Orthopedic Implants

Develop innovative and durable implants that conform with a patient’s physiology and that comply with MRI compatibility requirements.

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Optimize Designs and Personalized Implants Through Simulation

As life expectancy rises, companies are racing to extend the life of implants, while developing innovative replacement therapies for aging hips, knees, shoulders, spines and dental implants, to mention a few. Ansys is a leader in the field of in silico medicine, which combines multiphysics simulation, material properties, patient-specific human physiology, surgical procedures and manufacturing processes.

Though no two patients are alike, simulation enables the design and development of prostheses and implants tuned to a large proportion of the general population or customized to a patient’s specific requirements through techniques such as 3D printing.

Improve Reliability of Implants

Certify MRI Compatibility

Coupled electro-thermal analysis can evaluate the temperature increase due to MRI interaction with implanted prostheses.

Reliability and Durability

Examining the fatigue performance of an implant—under a range of loading conditions and in a diverse virtual population simulation—enables more reliable and durable designs.

In Silico Clinical Trials

Applying validated and approved computer models of implants to hundreds of virtual patients provides digital evidence of product performance, accelerating the regulatory approval process.

Featured Products

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Ansys Granta MI Pro

材料

快速启动材料数据管理

用户友好型材料数据库
比较材料属性
与领先的CAD和CAE产品集成
预加载2,600多个材料数据集

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Free Trial

Ansys Discovery

3D Design

Our innovative interface for 3D design engineers combines live physics simulation, high-fidelity results and direct modeling.

Features live physics simulation
Delivers fast high-fidelity results
Explore multiphysics and multiple physics scenarios
De-feature CAD models, extract fluid domains or simplify models for simulation
Topology optimization speeds workflow
Works with any CAD file

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Ansys HFSS

电子

用于设计高频和高速电子元件的 3D 电磁场求解器。其 FEM、IE、渐近和混合求解器可解决 RF、微波、IC、PCB 和 EMI 问题。

解决多层封装
PCB 和封装的 3D 布局工作流程
高频电磁求解器
通过 3D 组件进行 IP 保护

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增材套件

增材制造

Additive Suite涵盖整个工作流程，从增材制造设计（DfAM）到验证、打印设计、工艺仿真和材料探索。

Additive Suite包括：

Additive Prep
增材打印
增材技术
访问Workbench Additive

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Ansys Thought Leaders spotlight

Marc Horner

Marc has worked for nearly 20 years to advance the use of modeling and simulation in the healthcare industry. His expertise ranges from partnering with standards organizations and regulators to establish best simulation practices, to working with industry and academia to develop advanced model frameworks that support digital transformation.

Download this Medical System White Paper

Featured Resources

ARTICLES

Boning Up

Computer-assisted hip surgery features musculoskeletal modeling software to understand muscle and bone forces. Ansys helps calculate stresses and strains across the body post-surgery, assisting doctors in devising a better surgical method.

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2022 Simulation World：实现“坚定飞跃”

Orthopedic Implants

Optimize Designs and Personalized Implants Through Simulation

Improve Reliability of Implants

Certify MRI Compatibility

Reliability and Durability

In Silico Clinical Trials

Featured Products

Ansys Granta MI Pro

Ansys Discovery

Ansys HFSS

增材套件

Marc Horner

Thierry Marchal

Featured Resources

ARTICLES

Boning Up

了解Ansys提供的产品与服务

了解Ansys提供的产品与服务

立即联系我们

感谢您的联系！