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          Edge Fracture in Mixed Microstructure Steels

          2018-12-05 13:26:00
          LUQIMENG
          Original
          2305

          Presentation Outline

          ? Edge Fracture – Background

          ? Past Case Studies

          ? Material Evaluations on Production & Trial Material

          ? Edge quality effects

          ? Hole expansion testing on current and new grades of AHSS

          ? Nano-indentation and microstructure

          ? Concluding Remarks


          Edge Fracture – Background

          ? Fracture initiating at a trimmed edge, typically not predicted by an FLC

          ? A local formability phenomena: aninter-relationship between steel microstructure, damage during trimming,  and subsequent edge-stretch during forming.

          ? AHSS more susceptible than single phase materials (Low Carbon, HSLAs)


          Edge Fracture – Background

          ? Edge fractures typically occur in the highest edge strain area in the presence of a rough trimmed edge.

          ?Typically during drawing or from a stretch flange after a rough die trim.


          Edge Fracture Case Studies

          ? Edge fracture instances are not isolated to particular steel suppliers, grades of AHSS, gauge, or coating.

          ? Case study subset selected to show common root causes and resolutions.



          Front Compartment Rail – CR780T / 420Y (DP).

          ? This design is frequently used for double attached left / right compartment rails (material utilization)

          ? Significant edge stretch condition during the draw in the ‘horse collar’ area

          ? Also, thin bypass condition between common trim lines (difficult to support) affected trim quality.


          Rear Rail CR590T / 340YDP

          ? Intermittent edge fracture predominantly on one hand of part.

          ?Size and exact location of fractures were variable run-to-run.


          Rear Rail CR590T / 340YDP

          ? LH vs. RH trim conditions made more robust.

          ? Trim steel insert maintenance required (sharpening).

          Potential Sources of Poor Trim Quality

          ? Poor Nesting (Trimming in Air)

          ? Die Breathing and Flexing

          ? Die Guidance

          ? Improper Clearance

          ?Typically too tight

          ?13-15% recommended for most AHSS

          ? Sharpness of Trim Steels

          Part with Flanged Hole – DP980T / 550Y

          ? Part hole expansion is 13%

          ? Material capability is 12-15%

          ? Other material properties within specification

          ? Hole Expansion (recently added to qualification approval process in May 2014)

          ? Design not robust for material capability

          ? Changed material to high yield ratio CR980T / 700Y-MP-LCE

          ? (HER ~ 30%)

          ? No issues-to-date


          Try-out vs. Production Blanks

          ? Laser cut blanks in try-out material are not a good indicator of potential edge fractures in production with die struck blanks.

          ? Stamping plants are concerned about receiving dies for secondary try-out when the dies have not stamped die struck blanks in primary try-out.

          ? Timing of production-intended blanks needs to ensure that delivery occurs before dies are shipped to home line.


          Hole Expansion Testing

          ? Variability of hole expansion testing exists due to variation in microstructure within a material, the quality of the sheared hole, and specific testing equipment site-to-site.

          ? A tool for qualification of material and general understanding of edge stretch performance with an adequate sample size; however, challenges exist for use for lot acceptance testing.



          Hole Expansion Test

          ? Mechanical properties of select grades for hole expansion testing.

          ? Current production DP780 and DP980 vs. newer RA-bearing 1180 MPa grades.

          ? Mechanical properties of select grades for hole expansion testing.

          ? Current production DP780 and DP980 vs. newer RA-bearing 1180 MPa grades.


          ? Newer high strength 1180 MPa grades showing >= HER vs. more conventional DP steels and less sensitivity to edge condition.

          ? New grades need balance of global and local formability for most applications.

          Nano-Indentation Evaluation – DP780

          ? Nano-indentation testing was performed to determine constituent hardness distributions in mixed microstructure DP780 steel.

          ? Two production samples were acquired representing two steel sources.

          ? Under similar blanking and stamping conditions, one steel exhibited edge fracture while the other did not.

          ? Samples were ground/polished using standard metallurgical techniques and finish-polished with colloidal silica.


          ? MTS Nanoindenter XP was used.

          ? Testing was performed at room emperature with a Berkovich tip

          ? Displacement control was used to indent to 100 nm maximum depth

          ? 12 x 12 array of indents was placed on each specimen, spaced

          2 μm apart ? Resulting hardness was averaged over a 60-90 nm depth to remove any surface abnormalities


          Summary

          ? Edge fracture susceptibility is influenced by a variety of related factors: blank edge condition, material, part design / forming (strain distribution) / trimming process.

          ? A balance of global and local formability performance is required for most cold-stamped parts and shall be considered in steel development.

          ? Uniform, fine-grained structure required

          ? Reduced hardness differential between constituents

          ? An industry-wide test is needed for material lot acceptance to predict edge fracture susceptibility

          ? Performance not predicted by standard tensile testing.





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