我们的航空航天与国防验证管理解决方案提供一个单一的集成环境，帮助企业实现更快的验证时间，可确保按要求、按计划且按正确的顺序执行所有产品验证活动（无论是仿真建模和分析，还是物理测试），将各个测试或分析与必要的资源联系在一起，并进行全面跟踪。

It is no secret that manufacturing challenges in the aerospace industry are growing. Advanced materials, such as composites, and advanced technologies, such as additive manufacturing, are driving up manufacturing complexity. Automated processes are replacing labor-intensive applications on the shop floor, and this is increasing the need for specialized tools. Our manufacturing solution offers a comprehensive set of fully integrated tools for part manufacturing, including CAD/CAM, robotics, CNC machining, CMM inspection, and 3D printing.

Aerospace and defense tooling is complex and demanding, and plays a critical role in the finished product, affecting quality and manufacturing repeatability. Tooling design requires a deep understanding of the conditions faced during production. Our integrated design and manufacturing solution offer a comprehensive set of fully integrated tools for the entire tool and fixture design and manufacturing process, including design, simulation, CNC, CMM inspection and 3D printing.

要开发复杂的创新型产品，管理材料数据并将其融入产品生命周期是不可或缺的。我们的解决方案在要用于航空航天产品的材料与产品物料清单 (BOM) 之间保持紧密集成，这对于交付成功、合规的创新型产品至关重要。

使复杂的飞机发动机系统满足排放、噪声、能源效率、安全性和可靠性等方面的性能要求，所有这些都需要一个平台来为大量学科提供总体视图。Siemens Digital Industry Software 解决方案组合将以独特的方式将强大的设计空间探索、可扩展多物理场、动力学和 CFD 功能、行业领先的物理测试及成熟的工程服务结合在一起，在各个层面提供工程见解。

Aerodynamic performance engineering affects not just the airframe but a multitude of other aircraft systems. The design and performance of systems including propulsion, environmental controls, landing gears, ice protection, and avionics depend on optimal aerodynamic performance. Simcenter solutions offer accurate, multi-disciplinary simulations, testing, and automated design space exploration, helping engineers discover better aerodynamic designs, faster.

现代飞机的热平衡工程充满了挑战。电气化、创新设计和轻型材料有助于增加散热，同时确保了系统安全性和乘客舒适度。我们的解决方案组合可以优化热负荷和乘客舒适度、前端装载系统和设备集成，并在设计阶段早期执行热权衡分析，为用户提供前后一致的虚拟热管理分析。这种组合式系统工程、建模和仿真、测试和验证是飞机热系统创新工程的关键所在。

The structural complexity of modern aircraft has increased the structural analysis demand and the need to improve traceability and global analysis workflow which can have a major impact on reducing non-recurring program costs from structural design.

Boost the performance of aircraft systems. Avoid costly troubleshooting by addressing the complexity of aircraft systems and assessing system interactions during early design phases.

To help you reduce development costs and increase overall program delivery efficiency, we offer you a powerful suite of system simulation and CAE solutions that enable you to build scalable digital twins of aircraft systems.

Streamline aircraft integration and avoid costly program delays. Aircraft integrators face complex integration challenges to confirm that performance targets are met and certify design airworthiness.

By combining virtual and physical testing, we offer a unique platform to predict and confirm the aircraft behavior in flight operation. Our solutions are backed up by years of engineering experience, designed to answer modern aircraft integration challenges.

在如今的航空航天和国防项目中，供应商必须按预算如期交付满足所有技术和性能要求的产品，同时经常与遍布全球的供应商和合作伙伴进行协作。这些供应商和合作伙伴可能使用各式各样的工程应用程序。我们的解决方案提供了多 CAD 总成的数字模型和可视化功能，使所有人均能够访问设计和流程数据并彼此协作，从而制定明智的决策。

航空航天及国防企业面临着产品复杂性增加、定制程度更高以及全球竞争激烈等问题。许多企业依然使用基于文档的流程及其他低效流程，无法展现他们应对这些挑战的能力。企业必须转变工程和设计思维及流程。我们的开放式多学科可扩展标准解决方案可提供开发创新型航空航天产品所需的所有工具。

航空航天及国防企业需要减少产品支持和运营成本。由于这些产品寿命较长，维护成本在总成本中占了很大一部分，因此提高可靠性并尽量减少与维护相关的停机时间至关重要。通过运用来自设计和仿真的产品知识，我们的服务规划与管理解决方案可用于在交付设备前开发、验证并记录服务要求和服务规划。

航空航天及国防行业的公司面临诸多挑战，其中包括日益复杂的项目、激烈的竞争、更严格的法规要求和不断变化的客户优先任务。在这种环境下，有助于成功执行项目的一个策略就是，在产品生命周期中提前考虑制造注意事项。我们提供一套流程驱动型 PLM 方法，可将制造工程引入航空航天项目的各个方面——从投标开始，然后贯穿整个产品生命周期。

使用基于电气模型的开发环境 (MBE) 可以快速、准确地分析配置受控的电气数字化双胞胎，从而更好地满足合规性。

我们的 E/E 系统开发解决方案提供一种基于模型的方法，采用数字化数据连续性，并覆盖整个电气价值链：从平台电气系统的定义到其设计、认证和制造，再到支持其使用生命周期。