G. Aydin Et Al. , "Strain-Gradient Modeling and Computation of 3-D Printed Metamaterials for Verifying Constitutive Parameters Determined by Asymptotic Homogenization," In Theoretical Analyses, Computations, and Experiments of Multiscale Materials , Cham: Springer, 2022, pp.343-357.
Aydin, G. Et Al. Strain-Gradient Modeling and Computation of 3-D Printed Metamaterials for Verifying Constitutive Parameters Determined by Asymptotic Homogenization. 2022. In Theoretical Analyses, Computations, and Experiments of Multiscale Materials , Springer, Cham, 343-357.
Aydin, G., YILDIZDAĞ, M. E., & Abali, E. B., (2022). Strain-Gradient Modeling and Computation of 3-D Printed Metamaterials for Verifying Constitutive Parameters Determined by Asymptotic Homogenization. Theoretical Analyses, Computations, and Experiments of Multiscale Materials (pp.343-357), Cham: Springer.
Aydin, Gokhan, Mustafa Erden Yıldızdağ, And Emek Bilen Abali. "Strain-Gradient Modeling and Computation of 3-D Printed Metamaterials for Verifying Constitutive Parameters Determined by Asymptotic Homogenization." In Theoretical Analyses, Computations, and Experiments of Multiscale Materials , 343-357. Cham: Springer, 2022
Aydin, Gokhan Et Al. "Strain-Gradient Modeling and Computation of 3-D Printed Metamaterials for Verifying Constitutive Parameters Determined by Asymptotic Homogenization." Theoretical Analyses, Computations, and Experiments of Multiscale Materials , Springer, 2022, pp.343-357.
Aydin, G. YILDIZDAĞ, M. E. And Abali, E. B. (2022) "Strain-Gradient Modeling and Computation of 3-D Printed Metamaterials for Verifying Constitutive Parameters Determined by Asymptotic Homogenization", Theoretical Analyses, Computations, and Experiments of Multiscale Materials . Cham: Springer.
@bookchapter{bookchapter, author ={Gokhan Aydin Et Al. }, chaptertitle={Strain-Gradient Modeling and Computation of 3-D Printed Metamaterials for Verifying Constitutive Parameters Determined by Asymptotic Homogenization}, booktitle={ Theoretical Analyses, Computations, and Experiments of Multiscale Materials}, publisher={Springer}, city={Cham},year={2022} }