The connection between the virtual and real worlds
DELMIA’s applications drive manufacturing innovation by virtually defining, planning, creating, monitoring, and controlling all production processes allowing all stakeholders in manufacturing, no matter their level of expertise, to be part of a single community.
Portfolios
Program Prismatic Milling Machines with 2.5 Axis Technologies
With NC Prismatic Programmer, users can program a milling machine to produce 3D parts that require advanced 2.5-axis milling, axial, and probing operations.
Description
The 3D environment of NC Prismatic Programmer immerses NC Programmers in a realistic virtual workplace as they create, optimize, and validate milling programs. It provides easy access to up-to-date information for machining resources, NC programs, and part setup.
NC Prismatic Programmer provides a full set of features for workpiece setup, cutter tool assembly, and toolpath simulation that include material removal and NC code generation. NC programmers can capture and leverage enterprise intellectual property and collaborate with other stakeholders as they develop, validate, and optimize NC programs.
- Reduce NC programming time
- Maximize machine tool utilization
- Mitigate risk to production
With NC Prismatic & Turning Programmer, users can program milling and turning machines to produce 3D parts that require advanced 2.5-axis milling and turning operations.
Description
With NC Prismatic & Turning Programmer, the 3D environment immerses NC Programmers in a realistic virtual workplace as they create, optimize, and validate milling programs for 2.5x and turning processes.
NC Prismatic & Turning Programmer provides a full set of features for workpiece setup, cutter tool assembly, and toolpath simulation that include material removal and NC code generation. NC programmers can capture and leverage enterprise intellectual property and collaborate with other stakeholders as they develop, validate, and optimize NC programs.
- Accelerate NC programming
- Maximize machine tool utilization
- Single design-to-machining to understand engineering changes
NC Milling Machining Programmer lets users program milling machines to produce 3D parts that require advanced 2.5-axis and 3-axis milling, axial, and probing operations plus the ability to switch to 5-axis motion.
Description
Built on the 3DEXPERIENCE® platform, NC Milling Machining Programmer immerses NC Programmers in a lifelike virtual workplace where they create, optimize, and validate milling programs. Programmers easily access current information for machining resources, NC programs, and part setup.
NC Milling Machining Programmer provides a full set of features for workpiece setup, cutter tool assembly, and toolpath simulation that includes material removal and NC code generation. NC Programmers can capture and leverage enterprise intellectual property and collaborate with other stakeholders.
- A single design-to-machining solution to better understand engineering changes
- Reduce NC programming time
- Mitigate risk to production
Create, optimize and validate advanced multi-axis milling programs
Description
NC Multi-Axis Milling Programmer lets NC programmers create, optimize, and validate multi-axis milling programs. They can program machines to perform advanced prismatic milling using 2.5 axis operations and they have the ability to switch to 5-axis motion. Powerful operations let NC programmers control the machining of complex, highly specific areas.
- A setup wizard and an immersive, context-based user interface
- Manage and program machining resources
- Best-in-class machining strategies for efficient programming or milling machines
NC Multi-Axis Milling Programmer lets NC programmers create, optimize, and validate multi-axis milling programs.
Description
NC Multi-axis Milling Programmer lets NC programmers create, optimize, and validate multi-axis milling programs. They can program machines to perform advanced prismatic milling using 2.5 axis operations and they have the ability to switch to 5-axis motion. Powerful operations let NC programmers control the machining of complex, highly specific areas.
- Manage and program machining resources
- A set-up wizard and an immersive, context-based user interface
- Manage and program machining resources
Validation of NC Machine Tools
NC Machine Code Validation Specialist lets NC Programmers perform virtual NC program validation.
Description
With NC Machine Code Validaiton Specialist, NC Programmers perform virtual NC program validation. They can control and simulate machine tool motions, along with material removal, using either the NC tool path or post-processed NC code.
NC Machine Code Validation Specialist helps NC Programmers deliver optimized, high-quality NC programs by finding potentially damaging collisions, excessive non-value-added machine motion, out-of-travel machine motion, or wrong material removal.
- Safer, less-costly offline validation
- better understanding of the physical machine cell during validation
- Time and cost savings through virtual NC code validation
3D Design for Manufacturing Engineer enables users to create virtual mechanical devices—anything from clamps to complex robots to lift-assist equipment—in an intuitive environment equipped with world-class tools.
