Carl J. Boehlert

Best Publications

• Titanium Alloys for Biomedical Applications

  Mitsuo Niinomi;Carl J. Boehlert

  1120
  Citations

• Part I. The microstructural evolution in Ti-Al-Nb O+Bcc orthorhombic alloys

  C. J. Boehlert;B. S. Majumdar;V. Seetharaman;D. B. Miracle

  366
  Citations

• Methodology for estimating the critical resolved shear stress ratios of α-phase Ti using EBSD-based trace analysis

  H. Li;D.E. Mason;T.R. Bieler;C.J. Boehlert

  300
  Citations

• Current status and perspectives of zinc-based absorbable alloys for biomedical applications

  David Hernández-Escobar;Sébastien Champagne;Hakan Yilmazer;Burak Dikici

  292
  Citations

• Tension-compression asymmetry and the underlying slip/twinning activity in extruded Mg-Y sheets

  D.D. Yin;C.J. Boehlert;L.J. Long;G.H. Huang

  254
  Citations

• In situ scanning electron microscopy observations of tensile deformation in a boron-modified Ti–6Al–4V alloy

  C.J. Boehlert;C.J. Cowen;S. Tamirisakandala;D.J. McEldowney

  221
  Citations

• Part III. The tensile behavior of Ti-Al-Nb O+Bcc orthorhombic alloys

  C. J. Boehlert

  199
  Citations

• The microstructure, tensile properties, and creep behavior of Mg-Zn alloys containing 0-4.4 wt.% Zn

  C.J. Boehlert;K. Knittel

  198
  Citations

• In situ analysis of the tensile and tensile-creep deformation mechanisms in rolled AZ31

  C.J. Boehlert;C.J. Boehlert;C.J. Boehlert;Z. Chen;I. Gutiérrez-Urrutia;J. Llorca;J. Llorca

  185
  Citations

• A review of the metastable omega phase in beta titanium alloys: the phase transformation mechanisms and its effect on mechanical properties

  Unknown

  166
  Citations

• Assessment of in situ TiB whisker tensile strength and optimization of TiB-reinforced titanium alloy design

  C.J. Boehlert;S. Tamirisakandala;W.A. Curtin;D.B. Miracle

  164
  Citations

• In-situ analysis of the tensile deformation modes and anisotropy of extruded Mg-10Gd-3Y-0.5Zr (wt.%) at elevated temperatures

  H. Wang;H. Wang;C.J. Boehlert;Q.D. Wang;D.D. Yin

  161
  Citations

• Microstructure, creep, and tensile behavior of a Ti–21Al–29Nb(at.%) orthorhombic+B2 alloy

  C.J. Cowen;C.J. Boehlert

  141
  Citations

• Analysis of slip transfer and deformation behavior across the α/β interface in Ti–5Al–2.5Sn (wt.%) with an equiaxed microstructure

  James R. Seal;Martin A. Crimp;Thomas R. Bieler;Carl J. Boehlert

  140
  Citations

• Part II. The creep behavior of Ti-Al-Nb O+bcc orthorhombic alloys

  C. J. Boehlert;D. B. Miracle

  124
  Citations

• Effect of realistic 3D microstructure in crystal plasticity finite element analysis of polycrystalline Ti-5Al-2.5Sn

  C. Zhang;H. Li;P. Eisenlohr;W. Liu

  117
  Citations

• Microstructure, creep, and tensile behavior of a Ti–12Al–38Nb (at.%) beta+orthorhombic alloy

  C.J. Boehlert

  105
  Citations

• The effects of forging and rolling on microstructure in O+BCC TiAlNb alloys

  C.J Boehlert

  101
  Citations

• Comparison of the deformation behaviour of commercially pure titanium and Ti–5Al–2.5Sn(wt.%) at 296 and 728 K

  H. Li;D. E. Mason;Y. Yang;T. R. Bieler

  93
  Citations

• 4.21 Intermetallic Matrix Composites

  Carl J. Boehlert;Daniel B. Miracle

  16
  Citations