Measurement of Oxygen Deficiency in Lithium ManganateSpinel-type lithium manganate (LiMn2O4-σ) is said to change its discharge characteristics due to slight differences in composition caused by oxygen deficiency. The differences in the discharge characteristics of lithium manganate batteries are also observed in the particle size and crystal structure, but attention is also paid to the difference in the oxygen bonding ratio, as samples with less oxygen bonding have poorer discharge characteristics.
Analysis of Oxygen (O) and Nitrogen (N) in Metal 3D Printer MaterialsStainless steel, Ti, Al, and Cu are commonly used as metal 3D printing materials, and customers have expressed a desire to be able to quickly manage the amounts of oxygen (O) and nitrogen (N) in those materials. For example, if the Ti material contains a large amount of oxygen (O), oxides will be produced, which can lead to defects in the printed part.
Stainless Steel Metal PowderThe particle size of SS316 powder is important to final product uses like injection molding. Here the metal must not clog the injector, so a uniform size with no large particles is important, and the metal must melt evenly throughout the molding for the best end product, again a uniform size and shape is important.
Titanium Alloy Metal PowderThe particle size of titanium powder is important to final product surface quality, quality and robustness of coatings and mechanical strength of products. It also allows for the monitoring for elimination of large sizes which can plug nozzels in additive manufacturing.
Comparison of results between laser diffraction and image analysisLaser diffraction is a popular method for particle characterization. Coupled with an image analysis unit, we can compare in real time the classical values of D10, 50, 90 and get information about the shape or dispersion state of our particles, thus proving the usefulness of this complementary technique.
Optimization of High-Performance Nanostructured Powder Metallurgy MaterialsIn this note, we will briefly explore the history of powder metallurgy and then examine the importance of powder quality to the production of nanomaterials.
Metal Powder Properties: A Case with Low Specific Surface AreaDetermination of specific surface area of metal powders is an important parameter in the field of powder metallurgy. In this note, we demonstrate the use of Brunauer-Emmett-Teller (BET) technique to measure another critical metal powder property: specific surface area (SSA).
Metal Powder Size MeasurementVirtually any metal can be made into a powder through processes including atomization, electrolysis, chemical reduction, and size comminution. The metal powder can then be used to fabricate parts from simple to complex shape. The technique and study of these processes is known as powder metallurgy, a field of study well acquainted with particle characterization. The size distribution and shape of the powder metal particles influences the physical properties of the parts created.
