콘크리트 손상 소성 변형을 모델링하는 방법은 무엇일까요? | 다양한 콘크리트에 대한 정확한 매개변수
To model Concrete Damage Plasticity (CDP) effectively, you need a precise mix of elastic, plastic, and damage parameters—most of which can be found in validated research data like the SCDP tables or specialized UHPC calibrations; but we made it easy for you and we have it all in this blog. Whether you are analyzing a […]
열전달 및 열전달 해석이란 무엇인가요? | 간단 가이드 + Abaqus 열전달 해석
heat transfer is the movement of thermal energy due to temperature difference. Heat transfer analysis, on the other hand, is the engineering process of calculating and predicting that movement. This analysis matters because it solves real problems: preventing overheating in electronics, improving fuel efficiency in cars, or designing comfortable HVAC systems. For example, aerospace engineers […]
초탄성 재료 기초 | 이론부터 Abaqus 시뮬레이션까지 연습
A hyperelastic material is a type of material that can undergo very large elastic deformations and then fully recover its original shape. This unique property sets them apart from standard materials like metals or plastics, which often yield or break when pushed beyond their limits. That’s why rubbers, elastomers, and biological tissues are grouped under […]
스텐트 시뮬레이션 | 재료, 단계 및 Abaqus 실무 가이드
Cardiovascular diseases are among the leading causes of death worldwide, often caused by plaque buildup that narrows or blocks arteries. One of the most effective treatments is the use of cardiovascular stents—tiny, mesh-like tubes that keep blood vessels open and restore healthy circulation. Over the years, stent technology has evolved from bare-metal designs to advanced […]
FDM 시뮬레이션 가이드 | FDM(융착 모델링) 기본 사항
Fused Deposition Modeling process (FDM) is one of the most common methods in 3D printing, where thermoplastic material is melted and deposited layer by layer to create an object. FDM simulation is valuable for predicting how printed parts will behave under different conditions, allowing engineers to detect issues early and improve designs efficiently before production. […]
등방성 재료 vs 이방성 재료 | 기본 및 예시
Isotropic materials are those whose mechanical and physical properties are the same in all directions. When engineers design structures or perform simulations using Finite Element Analysis (FEA), one of the most fundamental assumptions they make concerns whether a material behaves the same in all directions. This leads to the concept of isotropic materials, which play […]
아바쿠스 유익스터널디비 서브루틴 | 단계별 가이드
When working with complex simulations in Abaqus, there often comes a point where built-in tools aren't enough. Whether you're integrating data from a previous run, feeding in external data sets, or saving simulation results for further analysis — this is where UEXTERNALDB Subroutine shines. In this complete guide, we break down everything you need to [...]관성 모멘트 대 면적 모멘트 - 간단한 가이드 하나로 필요한 모든 것
Have you ever seen a figure skater pull her arms close to her body and spin faster? Most people would say, “Wow! How amazing she is! How beautiful she is!”But we engineers think, “Why does she spin faster?”The answer: Moment of Inertia. We refer it in this blog as “MoI”. Now imagine a bridge under heavy traffic, packed with […]
전단력 및 굽힘 모멘트 전체 가이드 + 다이어그램 설명
Ever noticed how bridges carry tons of weight without collapsing? Or how buildings stand firm against both people and weather? It’s not magic—it’s physics. And two of the most important concepts behind this stability are shear force and bending moment. To grasp shear force, think about cutting a piece of paper with scissors. The opposing forces cause the paper to shear. […]
Abaqus를 이용한 콘크리트 보 및 기둥 해석: 소개
Reinforced concrete columns and beams are the backbone of modern structures, ensuring stability and strength in buildings and bridges. While concrete alone has high compressive strength, it is weak in tension. That’s why reinforcement, typically with steel rebar, is essential to prevent cracking, buckling, and failure under heavy loads. Without proper reinforcement and design, these […]
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