO4 and mechanically activated by milling in a planetary ball mill for 5 h. The milled samples were studied using thermogravimetry under an air atmosphere up to 950 ºC. Isothermal heating of the milled samples was undertaken in a furnace at temperatures of 700 ºC and 800 ºC for 1 h. Hot water leaching of the calcines indicated that increasing the calcination temperature had a significant effect on the dissolution of lithium. The leaching of lithium from lepidolite was notably higher than that from spodumene.

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Extraction of Lead from Spent Leaded Glass in Alkaline Solution

Applied Mechanics and Materials ◽

10.4028/www.scientific.net/amm.768.441 ◽

2015 ◽

Vol 768 ◽

pp. 441-446

Author(s):

Cheng Long Zhang ◽

Li Li Zhuang ◽

Ying Shun Li ◽

Wen Yi Yuan ◽

Jing Wei Wang ◽

...

Keyword(s):

Mechanical Activation ◽

Alkaline Solution ◽

High Purity ◽

Ball Mill ◽

Planetary Ball Mill ◽

Temperature Phase ◽

Hydrometallurgical Process ◽

Chemical Leaching ◽

Lead Powder ◽

Leaching Solution

This study evaluates the efficiency of lead (Pb) extraction from spent leaded glass in strongly alkaline solution after mechanical activation in a planetary ball mill as the chemical breakage and defects formed in the inner structures will contribute to the easy dissolution of the activated leaded glass. The influence of rotate speed and time of mechanical activation, NaOH concentrations, leaching temperature, phase ratios (v/w) had been studied. More than 78% of Pb extraction can be achieved after mechanical activation, compared with 3.5% Pb extraction for chemical leaching of non-activated samples. High purity lead powder can be obtained by electrowinning from the leaching solution. The Pb-depleted solution can be recycled into the leaching step. Thus, a novel hydrometallurgical process for recovering Pb from spent leaded glass in alkaline solution is proposed.

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Optimization of Mechanical Activation Modes for UHMWPE Dry Mixed Powders and Nanomodificators in the Planetary Ball Mill Pulverisette 7

Engineering Technologies and Systems ◽

10.15507/2658-4123.030.202004.576-593 ◽

2020 ◽

Vol 30 (4) ◽

pp. 576-593

Author(s):

Vladimir N. Vodyakov ◽

Kseniya A. Kulikovskaya

Keyword(s):

Molecular Weight ◽

Energy Consumption ◽

Silicon Dioxide ◽

Mechanical Activation ◽

High Molecular Weight ◽

Ball Mill ◽

Specific Energy Consumption ◽

Nanocrystalline Silicon ◽

Planetary Ball Mill ◽

Ultra High Molecular Weight

Introduction. Currently, in various technology areas, bronze, cast iron and other antifriction metals are replaced by polymer composites, which extend significantly service life of tribocoupling. An advanced antifriction polymer is ultra-high-molecular-weight polyethylene. The study deals with determining the optimal specific energy consumption for the mechanical activation of the polymer dry mixed powders and nanomodifiers in the planetary ball mill Pulverisette 7, which ensure the best complex of physico-mechanical and rheological properties of nanocomposites. Materials and Methods. In this work, we used GUR 4120 Ticona ultra-high-molecular-weight polyethylene with a molecular weight of 5 million, a Tuball Matrix Beta concentrate of activated carbon nanotubes at a concentration of 0.1%, calculated with reference to carbon nanotubes, and hydrophobic nanocrystalline silicon dioxide with a dispersion of 20 nm at the same concentration. Mechanical co-activation of polymer powders and nanomodifiers, when varying the specific energy consumption, was carried out in the planetary ball mill Pulverisette 7. The production of films from powders, for studying the elastic-strength and rheological characteristics of nanocomposites, was carried out with the use of the hydraulic press Gibitre. Tests were carried out respectively on the tensile testing machine UAI-7000 M and the rheometer Haake MARS III. Results. It has been established that the best physico-mechanical and rheological properties of nanocomposites are with specific energy consumption for mechanical activation of 3,000‒3,200 J/g that allows us to consider them optimal. The mechanical activation of ultra-high molecular weight polyethylene powder, reducing slightly the elasticity modulus and tensile strength of thermally pressed samples, does not affect the dynamic viscosity of melts at an energy consumption of 650‒4,550 J/g. Discussion and Conclusion. The use of carbon nanotubes and nanocrystalline silicon dioxide at a concentration of 0.1% can significantly improve the physical-mechanical and rheological properties of the polymer with energy costs of 3,000‒3,200 J/g for mechanical activation in planetary ball mills. Nanocrystalline silicon dioxide is a more effective modifier that can be explained by its better dispersion in the polymer matrix due to the lower tendency of nanoparticles to agglomerate.

