365体育提供了所有的构建模块,以关闭开发和操作之间的循环,融合模拟和现场数据,实现人工智能驱动的决策.

Industrial Machinery

任何机械制造项目的首要目标都是实现高质量产品的完美运行. By leveraging accurate virtual prototypes, 无缝生产可以确保在开发过程的早期,以帮助评估和提高产品的盈利能力.

机器日益复杂,需要在产品线开发和客户实施项目中积极管理技术风险. This can be achieved through multiphysics simulation and model-based development 深入了解不良行为的现象及根源. Altair的集成产品和流程模拟工具允许从不同角色对系统进行整体观察,以确保更早地完美运行生产.

Digital Transformation

Creating Equipment that Increases Cycle Speed and Improves Yields

Chad Jackson, CEO of Lifecyle Insights, confirms Altair's digital approach to industrial machinery design.

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Prototype Virtually

准确的虚拟原型提供了对结构的更深入的了解, mechanisms, and machine elements of industrial machinery, but also provides the foundation of AI-driven decision making.

When simulation correlates 从ly with test data, machine development can be accelerated with numerical optimization 提高操作效率,消除振动,改善机器动力学.

Linking M-CAD, E-CAD, and controls, system simulation 能否应对日益复杂的机器一代带来的挑战.

Are you weld designs in compliance with FKM directives?

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Enable Virtual Commissioning

A variety of tools, methods, semantics, 同时,结构工程师之间的必要信息交换也变得更加复杂, software engineers, and testing departments. 将开发学科与目的驱动仿真(系统开发解决方案)结合起来 Altair® Activate® 通过功能模拟接口(FMI)标准与虚拟调试环境连接. 将控制顺序与机器的实际行为相结合,允许虚拟调试,并减少在客户设施的时间投资.

Eliminate Vibrations and Improve Dynamics

Multi-body simulation, which considers the detailed behavior of machine elements, 创建虚拟原型,为数值优化提供基础, making targeted mass savings and vibration reduction possible. Through multi-body simulation, process accuracy can be achieved faster, improving the productivity of the machine and production line. 详细的多体仿真使寿命和疲劳评估成为可能 reduce maintenance intervals due to material fatigue.

Process Optimization with Machine Learning and AI

Machines can be programmed to become self-aware, learning to optimize itself, 允许机械制造商自动修正由于工件重量变化引起的路径误差, varying manufacturing tolerances, or mechanical aging of the system. Self-learning, automatic path error correction improves part and process quality, increases machine productivity, and reduces tool wear. Control parameter adjustment for speed, accuracy, and surface finish requirements can be automated using integrated electromechanical simulation. Combined with the control system in a holistic system simulation, it allows cause-effect analysis, reduces the adaptation time for control parameters, and creates the basis for machine learning.


Reduced machine noise increases the operator efficiency.

Reduce Machine Noise

有针对性的模拟可以揭示降低生产设施噪声水平的纠正措施. Structural optimization 能否用于确定具有成本效益的设计方案和精确的多体模拟,使声学优化. With targeted mass savings and mass damping, 制造商可以减少振动,并确定建设性的措施,以减少声音排放.

整个机器的轻量化设计使生产减少, processing, and maintenance costs.

Reduce Weight in Machine Components

Consistent lightweight design throughout the machine helps reduce production, processing, and maintenance costs while also cutting production and idle times. Additionally, 调试轻量级组件的好处在于,在到达客户的过程中,加载时间减少,在客户的站点设置时间更快. Lightweight design results from Altair® Inspire™ and Altair® OptiStruct® 考虑包括焊接结构在内的各种制造工艺, plastic injection molding, sheet metal forming, casting, milling, 3D printing, and more.

Featured Resources

用整体系统仿真提高数控铣床的速度和精度

该报告概述了铣床的数字双胞胎如何解决机电挑战的解决方案策略. To improve cycle times, accuracy, 针对振动问题,整体系统仿真是优化的基础. 具有灵活性的真实系统行为的高效建模, contacts, gaps, friction, nonlinearities in the drives (incl. saturation effects of motors), 电力电子与控制系统的结合是高效控制器设计和控制参数优化的基础. 结合三维有限元分析的多系统构件的动态相互作用 multi-body dynamics and control system helps avoiding Tracking-, drag-, positioning errors rebound, and accumulation effects.  

use cases

abb

To support the use of simulation tools in this endeavor, abb在西班牙获得了Altair产品设计区域团队的帮助, 感谢该公司在利用仿真工具解决机器人行业的工程挑战方面的经验. 该项目以提高双机器人Xbar (TRX)的疲劳性能为中心, abb的机器人部件转移系统之一,用于在制造站之间移动部件.

Customer Stories

高效开发和操作定制机器人的数字双胞胎设计过程

In a joint project MX3D, abb, 和365体育展示了一个3D打印机器人可以通过使用数字双胞胎过程改进,以实现更精确的定位.

White Papers

Optimizing SCARA Robot

模拟驱动设计导致了3D打印,气动驱动,轻型机器人.

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