High performance lubricants for demanding PM applications
Presents the green and sintered characteristics of newly developed, high performance lubricants in a laboratory and production scale
High performance lubricants for conventional medium density compaction
Description of the ejection behaviour of several innovative lubricant formulations compared to conventional PM lubricants on an industrial press at high shear stresses and under different compaction conditions
High performing premixes for demanding PM applications
The main advantages of binder-treated mixes compared to conventional mixes are better flow, improved productivity and part consistency and reduced dusting and segregation
Ejection performance of an improved die wall lubrication technology using composite lubricants
A new approach in the method of depositing an external lubricant on the die walls of a powder metallurgy press which allows the compaction of parts from mixes with no or minimal lubricant content
Enhanced green strength lubricating systems for green machining ferrous materials
Effect of lubricant particle size distribution on the processing and properties of PM ferrous parts
The effect of the lubricant particle size distribution on the compaction and ejection behaviour, and on the static and dynamic properties of ferrous powder metallurgy parts
Effect of atmospheric humidity and temperature on the flowability of lubricated powder-metallurgy mixes
Effect of compaction temperature on the lubricant distribution in powder metal parts
Development of cost effective organic-bonded Mo-Ni-Cu steel powders with the FLOMET process
Presentation of the key characteristics of organic-bonding as well as properties of various grades of Mo-Ni-Cu diffusion-alloyed and organic-bonded powders
Applications of the binder treated Mo-prealloyed premixes as alternatives to diffusion bonded powders
FLOMET binder treated premixes in manufacturing processes