111;Despite widespread use of liquid process control agents (PCA) during material processing via high-energy ball milling, their effect on the properties of the milled powders has
201451;In this study, milling period and medium, PCA kinds and amount, and powder kinds, are altered as major parameters to systematically and mechanistically investigate the
201261;The process control in a ball mill grinding circuit faces severe difficulties due to the following well known characteristics: • the process is nonlinear with immeas urable
201371;Process variables in mechanical milling process such as milling time, milling speed, ball-to powder weight ratio and process control agent have effects on the final structure
in modeling and control of the grinding process in industrial ball mills. Basic kinetic and energy models of the grinding process are described and the most commonly used control strategies
Nano-silicon powder was prepared by mechanical ball milling using deionized water, n-hexane and absolute ethanol as process control agents.
1999519;There exist numerous types of process control agents. Amongst them, stearic acid is one of the most commonly used and effective PCA. The percentage of stearic acid
71;The ball milling process requires the use of a Process Control Agent (PCA) to prevent excessive agglomeration and to control the milling process [17, 18]. Organic PCAs
The MA process carries out in a Noah-Nuoya® NQM 0.2 L planetary ball mill with parameters according to Table 3. The capacity was 200 g together with the milling spheres, and argon gas
1117;In the wet milling technique, process control agents (lubricant or surfactant) such as: ethanol, stearic acid, methanol, hexane etc., are added to the powder mixture during
91;Key MA processing variables that determine the final microstructural evolution in alloy particles are the milling -speed, −time, −temperature, − atmosphere, process control
215;In this study, using iron stearate as process control agent in the ball milling process suppressed grain growth and produced second-phase nanoinclusions in bulk
2013111;In this study, the effects of the main mechanical milling parameters: milling time, process control agent (PCA), ball to powder ratio (BPR) and milling speed in the planetary ball
201451;The effect of various factors, such as process control agent (PCA), speed of rotation of vial and ball-to-powder weight ratio, on process were studied and the best condition
20191015;High-energy ball milling process can well control the microstructure and morphology of microscale zero-valent aluminum (mZVAl) particles, in which the main
The optimal control of the results obtained from ball milling is however nontrivial; plenty of variables such as ball size, rotation speed, duration, atmosphere,
1999519;Process control agent (PCA) can strongly influence the size of ball milled powder particles. Experimental results show that the mean particle size is affected by: (1) the
1117;In the wet milling technique, process control agents (lubricant or surfactant) such as: ethanol, stearic acid, methanol, hexane etc., are added to the powder mixture during
202052;In this study, the effects of Sn as a process control agent (PCA) on the final powder sizes, morphology, homogenization and alloying process of a new titanium alloy were
201531;When two ductile materials are processed, there is always the overcoming risk of fracturing processes by cold welding processes. In order to avoid this situation, a process
111;Despite widespread use of liquid process control agents (PCA) during material processing via high-energy ball milling, their effect on the properties of the milled powders has
1115;Influence of process control agent and Al concentration on synthesis and phase stability of a mechanically alloyed AlxCoCrFeMnNi high-entropy alloy. The mixtures
Nano-silicon powder was prepared by mechanical ball milling using deionized water, n-hexane and absolute ethanol as process control agents. The effects of polar solvent and non-polar
201041;The MA process was performed in a planetary ball mill (Retsch, PM400) using zirconia containers and steel balls at room temperature. The weight ratio of ball to powder was
31;Effect of process control agent on the structural and magnetic properties of nano/amorphous Fe 0.7 Nb 0.1 Zr 0.1 Ti 0.1 powders prepared by high energy ball milling.
20241123;Process control agent (PCA). 1.3.1 Ball Mill Type. Ball mills exist in a variety of sizes, capacities, and speeds, and they can control the process by adjusting the milling
ball milling, their effect on the properties of the milled powders has not been quantified or understood. Effect of organic liquid process control agents on properties of ball-milled
51;Nine schemes were designed to study the effects of milling parameters (rotational speed, ball to powder weight ratio, milling time) and process control agents (PCAs) on the
81;Spherical boron powders with sizes ranging from 4 to 100 μm were prepared by ball milling a commercial boron powder. A planetary mill was used with a process control
2013111;In this study, the effects of the main mechanical milling parameters: milling time, process control agent (PCA), ball to powder ratio (BPR) and milling speed in the planetary ball