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3D Machine Modeling Jobs in Rochester, NY (NOW HIRING)

Mechanical Engineer II

Victor, NY · On-site

$95K - $115K/yr

Design mechanisms, stations, machines using 3D modeling software (SolidWorks). * Works with vendors to obtain competitive quotes for major purchased components. * Create detailed fabrication drawings ...

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Sr Mechanical Engineer

Pittsford, NY · On-site

$99K - $131K/yr

You will design, develop, and create 3D models, detailed mechanical drawings, BOMs, electro ... Ability to operate machine tools to touch up prototype parts, adding details, threading, polishing ...

Mechanical Engineer II

Rochester, NY · On-site

$72K - $100K/yr

Use 3D parametric CAD software for modeling of components and systems. * Maintain Master BOMs for current and legacy machines. * Ensure unique customer specifications are incorporated into each ...

Tooling Design Engineer

Rochester, NY · On-site

$75K - $100K/yr

... gear manufacturing machines and related accessories, gear metrology equipment and automation ... Creating and modifying 3D models and the corresponding component and assembly drawings to meet ...

... metal, machining fabrication, and nontraditional manufacturing processes. This is not an ... Create and modify 3D models and detailed drawings in SolidWorks. * Program and support CMM ...

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CAD Designer

Ontario, NY · On-site

$26.25 - $36/hr

... guarding packages, machine bases, and conveyors. Other design projects include pneumatic ... 3D Modeling experience, SolidWorks preferred * Proficient with Microsoft Excel and Word

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CAD Designer

Ontario, NY · On-site

$26.25 - $36/hr

... guarding packages, machine bases, and conveyors. Other design projects include pneumatic ... 3D Modeling experience, SolidWorks preferred * Proficient with Microsoft Excel and Word

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3D Machine Modeling information

See Rochester, NY salary details

$31.1K

$127.1K

$190.9K

How much do 3d machine modeling jobs pay per year?

As of Jun 30, 2026, the average yearly pay for 3d machine modeling in Rochester, NY is $127,052.00, according to ZipRecruiter salary data. Most workers in this role earn between $100,100.00 and $152,900.00 per year, depending on experience, location, and employer.

How much do 3D models make?

3D machine modelers typically earn between $50,000 and $80,000 annually, depending on experience, location, and industry. Skilled professionals with proficiency in software like Blender, Maya, or 3ds Max and a strong portfolio can command higher salaries, especially in specialized fields such as gaming, film, or product design.

What is the difference between 3D Machine Modeling vs 3D CAD Designer?

Aspect3D Machine Modeling3D CAD Designer
CredentialsTechnical certifications in CAD and mechanical designCAD software certifications, engineering background
Work EnvironmentManufacturing, engineering firms, product developmentDesign studios, engineering departments, manufacturing
Industry UsageMechanical systems, machinery, industrial equipmentProduct design, architectural components, consumer products

3D Machine Modeling focuses on creating detailed models of machinery and mechanical systems, often for manufacturing or engineering purposes. 3D CAD Designers develop detailed designs for a variety of products and structures. While both roles require CAD skills and technical knowledge, 3D Machine Modeling emphasizes mechanical accuracy and functionality, whereas 3D CAD Design covers a broader range of design applications.

What jobs can 3D modeling get you?

3D machine modeling skills can lead to jobs such as 3D modeler, CAD designer, product designer, or visualization specialist in industries like manufacturing, gaming, film, and architecture. These roles often require proficiency with modeling software like AutoCAD, Blender, or SolidWorks and may involve collaboration with engineers or artists. Job opportunities can be found in design firms, manufacturing companies, entertainment studios, and architectural firms.

What are the key skills and qualifications needed to thrive as a 3D Machine Modeler, and why are they important?

To thrive as a 3D Machine Modeler, you need strong skills in 3D modeling, mechanical design principles, and a background in engineering or industrial design. Proficiency with CAD software such as SolidWorks, Autodesk Inventor, or Siemens NX, along with relevant certifications, is typically required. Attention to detail, creativity, and effective communication are crucial soft skills for translating concepts into precise models and collaborating with engineering teams. These skills and qualities ensure accurate, manufacturable designs that meet technical specifications and project goals.

What is 3D machine modeling?

3D machine modeling is the process of creating three-dimensional digital representations of machines or mechanical components using specialized computer software. These models help engineers and designers visualize, test, and refine machines before they are physically built. 3D machine modeling is widely used in industries such as manufacturing, automotive, aerospace, and robotics to improve design accuracy and efficiency. The process often involves using CAD (Computer-Aided Design) programs to create detailed, precise models that can be used for simulations, prototyping, and production.

Is 3D modeling a high paying job?

3D machine modeling can be a well-paying profession, especially for those with advanced skills in CAD software, 3D rendering, and experience in industries like manufacturing or gaming. Salaries vary based on experience, location, and specialization, with senior roles often offering higher compensation.

What are some common challenges faced by 3D Machine Modelers when collaborating with engineering teams?

3D Machine Modelers often work closely with engineers to ensure that models accurately reflect technical specifications and functional requirements. A common challenge is translating complex engineering data into visually precise and manufacturable 3D models while keeping up with frequent design changes. Effective communication is essential to resolve discrepancies and maintain alignment on project goals. Additionally, modelers must balance aesthetic considerations with mechanical feasibility, requiring both creative and technical problem-solving skills.

