Abstract
The current paper aims to review tooling life span, failure modes and models in cold microforming processes. As there is nearly no information available on tool-life for microforming the starting point was conventional cold forming. In cold forming common failures are (1) over stressing of the tool; (2) abrasive wear; (3) galling or adhesive wear, and (4) fatigue failure. The large variation in tool life observed in production and how to predict this was reviewed as this is important to the viability of microforming based on that the tooling cost takes a higher portion of the part cost. Anisotropic properties of the tool materials affect tool life span and depend on both the as-received and in-service conditions. It was concluded that preconditioning of the tool surface, and coating are important to control wear and fatigue. Properly managed, the detrimental effects from surface particles can be reduced. Under high stress low-cycle fatigue conditions, fatigue failure form internal microstructures and inclusions are common. To improve abrasive wear resistance larger carbides are commonly the solution which will have a negative impact on tooling life as these tend to be the root cause of fatigue failures. This has significant impact on cold microforming.
Highlights
In cold forging the common failures are (1) over stressing the tool; (2) abrasive wear failure leading to flawed tolerances of the workpiece and poor surfaces; (3) galling leading to poor surface of the workpiece and material buildup and wear of the tool, and (4) fatigue failure
The lack of work on tool life in microforming made it necessary to start with a review of tooling lifespan and tooling failure in conventional cold forging processes, models that can account
Due to the predominance of surface effects as compared to bulk behavior when dimensions are scaled down, friction and die wear have a considerable impact in microforming, which refers to metal forming processes where at least two dimensions are in the sub-millimeter range [59]
Summary
In cold forging the common failures are (1) over stressing the tool; (2) abrasive wear failure leading to flawed tolerances of the workpiece and poor surfaces; (3) galling leading to poor surface of the workpiece and material buildup and wear of the tool, and (4) fatigue failure. The scope of current paper is not on the conditions that will result in product shape deviation but of the wear and fatigue failure of tooling used for cold forming operations with particular focus on microforming. The paper will follow with a presentation of the characteristics and fatigue behavior of coatings typically used on tooling before discussing the account for the stochastic behavior of wear and fatigue phenomena will be discussed. Thewill implications of the tribological review the material properties of typicalFinally, tool steels be presented in relation to and theirfriction microstructures and surfaces their effects on fatigue life and wear. Presentation of the characteristics and fatigue behavior of coatings typically used on tooling before discussing the implications of changes to surfaces in service.
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