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From Home Delmia Simulation Jobs (NOW HIRING)

Who We're Looking For As an Simulation Engineer - FEA, you will build hands-on experience applying ... Our hybrid model blends time together in our New York office with work-from-home days, giving you ...

Ability to work a flexible schedule, ranging from 40 to 55 hours per week, based on project needs ... home. Waltonen Engineering, Inc. is an equal opportunity employer and will consider qualified ...

Ability to work a flexible schedule, ranging from 40 to 55 hours per week, based on project needs ... home. Waltonen Engineering, Inc. is an equal opportunity employer and will consider qualified ...

... healthcare, the home, and beyond. We operate at the cutting edge of embodied AI, applying our ... Build from Scratch: Define the headcount roadmap, draft specialized s, and actively recruit top ...

... projects, simulation or space programs among others. We also participate in projects for ... In addition, you can work from home to improve your work-life balance. * We care about your well ...

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From Home Delmia Simulation information

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$39K

$123.4K

$190.5K

How much do from home delmia simulation jobs pay per year?

As of Jul 6, 2026, the average yearly pay for from home delmia simulation in the United States is $123,399.00, according to ZipRecruiter salary data. Most workers in this role earn between $92,000.00 and $146,500.00 per year, depending on experience, location, and employer.

What is the difference between From Home Delmia Simulation vs From Home Manufacturing Engineer?

AspectFrom Home Delmia SimulationFrom Home Manufacturing Engineer
Required CredentialsTypically requires CAD, PLM, or simulation software certificationsRequires engineering degree, manufacturing process knowledge, and possibly CAD certifications
Work EnvironmentPrimarily computer-based, remote work from homePrimarily office or plant-based, but can include remote tasks
Industry UsageUsed in manufacturing, automotive, aerospace for simulation tasksUsed across manufacturing sectors for process planning and optimization

From Home Delmia Simulation focuses on virtual modeling and simulation tasks, often requiring specialized software certifications, and is typically performed remotely. In contrast, From Home Manufacturing Engineer involves designing and improving manufacturing processes, often requiring hands-on experience and engineering degrees, with a mix of remote and on-site work. Both roles serve the manufacturing industry but differ in daily tasks and required credentials.

More about From Home Delmia Simulation jobs
What cities are hiring for From Home Delmia Simulation jobs? Cities with the most From Home Delmia Simulation job openings:
What are the most commonly searched types of Delmia Simulation jobs? The most popular types of Delmia Simulation jobs are:
What states have the most From Home Delmia Simulation jobs? States with the most job openings for From Home Delmia Simulation jobs include:
Infographic showing various From Home Delmia Simulation job openings in the United States as of June 2026, with employment types broken down into 66% Full Time, 21% Part Time, and 13% Contract. Highlights an 77% Physical, 1% Hybrid, and 22% Remote job distribution, with an average salary of $123,399 per year, or $59.3 per hour.
Mechanical Designer - Simulation

Mechanical Designer - Simulation

Gonzalez Group

Southfield, MI • On-site

Full-time

Posted 19 days ago


Job description

Mechanical Designer for Process Simulation - GM (BIW Tooling Fixture)

Required Skills:

  • Process Simulate Designer / Operator for GM Body Shop Tooling of Body-In-White Assembly
  • Approximately 4 to 5+ years of experience and some type of formal simulation program
  • Ability to travel (5-20%) for project needs, may be required for technical support
  • Proficient in Siemens Process Simulation Software as an Operator/Designer
  • Strong understanding of Mechanical Design tooling fixture of BIW systems. Knowledge of auto assembly strategies (i.e. part flow within an assembly plant / body shop).

Main areas of responsibilities:

  • Feasibility study and process engineering
  • Define the Robotics and Human operation in the 3D environment.
  • Equipment selection (robots, conveyors, tool, etc.) & placement of equipment.
  • Tool validation to check feasibility.
  • Develop 3D layout for the robotic simulation.
  • Develop reach studies and paths with customer required spec/attributes.
  • Preparing 3D models using CAD software
  • Develop kinematics of 3D models and weld guns
  • Weld/Joint distribution, gun selection, gun sectioning
  • Technology process path distribution (sealing, arc weld…)
  • Validation of processes in work cells / stations
  • Simulate robot moves to verify cycle time, reachability, and feasibility.
  • Ensure compliance with safety and ergonomic regulations.
  • Whole sim cell cycle time, verified with RSC and correct tooling / controls sequence.
  • Develop off-line complete robot programs with multiple robot brands (KUKA, ABB, Comau, Fanuc…).
  • Validate the cycle time of each station/line. Optimize robot programs and find solutions in case of cycle time issues.
  • Development of robot OLP’s to verify reachability of all process and service position.
  • Develop robot programs using teach pendant of the major robot brands.
  • Download a complete offline robot program in native robot language.
  • Configure Robot Controller Simulation (RCS) in the simulation software.
  • Validate the cycle time defined in the cycle diagrams.
  • Generate a precise evaluation of the cycle time through a detailed cycle simulation.
  • Optimize weld distribution to improve the cycle time.
  • Apply robot signal logic with SW

Skills:

  • Interacting with stakeholder (Customers, System Engineer, project team) to get project input details.
  • Development according to customer prescribed documentation and specification.
  • Support reviews with customer.
  • Development of technical documentation for the projects executed.
  • Run Swept Volumes for Robot per customer requirements.
  • Verify the feasibility of solutions and processes. Find and solve issues before the manufacturing phase.

Knowledge & Skills:

  • Feasibility study
  • Line layout planning
  • Basics of robot application
  • Safety standards customer, OSHA, NIOSH
  • Good understanding of IO, transfer of information between Robot and PLC
  • Mechanical understanding of industrial equipment and machinery
  • Demonstrated ability to solve engineering problems.
  • Good understanding of robot program flow and basic programming theories and languages
  • Experience in at least one of the major 3D Modeling tools (NX, Catia, Solidworks, others…) and the ability to quickly self-learn any of the remaining.
  • Experience in at least one of the major 3D Simulation tools (Process Simulate, Delmia, RobCAD, others…) and the ability to quickly self-learn any of the remaining. Proficient with at least one or more of major product/brand (ABB, KUKA, Comau, Fanuc, Motoman, Kawasaki, other…).
  • May be required to retrieve backups from production robots and extract relevant information or upload programs to simulation tools with minimal support. Required to develop OLP programs from simulations and ensure that they work in actual robots with minimal support.
  • Hands on experience processing for at least one or more of the automation technology processes (Spot Welding, Arc Welding, Sealer/Dispense, Riveting, Palletization, Robotic Material, Handling, Paint…)
  • Ability to create well-written, concise technical reports discussing project results as well as create professional documents/videos from simulations that illustrate concepts.
  • Knowledge of Microsoft Office tools (Word, Excel, PowerPoint…) or equivalent tools for word processing, calculation, presentation

Behavioral Competencies:

  • Leadership and site support experience
  • Identifies and analyses information to make decisions and solve problems.

Software Required:

  • Process Simulate (Siemens) NX & AutoCAD Microsoft (Excel)