X-L Gao
Southern Methodist University
Transverse isotropyPhysicsEngineeringMathematical analysisVelocity gradientSoft tissueHyperelastic materialStrain rateBernoulli's principleComposite materialBeam (structure)Materials scienceSurface energyStrain energy density functionConstitutive equationBlunt traumaHead injuryBallistic impactBrain damageHamilton's principleThin shellsCouple stressSurface elasticityStrain gradientDeformation (mechanics)Polynomial (hyperelastic model)Euler's formulaCauchy elastic materialForensic engineeringNatural frequencyMicrostructurePhysical medicine and rehabilitation
4Publications
3H-index
51Citations
Publications 4
Newest
#1G. Y. Zhang (SEU: Southeast University)H-Index: 12
#2X-L Gao (SMU: Southern Methodist University)H-Index: 3
A new non-classical model for first-order shear deformation circular cylindrical thin shells is developed by using a modified couple stress theory and a surface elasticity theory. Through a variatio...
Source
#1G. Y. Zhang (SEU: Southeast University)H-Index: 12
#2X-L Gao (SMU: Southern Methodist University)H-Index: 3
A new non-classical Bernoulli–Euler beam model is developed using a reformulated strain gradient elasticity theory that incorporates both couple stress and strain gradient effects. This reformulate...
Source
#1S G Kulkarni (Dassault Systèmes)H-Index: 1
#2X-L Gao (SMU: Southern Methodist University)H-Index: 3
Last. J. Q. ZhengH-Index: 7
view all 5 authors...
A transversely isotropic visco-hyperelastic constitutive model is provided for soft tissues, which accounts for large deformations, high strain rates, and short-term memory effects. In the first part, a constitutive model for quasi-static deformations of soft tissues is presented, in which a soft tissue is simulated as a transversely isotropic hyperelastic material composed of a matrix and reinforcing fibers. The strain energy density function for the soft tissue is additively decomposed into tw...
Source
#1Xiaogai Li (KTH: Royal Institute of Technology)H-Index: 16
#2X-L Gao (SMU: Southern Methodist University)H-Index: 3
Last. Svein Kleiven (KTH: Royal Institute of Technology)H-Index: 31
view all 3 authors...
Behind helmet blunt trauma (BHBT) has emerged as a serious injury type experienced by soldiers in battlefields. BHBT has been found to range from skin lacerations to brain damage and extensive skul ...
Source
This website uses cookies.
We use cookies to improve your online experience. By continuing to use our website we assume you agree to the placement of these cookies.
To learn more, you can find in our Privacy Policy.