Thursday 31 January 2019

CATIA WITH ENOVIA

CATIA WITH ENOVIA


In conjunction with ENOVIA for lifecycle management and decision support, SIMULIA for product performance simulation, 3DVIA for dynamic and interactive product documentation, and DELMIA for manufacturing engineering, CATIA is a key component of collaborative PLM.
ToolingEngineeringModelingKinematicsSafetyArchitecture
CATIA provides a wide range of applications for tooling design, for both generic tooling and mold & die. A rich catalog of industry-standard components is provided to automate tooling definition. Specific tools are also provided to address the needs of mold tool injection designers.
CATIA’s Systems Engineering solution allows you to use many different models to simulate the behavior of complex systems and products. These models rarely interoperate with one another and don’t exist in an ‘aggregated’ environment that allows a ‘whole-system multi-physics simulation’ of the complete product. The Dassault Systèmes solution set provides a fully integrated systems modeling environment that leverages behavioral simulation for systems as well as for mechanical product assemblies

Our solution enables systems engineers to execute and analyze systems or sub-systems models, while mixing dynamic and state logic behaviors, by using the open-source Modelica language. Modelica makes it possible for users to generate deterministic behavior and reuse modular components. The Modelica Standard Library 3.0, which contains mechanic, thermal, electrical including electrical, fluidic, and control components, greatly improves collaboration between engineers of various disciplines.

Because every small aspect of the detailed design needs to be given careful consideration, CATIA makes it possible for designers to define, simulate, and analyze mechanisms easily. Mechanisms are defined directly from the product assembly in a fully-automated process. Designs are validated through functional checks, interactively, or by running a kinematics simulation. CATIA ensures working concurrently on digital products of all sizes, and post-processing tools make the simulation more powerful via clash analysis or the swept generation of moving parts.

This targets the improvement of safety activities and their early integration during the design phase of products and systems. To manage all aspects of safety assessment, and to comply with certification authorities and enterprise standards, both the functional (design aspect) and dysfunctional (safety aspect) modes of the behavior of the system are described in a common systems reference model.

CATIA Systems Architecture solution ensures traceability from initial requirements definition through to final product delivery and support. It enables systems architects, product engineers, designers, and technical experts to define the architecture and interdependencies of complex products and systems. This accelerates the systems engineering process from initial specification definition through to development, validation, and right- to-market product delivery.

Integrated lifecycle management capabilities fully support the creation, revising, and versioning of the underlying systems architecture entities and artifacts, while knowledge definition and capture enables the automation and optimization of the processes. The V6 real-time collaborative development environment further brings agility to a wide range of operations such as part design, part positioning, and automated mechanisms creation for the fast and accurate creation of complex products.

Systems ArchitectureMachining CAMMachining Simulation
Systems architects need to provide the structural definition of the system, including functional or structural relationships between its sub-systems, according to customer needs and technical requirements. The DS Systems Engineering solution enables them to define both the technical and business aspects of the systems engineering processes, shortening the time required from initial specification definition through to development and right- to-market delivery. In addition to the full traceability, early and comprehensive validation capabilities enable systems engineers to produce innovative designs more quickly, with a reduced need for costly rework that is often identified late in the development cycle.

With the completeness of the CATIA product portfolio and the easy-to-use knowledge-based architecture, CATIA machining solutions exceed the capabilities of all existing machining applications. High efficiency in part programming – Thanks to tight integration between tool path definition and computation, tool path verification, and output creation the user can boost production quality by machining the right part, the first time. Machining operations, supporting multiple passes and levels, and automated rework in roughing and finishing ensure a high level of productivity. Effective change management – This solution set possesses a high level of associativity between product engineering and manufacturing processes and resources (PPR). Companies can, therefore, manage concurrent engineering and manufacturing flows better and reduce the design-to-manufacturing cycle time and then saving costs. High level of automation and standardization – By integrating the pervasive knowledge ware capabilities of CATIA, machining products allow the capture of skills and reuse of proven manufacturing knowledge and avoids repetition. This also facilitates innovation through shortened test cycles.

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Dassault Systèmes’ solutions enable the complete, real-time, spatial simulation of machining paths generated by the post-processor, including the machine’s complete kinematics. Fully integrated with the PLM architecture, this seamless end-to-end solution enables NC programmers to easily switch between tool path definition and tool path validation without losing time due to data transfer or preparation. This eliminates interface issues and drastically increases cost-effectiveness. The simulation of tool paths or the ISO code has become a major factor in controlling the machining process before production starts. 
It helps reduce machine set-up and idle times while ensuring the implementation of chosen machining strategies. Optimized tool paths and reduced machining time – CATIA machining products offer a wide set of flexible high-speed machining operations. This decreases the time needed to execute shop floor operations, such as concentric roughing, Z-level milling, spiral milling, and 5-axis flank contouring. Easy to learn and easy-to-use solutions – As a result of an intuitive user interface, users are trained faster and then use the full breadth of CATIA. Reduced administration costs and skills efforts – CATIA machining solutions can be used as a single system to cover a wide set of integrated applications, such as lathe to 5-axis milling. 
This allows companies to institute strong, manageable, and long-term partnerships with their CATIA CAM supplier.



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