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Mechanical Activation of Fly Ash by High Energy Planetary Ball Mill and the Effects on Physical and Morphology Properties

Applied Mechanics and Materials ◽

10.4028/www.scientific.net/amm.625.38 ◽

2014 ◽

Vol 625 ◽

pp. 38-41

Author(s):

Rashidah Mohammed Hamidi ◽

Zakaria Man ◽

Khairun Azizi Azizli ◽

Lukman Ismail ◽

Mohd Fadhil Nuruddin

Keyword(s):

Particle Size ◽

Fly Ash ◽

Mechanical Activation ◽

Ball Mill ◽

Low Cost ◽

Specific Area ◽

High Energy ◽

Raw Material ◽

Planetary Ball Mill ◽

Particle Size Analyzer

Fly ash has a high potential to be converted into geopolymeric material due to its abundant supplies and low cost. However, large particle size of the fly ash caused low reactivity which results in low properties of the end product. The improvement on the fly ash properties by mechanical activation allows it as a new possible raw material in wider application besides solving the low reactivity issue which hindered its range of utilization. In this study, fly ash was mechanically activated by high energy planetary ball mill for 1 hour at different speed, ranging from 100 to 350 rpm and with varied ball to powder ratio (2:1, 3:1 and 4:1). The effects towards its particle size, specific surface area and morphology were determined by particle size analyzer and SEM. It was observed that, increasing of speed to 350 rpm and 4:1 ball to powder ratio (BPR) results in finest size of fly ash where at d (0.1), d (0.5) and d (0.9) the sizes were 1.861, 6.765 and 17.065μm respectively and largest surface specific area (1.46 m2/g).

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Analysis of the Background Temperature During the Mechanical Alloying of Metal Powders in the Planetary Ball Mill

Inorganic Materials Applied Research ◽

10.1134/s2075113318040408 ◽

2018 ◽

Vol 9 (4) ◽

pp. 559-565 ◽

Cited By ~ 2

Author(s):

V. Yu. Zadorozhnyy ◽

E. V. Shelekhov ◽

G. S. Milovzorov ◽

D. V. Strugova ◽

L. Kh. Zinnurova

Keyword(s):

Mechanical Alloying ◽

Ball Mill ◽

Planetary Ball Mill ◽

Metal Powders ◽

Background Temperature

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The influence of the rotation frequency of a planetary ball mill on the limiting value of the specific surface area of the WC and Co nanopowders

Advanced Powder Technology ◽

10.1016/j.apt.2020.07.033 ◽

2020 ◽

Vol 31 (9) ◽

pp. 3937-3946

Author(s):

Maksim Dvornik ◽

Elena Mikhailenko

Keyword(s):

Specific Surface ◽

Surface Area ◽

Specific Surface Area ◽

Ball Mill ◽

Rotation Frequency ◽

Planetary Ball Mill ◽

Limiting Value

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Fast, solvent-free and highly enantioselective fluorination of β-keto esters catalyzed by chiral copper complexes in a ball mill

Green Chemistry ◽

10.1039/c6gc03306g ◽

2017 ◽

Vol 19 (7) ◽

pp. 1674-1677 ◽

Cited By ~ 29

Author(s):

Yifeng Wang ◽

Haojiang Wang ◽

Yidong Jiang ◽

Cheng Zhang ◽

Juanjuan Shao ◽

...

Keyword(s):

Ball Mill ◽

Copper Complexes ◽

Solvent Free ◽

Planetary Ball Mill ◽

Keto Esters ◽

Solvent Free Conditions

A fast and highly enantioselective fluorination of β-keto esters catalyzed by diphenylamine linked bis(oxazoline)-Cu(OTf)2 complexes under solvent-free conditions has been developed using a planetary ball mill.

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