Başlık: A Thermomechanically Consistent Constitutive Theory for Modeling Micro-Void and/or Micro-Crack Driven Failure in Metals at Finite Strains

C. Soyarslan Et Al. , "A Thermomechanically Consistent Constitutive Theory for Modeling Micro-Void and/or Micro-Crack Driven Failure in Metals at Finite Strains," INTERNATIONAL JOURNAL OF APPLIED MECHANICS , vol.8, no.1, 2016

Soyarslan, C. Et Al. 2016. A Thermomechanically Consistent Constitutive Theory for Modeling Micro-Void and/or Micro-Crack Driven Failure in Metals at Finite Strains. INTERNATIONAL JOURNAL OF APPLIED MECHANICS , vol.8, no.1 .

Soyarslan, C., Turtuk, I. C., DELİKTAŞ, B., & Bargmann, S., (2016). A Thermomechanically Consistent Constitutive Theory for Modeling Micro-Void and/or Micro-Crack Driven Failure in Metals at Finite Strains. INTERNATIONAL JOURNAL OF APPLIED MECHANICS , vol.8, no.1.

Soyarslan, Celal Et Al. "A Thermomechanically Consistent Constitutive Theory for Modeling Micro-Void and/or Micro-Crack Driven Failure in Metals at Finite Strains," INTERNATIONAL JOURNAL OF APPLIED MECHANICS , vol.8, no.1, 2016

Soyarslan, Celal Et Al. "A Thermomechanically Consistent Constitutive Theory for Modeling Micro-Void and/or Micro-Crack Driven Failure in Metals at Finite Strains." INTERNATIONAL JOURNAL OF APPLIED MECHANICS , vol.8, no.1, 2016

Soyarslan, C. Et Al. (2016) . "A Thermomechanically Consistent Constitutive Theory for Modeling Micro-Void and/or Micro-Crack Driven Failure in Metals at Finite Strains." INTERNATIONAL JOURNAL OF APPLIED MECHANICS , vol.8, no.1.

@article{article, author={Celal Soyarslan Et Al. }, title={A Thermomechanically Consistent Constitutive Theory for Modeling Micro-Void and/or Micro-Crack Driven Failure in Metals at Finite Strains}, journal={INTERNATIONAL JOURNAL OF APPLIED MECHANICS}, year=2016}

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