His primary areas of investigation include Finite element method, Structural engineering, Forming processes, Sheet metal and Mechanics. His Finite element method research is multidisciplinary, incorporating perspectives in Mechanical engineering, Deep drawing, Geometry, Computation and Anisotropy. His study in Structural engineering is interdisciplinary in nature, drawing from both Roll forming, Composite material and Plasticity.
His Forming processes study combines topics from a wide range of disciplines, such as Coordinate system, Bending, Process design, Deformation and Range. His Sheet metal research includes themes of Numerical analysis and Blank. His Mechanics research includes elements of Torque and Calculus.
Dong-Yol Yang mostly deals with Finite element method, Structural engineering, Composite material, Mechanical engineering and Forming processes. The concepts of his Finite element method study are interwoven with issues in Forging, Extrusion, Sheet metal, Mechanics and Numerical analysis. His biological study spans a wide range of topics, including Computation, Deformation and Plasticity.
His research integrates issues of Molten carbonate fuel cell and Plasma display in his study of Composite material. His Die and Rapid prototyping study are his primary interests in Mechanical engineering. His Forming processes study frequently draws connections between adjacent fields such as Bending.
Dong-Yol Yang mainly focuses on Composite material, Finite element method, Nanotechnology, Structural engineering and Forming processes. His biological study deals with issues like Molten carbonate fuel cell, which deal with fields such as Shielded cable, Fracture, Homogenization and Fuel cells. His Finite element method study incorporates themes from Work, Engineering drawing, Mechanical engineering, Stress and Deformation.
His Work research is multidisciplinary, incorporating elements of Mechanics and Numerical analysis. His Nanotechnology research integrates issues from Microstructure and Lithography. His research in Forming processes intersects with topics in Orthotropic material, Plasticity, Bending, Deformation and Sheet metal.
His scientific interests lie mostly in Structural engineering, Composite material, Optics, Bending and Finite element method. His work on Forming processes expands to the thematically related Structural engineering. His studies deal with areas such as Parabolic reflector, Boundary value problem, Near-infrared spectroscopy, Deformation and Blank as well as Forming processes.
His Bending research is multidisciplinary, relying on both Image warping, Fe simulation, Roll forming and Truss. Dong-Yol Yang interconnects Reflection, Numerical analysis, Reflector and Heat flux in the investigation of issues within Finite element method. His work in Tissue engineering addresses issues such as Nanotechnology, which are connected to fields such as Stereolithography.
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Advances in 3D nano/microfabrication using two-photon initiated polymerization
Kwang-Sup Lee;Ran Hee Kim;Dong-Yol Yang;Sang Hu Park.
Progress in Polymer Science (2008)
Development of dual scale scaffolds via direct polymer melt deposition and electrospinning for applications in tissue regeneration.
Suk Hee Park;Taek Gyoung Kim;Hyo Chan Kim;Dong-Yol Yang.
Acta Biomaterialia (2008)
Improvement of formability for the incremental sheet metal forming process
TJ Kim;Dong-Yol Yang.
International Journal of Mechanical Sciences (2000)
Two‐photon stereolithography for realizing ultraprecise three‐dimensional nano/microdevices
Sang-Hu Park;Dong-Yol Yang;Kwang-Sup Lee.
Laser & Photonics Reviews (2009)
Recent developments in the use of two-photon polymerization in precise 2D and 3D microfabrications
Kwang-Sup Lee;Dong-Yol Yang;Sang Hu Park;Ran Hee Kim.
Polymers for Advanced Technologies (2006)
Three‐Dimensional SiCN Ceramic Microstructures via Nano‐Stereolithography of Inorganic Polymer Photoresists
Tuan Anh Pham;Dong-Pyo Kim;Tae-Woo Lim;Sang-Hu Park.
Advanced Functional Materials (2006)
Nanoscale electronics: digital fabrication by direct femtosecond laser processing of metal nanoparticles.
Yong Son;Junyeob Yeo;Hanul Moon;Tae Woo Lim.
Advanced Materials (2011)
Elasto-plastic finite element method based on incremental deformation theory and continuum based shell elements for planar anisotropic sheet materials
Jeong Whan Yoon;D. Y. Yang;K. Chung.
Computer Methods in Applied Mechanics and Engineering (1999)
Earing predictions based on asymmetric nonquadratic yield function
Jeong Whan Yoon;F Barlat;K Chung;F Pourboghrat.
International Journal of Plasticity (2000)
An assessment of numerical parameters influencing springback in explicit finite element analysis of sheet metal forming process
S. W. Lee;Dong-Yol Yang.
Journal of Materials Processing Technology (1998)
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