How much do 3D modellers get paid?

3D machine modelers typically earn between $50,000 and $80,000 annually, depending on experience, industry, and location. Skilled modelers proficient in software like Blender, Maya, or 3ds Max and with a strong portfolio tend to command higher salaries.
What job categories do people searching 3D Machine Modeling jobs in Rochester, NY look for? The top searched job categories for 3D Machine Modeling jobs in Rochester, NY are:
What cities near Rochester, NY are hiring for 3D Machine Modeling jobs? Cities near Rochester, NY with the most 3D Machine Modeling job openings:
Mechatronics Applications Engineer I

Mechatronics Applications Engineer I

Progressive Machine & Design

Victor, NY • On-site

$60K - $85K/yr

Full-time

Posted 28 days ago

Be an early applicant


Key responsibilities

  • Review customer specifications and requirements to develop cost-effective mechanical, controls, and automation solutions.

  • Prepare process flow diagrams, conceptual layouts, technical clarification questions, and detailed project cost estimates.

  • Create accurate 2D machine layouts and supporting 3D models as required.


Job description

Description:

The Mechatronics Applications Engineer I will develop foundational skills in mechanical and electrical system design, machine costing, proposal development, and custom automation solutions. Working under the guidance of the Applications Manager and senior engineering team members, this role supports the quotation, design, and project development process for custom machinery and automation systems.


Essential Duties and Responsibilities:


Quotation and Applications Engineering
  • Review customer specifications and requirements to develop cost-effective mechanical, controls, and automation solutions.
  • Support senior Applications Engineers throughout the complete project lifecycle, gaining exposure to all phases of project development.
  • Prepare process flow diagrams, conceptual layouts, and technical clarification questions.
  • Develop detailed estimates for engineering, software development, machine assembly, wiring, plumbing, debugging, installation, and acceptance testing activities.
  • Review vendor quotations and internal cost estimates for accuracy and completeness.
  • Maintain and update costing databases and cost libraries.
  • Track and compare estimated project costs before and after peer review.
  • Present proposed machine concepts and solutions to prospective customers when appropriate.
Documentation and Design Support
  • Review project documentation for compliance with customer specifications and company standards.
  • Create accurate 2D machine layouts and supporting 3D models as required.
  • Perform tolerance analyses for assigned projects.
  • Develop timing diagrams and sequence charts for motion-based assembly and testing operations.
  • Assist in documenting and improving departmental processes and best practices.
Build-to-Print (BTP) Project Support
  • Participate in estimating and review activities for Build-to-Print projects.
  • Collaborate with fabrication and manufacturing teams to validate estimates and project requirements.
  • Support estimating activities across all shop disciplines, including:
    • Mechanical assembly
    • Electrical wiring
    • Pneumatic and fluid plumbing
    • Machine debugging
    • Skid preparation
    • Equipment installation
Learning and Development
  • Attend concept reviews, design meetings, customer calls, and team meetings.
  • Participate in assembly floor walkthroughs to gain understanding of manufacturing and assembly processes.
  • Observe machine debugging and testing activities to learn system functionality and labor requirements.
  • Follow awarded projects through installation and commissioning whenever possible.
  • Maintain a lessons-learned log and review findings with the Applications Manager on a regular basis.
  • Study similar automation systems through available project documentation and videos.
  • Seek guidance and mentorship from senior engineering team members.
  • Stay informed on emerging automation technologies and industry trends.
Customer and Site Support
  • Travel to customer facilities as required to gather project-critical information and support project development activities.
  • Maintain compliance with all company and customer safety requirements and procedures.
Requirements:

Education and Experience:

  • Bachelor's degree in Mechatronics Engineering, Mechanical Engineering, Electrical Engineering, or a related field; equivalent experience may be considered.
  • Preferred GPA of 3.0 or higher.
  • One to four years of experience in automation equipment, machine design, manufacturing, or a related industry.
  • Working knowledge of Geometric Dimensioning and Tolerancing (GD&T).
Communication Skills
  • Excellent verbal and written communication skills.
  • Ability to read, analyze, and interpret technical documents and procedures.
  • Ability to prepare clear technical reports and documentation.
  • Comfortable presenting technical concepts and cost information to customers and internal stakeholders.
  • Strong listening, note-taking, and information-gathering skills.
Professional Characteristics
  • Strong attention to detail and organizational skills.
  • Ability to manage priorities and meet deadlines.
  • Self-motivated with a desire to learn and grow within the automation industry.
  • Team-oriented with a collaborative mindset.
  • Customer-focused and committed to developing effective solutions.
  • Receptive to coaching, mentorship, and constructive feedback.
  • Ability to visualize and develop complex mechanical and electrical concepts.
  • Willingness to travel as required.
Problem-Solving and Reasoning
  • Ability to solve practical engineering problems with limited information.
  • Capable of interpreting information presented in written, verbal, pictorial, and schedule formats.
  • Able to work independently while applying established procedures and engineering judgment to new situations.
Computer Skills
  • Proficiency with AutoCAD or equivalent 2D CAD software.
  • Proficiency with SolidWorks or equivalent 3D CAD software.
  • Advanced proficiency with Microsoft Office applications.