Oyane using the software. Numerical Simulation of Forging Process in Deform 3D : Analyzes plastic deformation and material flow during the forging of complex parts. www.researchgate.net +2 Machining Processes (Milling & Drilling) DEFORM-3D Based on Machining Simulation during Metal Milling : Explores the prediction of milling forces, stress distribution, and temperature fields using DEFORM's finite element technology. Finite Element Modeling of Drilling Using DEFORM : Discusses the complexities of modeling tool geometry, specifically drill bits, and simulating the drilling process. www.researchgate.net +2 Advanced Material Processing Simulation of Hot Stamping Process Based on Deform Software : Details the thermomechanical parameters for hot stamping, including mesh weight factors and material properties like H-13 steel. Computer Simulation and Research of the Hot Rolling Process : Investigates stress-strain fields and severe plastic deformation (SPD) mechanisms in rolling applications. www.researchgate.net +1 Which specific
Non-Rigid Registration of 3D Point Clouds under Isometric Deformation Authors: Tam, G. K. L., et al. (survey) Year: 2013 (plus many primary papers) Venue: Computer Graphics Forum (state-of-the-art report) Why it’s good: Covers software methods for deforming one shape to another. Practical software: Open3D, PCL (Point Cloud Library), CPD (Coherent Point Drift). deform software
Free-Form Deformation of Solid Geometric Models Authors: Sederberg, T. W., & Parry, S. R. Year: 1986 Venue: SIGGRAPH Why it’s good: Introduces the classic FFD method using a lattice to deform objects without changing underlying topology. Citation count: 2000+ PDF available via: ACM Digital Library (or search author’s site). Oyane using the software
Real-Time Deformable Models for Surgery Simulation: A Survey Authors: Meier, U., et al. Year: 2005 (updated in later surveys) Venue: IEEE Transactions on Visualization and Computer Graphics Why it’s good: Focuses on deformable software for medical training – finite element method (FEM), mass-spring, position-based dynamics. Software examples: SOFA framework, CHAI3D, Deformable Simulators. Finite Element Modeling of Drilling Using DEFORM :
DEFORM software has transitioned from a high-end luxury for research labs to a functional necessity for competitive manufacturing. By bridging the gap between theoretical design and physical reality, it enables companies to innovate faster, reduce waste, and guarantee the integrity of the parts that keep our world moving.
Manufacturing large-scale components for wind turbines and nuclear reactors.