Style | Citing Format |
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MLA | Salimi A, et al.. "Coupled Boundary Element-Finite Element Model to Estimate Human Heel-Pad Elasticity Modulus." Biomedical Engineering - Applications# Basis and Communications, vol. 29, no. 3, 2017, pp. -. |
APA | Salimi A, Katouzian HR, Naraghibagherpour P, Khani MM (2017). Coupled Boundary Element-Finite Element Model to Estimate Human Heel-Pad Elasticity Modulus. Biomedical Engineering - Applications# Basis and Communications, 29(3), -. |
Chicago | Salimi A, Katouzian HR, Naraghibagherpour P, Khani MM. "Coupled Boundary Element-Finite Element Model to Estimate Human Heel-Pad Elasticity Modulus." Biomedical Engineering - Applications# Basis and Communications 29, no. 3 (2017): -. |
Harvard | Salimi A et al. (2017) 'Coupled Boundary Element-Finite Element Model to Estimate Human Heel-Pad Elasticity Modulus', Biomedical Engineering - Applications# Basis and Communications, 29(3), pp. -. |
Vancouver | Salimi A, Katouzian HR, Naraghibagherpour P, Khani MM. Coupled Boundary Element-Finite Element Model to Estimate Human Heel-Pad Elasticity Modulus. Biomedical Engineering - Applications# Basis and Communications. 2017;29(3):-. |
BibTex | @article{ author = {Salimi A and Katouzian HR and Naraghibagherpour P and Khani MM}, title = {Coupled Boundary Element-Finite Element Model to Estimate Human Heel-Pad Elasticity Modulus}, journal = {Biomedical Engineering - Applications# Basis and Communications}, volume = {29}, number = {3}, pages = {-}, year = {2017} } |
RIS | TY - JOUR AU - Salimi A AU - Katouzian HR AU - Naraghibagherpour P AU - Khani MM TI - Coupled Boundary Element-Finite Element Model to Estimate Human Heel-Pad Elasticity Modulus JO - Biomedical Engineering - Applications# Basis and Communications VL - 29 IS - 3 SP - EP - PY - 2017 ER - |