3D Design for Manufacturing Engineer allows users to develop and manage the complete machine and equipment product definition, collaborating seamlessly in real time with planners, programmers and simulation engineers on the 3DEXPERIENCE® platform. It provides a full suite of powerful tools for designing and validating components to support production engineering at all levels of the enterprise.
The solution includes 2D layout for 3D design. Designers can use 3D sectioning and interference checking to create complete machines and equipment.
- Create any 3D part or assembly
- Design and manage product structure
- Automatically generate 3D drawings with 3D definition
Drill & Fill Engineer gives NC machine programmers a 3D environment that lets them create, simulate, validate and optimize production programs for complex drilling and riveting machines driven by NC Controller operations in the 3DEXPERIENCE platform. Engineers can work with fasteners definitions issued from associated design and planning data and create and view each operation step by step in the correct manufacturing context.
- Openness for adding customer manufacturing information to fasteners
- Powerful simulation capabilities for early validation
- Fastener definition from geometry definition
Create Multi-Axis Milling Machine Program in 3DEXPERIENCE® Platform
Multi-Axis Milling Machining lets NC programmers create, optimize, and validate multi-axis milling programs. They can program machines to perform advanced prismatic milling using 2.5 and 3.0-axis operations, and they have the ability to switch to 5-axis motion. Powerful operations let NC programmers control the machining of complex, highly specific areas.
Multi-Axis Milling Machining provides a complete range of multi-axis milling strategies, speeding and simplifying the programming of complex multi-cavity parts with high levels of automation. It includes a full set of features for workpiece setup, cutter tool assembly, and toolpath simulation that include material removal and NC code generation.
Multi-Axis Milling Machining is available on premise.
Key Features: and Benefits:
- Groundbreaking user experience
- Maximize machine tool utilization
- Mitigate risk to production
- Accelerate NC programming
- A single design-to-machining solution to understand engineering changes
Program Milling Machines with 3.0, 5.0, and 2.5 Axis Technologies
Milling Machinist lets users program milling machines to produce 3D parts that require advanced 2.5-axis and 3-axis milling, axial, and probing operations plus the ability to switch to 5-axis motion.
Description
Milling Machinist lets users program milling machines to produce 3D parts that require advanced 2.5-axis and 3-axis milling, axial, and probing operations plus the ability to switch to 5-axis motion. Built on the 3DEXPERIENCE® platform, Milling Machinist immerses NC Programmers in a lifelike virtual workplace where they create, optimize, and validate milling programs. Programmers easily access current information for machining resources, NC programs, and part setup.
- Manage and program machining resources
- Automatic association of prismatic machining features with part design
- High-end strategies from roughing to finishing
Create Multi-Axis Milling and Turning Machine Programs in 3DEXPERIENCE®
Multi-Axis Milling and Turning Machining lets NC programmers create, optimize, and validate multi-axis milling and turning programs. They can program machines to perform advanced milling using 2.5, 3-axis or 5 axis operations, combined with turning operations. They can program complex multi-tasking mill-turn machines with synchronization and part transfer capabilities.
Multi-Axis Milling and Turning Machining provides a complete range of multi-axis milling strategies, speeding and simplifying the programming of complex multi-cavity parts with high levels of automation. It includes a full set of features for workpiece setup, cutter tool assembly, and toolpath simulation that include material removal and NC code generation.
Multi-Axis Milling and Turning Machining makes it easy to access current information about machining resources, programs, and machine tool setup. NC programmers can capture and leverage enterprise intellectual property and collaborate with other stakeholders as they develop NC toolpath programs.
Multi-Axis Milling and Turning Machining is available on premise and on cloud.
Key Features: and Benefits:
- Groundbreaking user experience
- Maximize machine tool utilization
- Mitigate risk to production
- Accelerate NC programming
- A single design-to-machining solution to understand engineering changes
Ergonomics
Ergonomics users can assess equipment design with intent to maximize productivity by reducing operator fatigue and discomfort, while ensuring compliance and verifying assembly across multiple platforms. Using lifelike manikins, ergonomic specialist are empowered with the capability of evaluating ergonomics and human factors at all levels of virtual design, manufacturing, and maintainability. Ergonomics specialists help to harness collective intelligence from product development stakeholders to verify and evaluate how a worker interacts with workplace design and products.
