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2. 10.1016/j.jmatprotec.2015.11.019 20） Khan, A. et al.：An alternative explanation of forming force reduction for forming process submitted to vibration：Influence of the waveform in the viscoplastic domain, J. Mater. Process. Technol., 230 （2016）, 288-299. 

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3. 10.1016/j.jmatprotec.2016.03.016 21） Grechnikov, F. et al.：Estimation of hot stamping lubricant efficiency under dynamic loading conditions, ibid., 234 （2016）, 300-308. 

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4. 10.1016/j.cirp.2016.04.013 23） Ahn, D. G. et al.：Improvement of the wear resistance of hot forging dies using a locally selective deposition technology with transition layers, CIRP Annals-Manuf. Technol., 65 （2016）, 257-260. 

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5. 10.1016/j.jmatprotec.2015.09.011 42） Sun, Z. et al.：Tri-modal microstructure evolution of TA15 Ti-alloy under conventional forging combined with given subsequent heart treatment, J. Mater. Process. Technol., 229 （2016）, 72-81. 

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6. 10.1016/j.jmatprotec.2015.12.009 43） Segal, V. et al.：Newhot thermo-mechanical processing of heat treatable aluminum alloys, ibid., 231 （2016）, 50-57. 

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7. 10.1016/j.jmatprotec.2016.05.021 44） Springer, P. et al.：Characterization of mechanical behavior of 18CrNiMo7-6 steel with and without Nb under warm forging conditions through processing maps analysis, ibid., 237 （2016）, 216-234. 

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8. 10.1002/srin.201500234 47） Xu, J. et al.：A comparison of hot deformation behavior of high-Cr white cast iron and high-Cr white cast iron/low carbon steel laminate, steel research int., 87 -6 （2016）, 780-788. 

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9. 10.1002/adem.201500426 48） Rezaee, M. et al.：Flow characterization of a duplex near α Ti6242 alloy through interrelation of micro structural evolution, 3D activation energy map, and processing map, Adv. Eng. Mater., 18 -6 （2016）, 1075-1085. 

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10. 10.1016/j.jmatprotec.2015.09.035 62） Neag, A. et al.：Comparison between numerical simulation of semisolid flow into a die using FORGE and in situ visualization using a transparent sided die, J. Mater. Process. Technol., 229 （2016）, 338-348. 

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11. 10.1002/srin.201400526 71） Zhang, C. et al.：Microstructure evolution of a new Dual-Phase steel via Multi-Pass compression defor mation in the （α+γ） region, steel research int., 87 -2 （2016）, 157-164. 

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12. 10.1016/j.jmatprotec.2015.08.017 75） Wang, C. et al.：Influence of ring growth rate on damage development in hot ring rolling, J. Mater. Process. Technol., 227 （2016）, 268-280. 

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13. 10.1016/j.jmatprotec.2015.07.009 76） Jin, J. et al.：A single-step hot stamping-forging process for aluminum alloy shell parts with nonuniform thickness, ibid., 228 （2016）, 170-178. 

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14. 10.1016/j.cirp.2016.04.125 77） Wolfgarten, M. et al.：New method for the manufacturing of curved workpieces by open-die forging, CIRP Annals-Manuf. Technol., 65 （2016）, 285-288. 

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15. 10.1016/j.cirp.2016.04.134 78） Wang, Z. et al.：Forming of light-weight gear wheel by plate forging, ibid., 65 （2016）, 293-296. 

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16. 10.1016/j.cirp.2016.04.132 79） Utsunomiya, H. et al.：Die motion control for die-quench forging process of AA6061 aluminum alloys, ibid., 65 （2016）, 297-300. 

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17. 10.1115/1.4030855 80） Xinghui, H. et al.：Calculation method for rocking die motion track in cold orbital forging, Trans. ASME, J. Manuf. Sci. Eng., 138 -1 （2016）, 014501.1-014501.9. 

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18. 10.1016/j.jmatprotec.2016.06.013 92） Song, M. et al.：Symmetric bending technology using a floating die to forge crank throws for marine engines, J. Mater. Process. Technol., 237 （2016）, 197-207. 

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19. 10.1016/j.jmatprotec.2016.07.028 93） Lui, E. et al.：Effects of chip conditions on the solid state recycling of Ti-6Al-4V machining chips, ibid., 238 （2016）, 297-304. 

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