Mechanical Alloying: A Novel Technique to Synthesize Advanced Materials

Abstract: Mechanical alloying is a solid-state powder processing technique that involves repeated cold welding, fracturing, and rewelding of powder particles in a high-energy ball mill. Originally developed about 50 years ago to produce oxide-dispersion-strengthened Ni- and Fe-based superalloys for aerospace and high temperature applications, it is now recognized as an important technique to synthesize metastable and advanced materials with a high potential for widespread applications. The metastable materials p… Show more

“…This technique is also used to synthesize supersaturated solid solutions, intermediate phases, quasi-crystalline phases, amorphous alloys, and high-entropy alloys. 48 This technique is also used to produce very ne crystallite sizes down to the nanoscale. 49 There are very few published reports concerning the formation of an Mg 2 Si phase by mechanical alloying at present.…”

“…49 There are very few published reports concerning the formation of an Mg 2 Si phase by mechanical alloying at present. Niu et al 48 formed the Mg 2 Si phase via a mechanical alloying method using a high-energy planetary ball mill. Stoichiometric compositions of magnesium and silicon powders are milled at 250 RPM with a ball to powder ratio of 20 : 1 for 30 hours.…”

Structure and mechanical behavior ofin situdeveloped Mg₂Si phase in magnesium and aluminum alloys – a review

“…This technique is also used to synthesize supersaturated solid solutions, intermediate phases, quasi-crystalline phases, amorphous alloys, and high-entropy alloys. 48 This technique is also used to produce very ne crystallite sizes down to the nanoscale. 49 There are very few published reports concerning the formation of an Mg 2 Si phase by mechanical alloying at present.…”

“…49 There are very few published reports concerning the formation of an Mg 2 Si phase by mechanical alloying at present. Niu et al 48 formed the Mg 2 Si phase via a mechanical alloying method using a high-energy planetary ball mill. Stoichiometric compositions of magnesium and silicon powders are milled at 250 RPM with a ball to powder ratio of 20 : 1 for 30 hours.…”

Structure and mechanical behavior ofin situdeveloped Mg₂Si phase in magnesium and aluminum alloys – a review

“…The process of mechanical alloying (MA) involves loading of PA or elemental powders inside a high energy ball mill and the usage of grinding media to repeatedly cold weld, fracture and reweld powder particles [41]. Parameters including time, speed and BPR [42] are optimised to control and balance the resultant powder particle sizes.…”

“…PCA are inorganic compounds [43] often used in MA of ductile metals to prevent agglomeration of powder particles. According to Suryanarayana [41], adding 1-2 wt. % of PCA can prevent excessive cold welding or agglomeration of the individual powders on the grinding media and the milling vessel.…”

Spark Plasma Sintering of Titanium Aluminides: A Progress Review on Processing, Structure-Property Relations, Alloy Development and Challenges

“…This can be performed with the help of a planetary mill where extremely high centrifugal forces appear under milling due to the disk and the vials rotation in the counter direction. Milling process of a solid state powder, where the powder particles are subjected to high energetic impacts by the balls in a vial, which involves repeated cold welding, fracturing, and rewelding of powder particles, is called mechanical alloying [3]. Numerous studies have been devoted to production of transition metal borides using a mechanical alloying [4][5][6][7][8][9][10][11].…”

Peculiarities of Refractory Borides Formation during Mechanical Alloying IV-V Group Transition Metals with Boron in Planetary Mill