Some special product and workplace designs call for virtual manikins with greater precision than standard anthropometric body dimensions. Ergonomist enables more precise manipulation of dimensions.
Ergonomists can create a wide range of boundary manikins, targeted populations, and specific individuals, to be used (with other Ergonomics Processes) for specific evaluations.
Ergonomist makes it simple to create these lifelike manikins for use in the 3DEXPERIENCE® platform. Ergonomists can also tune the range of motions of these manikins, and prepare the posture analysis through postural scores.
- A larger range of population percentiles
- Automatically defined variable lengths
- Custom manikin anthropometry
Ergonomics Specialist is the core product for creating lifelike manikins with standard anthropometry (human body dimensions).
Description
With Ergonomics Specialist, planners can place them in a 3D model to evaluate human interactions and accommodation with a product or workplace. Ergonomics Specialist delivers a wide range of manipulation and analysis tools to make ergonomics assessment accessible to 3DEXPERIENCE® users.
Planners can analyze and predict human safety and performance directly using 3D. They can examine, score, and iterate whole-body and segment postures for ergonomic analysis of defined work in the context of a product or workplace design.
Work Safety Engineer lets planners create virtual lifelike manikins with standard anthropometry (human body dimensions).
Work Safety Engineer lets planners create virtual worker with standard anthropometry (human body dimensions). They can place them into a 3D model and evaluate human interaction with a workplace. Work Safety Engineer makes it simple to define common tasks using predefined actions such as picking up and placing objects, walking, operating a device, or using a tool in a manufacturing environment.
It delivers a wide range of manipulation and analysis tools to make ergonomics assessment accessible to all 3DEXPERIENCE® stakeholders.
- Save costs by early integration of human factors in workplace design
- Reduce risk of injury
- capture and reuse ergonomics enterprise standards
Use Virtual Manikins to Analyze Ergonomics, Safety and Performance
Car Design Ergonomist lets designers identify driver and passenger ergonomics issues early in the design process to avoid costly, time-consuming changes later on.
Description
With Car Design Ergonomist, designers can predict safety and performance, scoring whole-body and segment postures in the context of a car design. This analysis can be extended to multiple populations by modifying the anthropometric definition of the passengers and drivers.
Using 3D manikins, designers can simulate the way humans interact with seats, spaces and controls in a vehicle under design. Car Design Ergonomist makes it possible to predict posture and access to key vehicle functions for specific populations selected from a database.
Verify Human Accommodation for Manufacturing and Design Using Lifelike Manikins
DELMIA Ergonomics Evaluation (EGE) is the core product for creating Version 6 Lifelike Manikins with standard anthropometry (human body dimensions). Users can place them into the Version 6 3D model and evaluate human interaction with a product or workplace. EGE delivers a wide range of manipulation and analysis tools to make ergonomics assessment accessible to all Version 6 users.
Planners can analyze and predict human safety and performance directly using 3D. They can examine, score, and iterate whole-body and segment postures for ergonomic analysis of defined work in the context of a product or workplace design. They can also be more precise with the anthropometric definition of their manikins, reusing a wide range of available populations.
Ergonomics Evaluation is available on premise.
Key Features: and Benefits:
- Groundbreaking user experience
- Rapidly evaluate workplace and product designs with integration of human factors and ergonomics requirements
- Detect potential for work-related injuries in the design process
- Capture and re-use ergonomic enterprise standards
Manufacturing Engineer gives process planners an easy-to-use tool with one single application for creating and managing process planning data for a project or a program.
Guided by an intuitive user interface, Manufacturing Engineer users can define the PPR structures with product, process and resource items, and make connections between them. The 3D display helps the user to understand and correctly define process planning data.
- An easy-to-use environment for process planner
- A fast path to user proficiency
- PPR structure authoring
3D Design for Manufacturing Engineer enables users to create virtual mechanical devices—anything from clamps to complex robots to lift-assist equipment—in an intuitive environment equipped with world-class tools.
3D Design for Manufacturing Engineer allows users to develop and manage the complete machine and equipment product definition, collaborating seamlessly in real time with planners, programmers and simulation engineers on the 3DEXPERIENCE® platform. It provides a full suite of powerful tools for designing and validating components to support production engineering at all levels of the enterprise.
