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          Fracture Characterization of Advanced 980 MPa Steels

          2018-10-24 11:23:00
          LUQIMENG
          Original
          2519
          Steel Marketing Development:           Hesham Ezzat, Dave Anderson
          ArcelorMittal:                                      Steve Lynes, Tim Lim
          AK Steel:                                            Kavesary Raghavan
          Nucor:                                                Dean Kanelos, Andy Thompson
          Honda Research of Americas:           Jim Dykeman, Skye Malcolm

          University of Waterloo:


          Mike Worswick, Cliff Butcher
          Jose Imbert-Boyd
          Armin Abedini
          Kenneth Cheong
          Sante DiCecco
          Sam Kim
          Amir Zhumagulov
          Taamjeed Rahmaan
          Kaab Omer


          Background
          ? Objective
          ? Study Materials
          ? Fracture Test Methodology and Results
          ? Component Testing
          ? Conclusions

          Need for Grade Diversification at 980 Strength Level

          ? Specialized grades now exist at
          the 590 and 780 MPa strength
          level. (dual phase, TRIP, etc).
          ? Expand Grades at 980 MPa for
          enhanced:
          - bending
          - flanging
          - energy absorption


          Microstructures of early DP980 not optimized for bending and edge stretch
          ? These property limitations restricted the application of DP980.
          ? Complex part shapes and features could not be formed.
          ? Energy absorption targets could not be meet due to fracture problems.

          1. Characterize properties of various Dual Phase 980 grades selected by
          Steel Marketing Development Institute (Blind Study)
          2. Investigate optimized fracture testing methodology for Advanced High
          Strength Steel ?  Industrial Friendly and Efficient Methods Required
          3. Perform experimental axial and bend crush experiments and assess
          fracture performance


          Materials can generally be described as DP with fine, uniform microstructure.


          1.All grades exhibited total elongation typical of 980 level material.
          2.Relatively high YS/TS ratios suggested all grades favor local formability.
          3.Material #2 had unique yield point elongation behavior.

          1.Performance of these grades is consistent with or above current commercial products.
          2.VDA bend data is of growing industrial importance as means to evaluate material.


          Priority Focus Areas

          1) Material characterization at large strains and strain rates
          2) Efficient method to determine forming limit strains (FLD) (Global formability)
          3) Characterization in tight radius bending (Local formability/fracture)
          4) Establish best practices and tests for experimental fracture characterization
          *Extensive numerical characterization study pursued in tandem


          ? Limited hardening data
          available in tensile tests
          ? Inverse FE modeling used to
          identify hardening at large
          strains for fracture
          ? Hardening data becomes a
          function of numerical model
          assumptions...

          ? UW developed simple method to use tensile & shear test data to obtain hardening to large strain levels
          ? DP980 data to 60% strain!
          ? Not related to FE model


          ? Tensile characterization from 0.001 to 1000 s-1
          ? Scale quasi-static data obtained to large strains for strain rates
          ? Efficient experimental method for constitutive characterization


          Physically-motivated FLD detection methods are needed



          .Formability in tight-radius bending indentified as key factor in crash performance
          VDA 238-100 bend test promising but only reports bend angle


          Plane Strain notch provides lower bound estimate if thinning correction performed
          Correction also required for plane strain dome tests

          Outer diameter is in uniaxial tension and does not contact the punch
          Triaxiality = 1/3 (Butcher et al., SAE, 2013, Pathak et al., JMEP, 2016; Numisheet 2016)

          ? Conflicting limits provided by different specimen types if thinning correction not applied

          Four tests can be used to generate physically- - meaningful fracture loci
          Not the product of a simulation exercise – Real material performance can be assessed

          ? Relatively comparable fracture loci
          ? Mat 2 had the lowest hardening rate, highest hole expansion and v-bend.


          Sheared Edge Failure is a  Uniaxial Tensile Mode:
          Use Punched Hole Expansion Tests to Obtain  Uniaxial Failure Strain with Sheared Edge

          ? Sled Mass: 855kg
          ? Sled Velocity: 25.5km/h
          ? Total Energy: 21kJ
          ? Free Crush Distance: 100mm
          ? Total Crush Distance: 160mm

          Axial Crush Dynamic Crash Test at UW
          ? Sled Mass: 855kg
          ? Sled Velocity: 25.5km/h
          ? Total Energy: 21kJ
          ? Free Crush Distance: 115 mm
          ? Total Crush Distance: 135mm





          Relatively Good
          Performance for 3 Grades
          Repeatable Energy
          Absorption
          Material 3 had highest
          spot weld strength and
          strain rate sensitivity

          Efficient and Accurate Experimental Methodologies Established for Characterization
          of AHSS
          1. Method to experimentally obtain hardening to large strains and strain rates
          2. New FLD detection algorithm: Curvature- - based
          3. Optical V- - Bend developed: Ideal plane strain test
          4. Four tests required to efficiently obtain fracture locus for a material
          As with FLD’s,  Use 4 Industrially Friendly Tests  to Construct Fracture Locus to
          Compare Material Performance  ? Accounts for Edge Condition
          New model to use four tests for rapid FE model implementation  ? Next GDIS




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