Ansys는 모든 수준의 엔지니어가 복잡한 구조 엔지니어링 문제를 보다 빠르고 효율적으로 해결할 수 있도록 구조 해석 소프트웨어 솔루션을 제공합니다. 당사의 툴 제품군을 통해 엔지니어는 유한 요소 해석(FEA)을 수행하고, 구조 역학 과제를 해결하기 위한 솔루션을 사용자 정의 및 자동화하며, 여러 설계 시나리오를 해석할 수 있습니다. 설계 주기 초기에 당사의 소프트웨어를 사용하면 비용을 절감하고, 설계 주기 수를 줄이며, 제품을 보다 빠르게 출시할 수 있습니다.
포괄적인 구조 해석 툴 제품군을 통해 엔지니어는 충격, 낙하 및 진동, 충격 및 침투, 스매쉬 및 충돌, 탑승자 안전, 열 전달, 솔더 피로 현상, 반복 하중 등을 시뮬레이션 할 수 있습니다. Ansys의 구조 해석은 다양한 응용 분야 및 제품 통합을 통해 까다로운 제품 문제를 해결하는 데 도움을 드립니다.
Cloud-based Engineering Simulation
Variation analysis and simulation orchestration
구조 및 연성 거동에 대한 심층 해석을 제공하는 유한 요소 해석 (FEA) 솔루션 제품군을 사용하여 광범위한 구조 해석요구를 해결합니다.
Ansys Mechanical에 통합된 강력한 Explicit 시뮬레이션 도구를 사용해 보십시오. 다양한 기능과 재료 모델을 통해 확장성이 뛰어난 복잡한 모델을 구현할 수 있습니다.
Ansys는 포괄적이고 확장 가능한 엔드 투 엔드 소프트웨어 솔루션을 제공하여, Additive Manufacturing 프로세스의 위험을 최소화하고 고품질의 인증가능한 부품을 보장합니다.
초기 설계 단계에서 구성 요소, 보드 및 시스템 수준에서 전자 하드웨어에 대한 빠르고 정확한 수명 예측을 제공합니다.
계측된 음향 시험결과와 다중 물리 시뮬레이션 결과를 결합하여, 설계 초기에 제품의 음향을 예측하는 한편 음향 품질을 미세한 수준까지 개선할 수 있습니다.
충격, 고압 또는 폭발로 인해 단기간에 발생하는 극심한 하중에 대한 재료의 반응을 시뮬레이션합니다.
MDS를 사용하면 Ansys Mechanical 에서 Ansys Granta의 다양한 물성 데이터에 액세스하여 사용할 수 있습니다.
Ansys Forming은 전체 성형 공정을 단일 플랫폼에서 가장 빠른 해결 시간으로 수행할 수 있는 end-to-end 워크플로를 통해 모든 금속 성형 과정을 시뮬레이션합니다.
July 2023
In 2023 R2, the structures product line delivers new features and capabilities that allow users to perform more accurate, efficient, and actionable structural simulation analyses, including:
Easily handle the complexity of the varied design environments you may face. The range of analytical tools enables you to create a product that meets your performance goals and holds up over time.
This capability includes connections to other Ansys products including Ansys CFD products, optimization solutions and external CAD systems.
Mechanical loading, thermal stress, bolt tension, pressure conditions and rotational acceleration are just some of the factors that dictate strength requirements for materials and designs. Our products ensure your product’s viability and safety by predicting the strength required for the loads your design will experience in service.
It can have a substantial impact on durability and fatigue, leading to a shorter service life. You need to understand how your designs will respond to vibrations from phenomena such as brake squeal, earthquakes, transport and acoustic and harmonic loads to predict the behavior of products and components. Structural simulations can provide this understanding and help you to overcome your toughest vibration challenges.
Convection, radiation and conduction loads are obvious, but the need to include the effect of power losses and thermal energy from friction and external sources such as pipe flows means that analysts need to have more tools at their disposal to simulate thermal models accurately.
Fatigue or lifing analysis is a key enabler in building this product durability knowledge.
Drop tests are ideal candidates for an impact analysis. These impact analysis programs calculate the forces between two or more colliding bodies and the resultant deformation or damage.
It enables you specify where supports and loads are located on your model and lets the software explore the design space. For example, you can easily perform lightweighting of structures, extract CAD shapes quickly and explore designs and process parameters for additive manufacturing.
Examples could include suspension assembles in ground vehicles, robotic manipulators in manufacturing processes or gear systems within electric drivetrains. Simulating the motion of these systems gives insight into their performance over the range of dynamic loading experienced when in operation.
The design requirements for these structures can be quite different from traditional land-based constructions. Simulating the loading and the effects of these factors on structural response is a necessary component of the design. Ansys provides capabilities that can reproduce these loading conditions and responses across a broad range of applications. Ansys has solutions for different requirements depending on the specific application, from simplified models for truss type structures to high-fidelity simulations that include all aspects of the fluid loading environment.
Composite materials like carbon fiber, typically used in the aerospace and automotive sectors, are being used increasingly in energy, sports, construction and marine applications. Their composite nature, however, makes accurate simulation a challenge. Ansys offers a complete suite of tools to help you overcome this challenge.
This comprehensive solution spans the entire workflow — from design for additive manufacturing (DfAM) through validation, print design, process simulation and material analysis.
Our entire Ansys portfolio looks at the effects of electromagnetic, structural, fluid and thermal forces in combination. As a result, it predicts product performance with greater accuracy and provides seamless data transfer between physics solutions.
Join us for this webinar to understand battery behavior under normal operating conditions and abuse conditions to optimize battery designs with Ansys LS-DYNA.
This webinar explores Ansys Sherlock automated design analysis software.
This webinar series focuses on our lightweighting capabilities, which will help solve your toughest A&D engineering problems.
Closing the Gap Between Composite Manufacturing, Design and Analysis.
Watch this webinar to gain an overview of applications typically beyond the capabilities of CAD-embedded FEA simulation.
In this webinar, learn how Ansys SIwave, Ansys Icepak, Ansys Mechanical and Ansys Sherlock can be used as a comprehensive multi-physics solution to optimize PCB reliability.