The solution includes 2D layout for 3D design. Designers can use 3D sectioning and interference checking to create complete machines and equipment.
- Create any 3D part or assembly
- Design and manage product structure
- Automatically generate 3D drawings with 3D definition
Shop Floor Equipment Engineer lets Industrial Engineers create virtual mechanical devices in 3D for downstream planning and simulation.
Shop Floor Equipment Engineer helps resource designers leverage the application to create, optimize and validate all the mechanical devices used in a manufacturing setting, from simple clamps to NC machine tools and complex robots. NC programmers can easily model the most complex milling, turning and mill-turn machines.
They can define axis-motion parameters, including travel limits, acceleration, and speeds. Once a device model is validated, it can be saved to a resource catalog. Planners, programmers, and simulation engineers can use it to define, optimize, and validate manufacturing plans.
- Create and validate kinematic models of manufacturing devices
- Define home positions and joint travel limits
- Customize controller attributes through profiles
Process Planner provides all essential capabilities to define, optimize and validate manufacturing process plans of any product.
With Process Planner users can describe the necessary sub-assemblies and transformation steps and detail all corresponding routings and manufacturing operations. These routings and manufacturing operations can be balanced across the product line by optimizing the workload and resource utilization. All along the definition phase the user can immediately check and validate these manufacturing process plans by stepping through the complete fabrication sequence and directly visualizing the corresponding product buildup in 3D including related tooling and resources. These plans can then be leveraged by downstream stakeholders, minimizing rework as they enrich the plan from concept to execution.
- Author and manage manufacturing process plans
- Balance operations in the manufacturing system
- Virtual build for assembly sequence validation
Process Planner provides all essential capabilities to define, optimize and validate manufacturing process plans of any product.
With Process Planner users can describe the necessary sub-assemblies and transformation steps and detail all corresponding routings and manufacturing operations. These routings and manufacturing operations can be balanced across the product line by optimizing the workload and resource utilization. All along the definition phase the user can immediately check and validate these manufacturing process plans by stepping through the complete fabrication sequence and directly visualizing the corresponding product buildup in 3D including related tooling and resources. These plans can then be leveraged by downstream stakeholders, minimizing rework as they enrich the plan from concept to execution.
- Author and manage manufacturing process plans
- Balance operations in the manufacturing system
- Virtual build for assembly sequence validation
Work Instruction Designer has powerful, easy-to-use features to detail and document any process from simple assembly prototyping to complex manufacturing or maintenance processes.
With Work Instruction Designer textual instructions and 3D annotations can easily be created to describe a job and how to do it. Text can be complemented by other electronic documents and images. Best practices for process execution instructions can be captured and stored in a catalog for use by other authors. This allows enterprises to create and implement standards for the way products are manufactured and assembled. Work Instruction Designer supports delivery of work instructions to the shop floor through a manufacturing execution system (MES), HTML, or printed material.
Work Instruction Designer is used in conjunction with DELMIA Manufacturing Planning Applications, which alerts the author to changes in the process plan. Authors can check the impact these changes may have on their work instructions and make any necessary updates.
- Better work instruction quality
- Capture images of the 3D virtual environment
- Quick understanding of work instructions status
Process Flow Analyst lets users perform dynamic evaluation and improvement of manufacturing systems and material flow.
Process Flow Analyst models and simulates the system over multiple cycles to help make decisions under uncertain conditions. Using the established process plan, users can define the manufacturing system, which consists of areas for processing, storing, and transferring parts.
The flow of parts can be defined from area to area. Once the system is defined, users can simulate it to evaluate its capacity, its utilization, and other performance metrics. They can then evaluate alternative scenarios for product routing and system design.
- Leveraged manufacturing planning data
- Early validation of manufacturing process plans and systems
- Easy adoption by the user community
Plant Layout Designer provides tools that accelerate and refine the factory layout process.
Plant Layout Designer includes a catalog of parametric resources such as conveyors, shelving, tables, and containers that can leverage existing 2D factory drawings and be snapped to the 2D drawings to quickly realize the 3D layout. Advanced positioning makes it very easy to move, snap, and align these resources.
Plant Layout Designer gives planners a realistic environment for defining and validating shop floor layouts, delivering them to the shop floor for construction, and sharing them with other stakeholders for enriching and validating process plans.
- Import and export 2D drawings
- Choose ready-to-use parametric resources form a catalog
- Position and manipulate resource positions in 3D
Industrial Engineer lets engineers design factory layouts and define and validate the behavior of a station, a line or a complete plant in the 3DEXPERIENCE® platform.
Industrial Engineer lets engineers see their systems in 3D as they design them. They can assess and fine-tune the performance of production systems, conducting feasibility and performance studies. They see their systems in 3D as they design them. They can assess and fine-tune the performance of production systems, conducting feasibility and performance studies. They can identify bottlenecks early in the planning process and maximize production rates with alternate routings. They can optimize resource positioning thanks to precise 3D simulation.
- Speedy process evaluation
- Modeling and simulation at multiple levels of detail
- Easy adoption by the user community
Heavy Industry Process Planner is an end-to-end collaborative solution for ship and yard system planning that automatically creates and verifies manufacturing systems and operations.
With Heavy Industry Process Planner, planners assign processes, parts, and operations for pre-production and production, and maximize resource utilization with line balancing. Plans can be leveraged seamlessly by downstream stakeholders to take the plan to execution. Heavy Industry Process Planner helps you to work more efficiently with powerful automated features.
- Automatic generation of cross-discipline system plans for manufactured items
- Operations graph functions with Live System Editor
- Simplified line balancing and operations assignment
Heavy Industry Assembly Planner provides Process Planners with a dedicated environment for part-planning and defining large manufacturing assemblies.
Description
Heavy Industry Assembly Planner provides Process Planners with a dedicated environment for part-planning and defining large manufacturing assemblies. Planners can simultaneously navigate the complex manufacturing processes of large projects in 3D with a dedicated immersive view and parts list of their current work.
- Reduce errors and rework with cross-discipline collaboration
- Complete customization for authoring, navigation and input
- Easily manage large assembly planning processes
Heavy Industry Structure Manufacturer is a complete design-to-manufacturing application with a process editor that automates work preparation of structure design data.
Heavy Industry Structure Manufacturer gives production engineers a 3D environment for performing detail structure planning with collaboration and concurrent engineering.Heavy Industry Structure Manufacturer enables users to work more efficiently with powerful automated features.
- Generation of weld and subsequent manufacturing features
- Automatic generation of workshop documents
- Generate detailed weld-planning data
Fastener Process Planner provides seamless access to the product design with related fasteners in order to define, optimize and validate the process plan by considering these fasteners.
Fastener Process Planner has an intuitive interface with smart and dedicated functionality that facilitates fastener planning.From the resource point of view, the Fastener Process Planner is able to check the accessibility of any welding tool for each planned fastener and automatically get the best result. He can also optimize resource utilization by balancing the fastening operations across stations, robots or workers.
- Shorter-time-to-market
- Capture and leverage best practices
- Optimize resource utilization with line balancing and tool analysis
Manufacturability Analyst gives product designers a simple-to-use simulation interface that lets non-expert simulation users conduct assembly feasibility analysis.
Description
With Manufacturing Analyst, designers can experience the manufacturing assembly structure to create, simulate, and re-order assembly trajectories during their analysis on the intuitive 3DEXPERIENCE® platform.
The collaborative 3D environment lets design engineers evaluate and update designs with multiple stakeholders at any time in the product, process, and resource planning stages. Manufacturing Analyst enables users to define and share issue in the early stages.
- Automatic extraction direction for disassembly creation
- Operation sequence viewer and editor for simple viewing of the assembly specification
- Navigate and reorganize the 3D manufacturing assembly structure
Robotics
Robotics enables robot programmers to simulate and validate robot tasks. Programmers are able to perform reachability studies, interlock analysis and offline robot teaching to deliver optimized robotics programs to the shop floor. Robot Programmers can also create, simulate, and validate robots in the context of all manufacturing environments.
Collaborative Manufacturing
Users can take advantage of an improved simplified and more efficient user experience for all manufacturing and production roles. With Collaborative Manufacturing, users can create and annotate 3D simulations of production issues and share them with other stakeholders. This streamlined collaboration accelerates review and shortens the product cycle.