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Engineering Rotational Jobs in Michigan (NOW HIRING)

... rotating equipment industry - Demonstrated ability to apply technology to creatively solve problems and meet business and stakeholder needs - Demonstrated ability to develop and manage strong team ...

... rotating equipment industry - Demonstrated ability to apply technology to creatively solve problems and meet business and stakeholder needs - Demonstrated ability to develop and manage strong team ...

As a Warranty Engineering Co-Op within the Mechatronics Engineering Co-Op rotation, you will assist with managing and tracking warranty information on all products/customs. Responsibilities Also ...

As a Warranty Engineering Co-Op within the Mechatronics Engineering Co-Op rotation, you will assist with managing and tracking warranty information on all products/customs. Responsibilities Also ...

Engineering Intern

Auburn Hills, MI · On-site

$15.75 - $20.50/hr

This is a unique opportunity as the Engineering Intern will participate in rotational development up to point of graduation, having each 6-month term with a different area of Faurecia R&D. The ...

Engineering Intern

Auburn Hills, MI · On-site

$15.75 - $20.50/hr

This is a unique opportunity as the Engineering Intern will participate in rotational development up to point of graduation, having each 6-month term with a different area of Faurecia R&D. The ...

Plant Engineering Manager

Quincy, MI · On-site

$82K - $120K/yr

You will manage the plant capital plan in partnership with Corporate Engineering, lead the Early ... Willingness to rotate shifts and work weekends and holidays as business needs require. * Strong ...

Plant Engineering Manager

Quincy, MI · On-site

$82K - $120K/yr

You will manage the plant capital plan in partnership with Corporate Engineering, lead the Early ... Willingness to rotate shifts and work weekends and holidays as business needs require. * Strong ...

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Engineering Rotational information

See Michigan salary details

$34K

$88.7K

$119.8K

How much do engineering rotational jobs pay per year?

As of Jul 13, 2026, the average yearly pay for engineering rotational in Michigan is $88,687.00, according to ZipRecruiter salary data. Most workers in this role earn between $73,200.00 and $101,500.00 per year, depending on experience, location, and employer.

What are the key skills and qualifications needed to thrive as an Engineering Rotational Program participant, and why are they important?

To excel in an Engineering Rotational Program, candidates typically need a bachelor's degree in engineering and a strong grasp of fundamental engineering principles across multiple disciplines. Familiarity with CAD software, project management tools, and industry-specific systems, as well as any relevant internships or certifications, is highly beneficial. Adaptability, strong problem-solving skills, and effective communication distinguish top performers as they navigate diverse teams and projects. These skills are crucial for quickly learning new roles, contributing to various projects, and building a well-rounded engineering foundation.

What is the difference between Engineering Rotational vs Mechanical Engineer?

AspectEngineering RotationalMechanical Engineer
CredentialsBachelor's in Engineering, often with internship experienceBachelor's or Master's in Mechanical Engineering, professional licensure optional
Work EnvironmentVaries across departments, includes training programsDesign, analysis, manufacturing in office or lab settings
Employer & Industry UsageCommon in large corporations with rotational programsWidespread across manufacturing, automotive, aerospace

Engineering Rotational programs provide diverse experience across departments, ideal for developing broad skills. Mechanical Engineers focus on design and analysis within specific areas. Both roles require strong engineering credentials, but Engineering Rotational offers varied exposure, while Mechanical Engineering emphasizes specialized technical expertise.

What is an Engineering Rotational program?

An Engineering Rotational program is a structured, entry-level initiative offered by many companies to new engineering graduates. Participants rotate through different departments or roles within the organization over a set period, such as design, manufacturing, or quality assurance. This allows them to gain broad experience, develop diverse skills, and better understand the company's operations. At the end of the program, participants usually transition into a permanent role that best fits their skills and interests.

What types of projects and teams can I expect to work with during an Engineering Rotational program?

In an Engineering Rotational program, you will typically rotate through several departments such as design, manufacturing, quality assurance, and product development. This means you’ll work on a variety of projects, ranging from hands-on prototyping to process optimization and cross-functional collaboration with teams like R&D, supply chain, and operations. These rotations provide exposure to different engineering disciplines and company functions, helping you build a broad skill set and develop a strong professional network. The diverse experience gained through these projects is designed to accelerate your career growth and help you identify the area where your interests and strengths best align.
Infographic showing various Engineering Rotational job openings in Michigan as of July 2026, with employment types broken down into 91% Full Time, 6% Part Time, and 3% Contract. Highlights an 87% Physical, 3% Hybrid, and 10% Remote job distribution, with an average salary of $88,687 per year, or $42.6 per hour.
Design Release Engineer - Non-Rotating Components

Design Release Engineer - Non-Rotating Components

Kratos Defense

Auburn Hills, MI

$38 - $43.50/hr

Full-time

Re-posted 14 days ago


Kratos Defense & Security Solutions rating

7.4

Company rating: 7.4 out of 10

Based on 7 frontline employees who took The Breakroom Quiz


Job description

Kratos Defense & Security Solutions, Inc., is a leading defense technology company focused on uncrewed systems, satellite communications, cyber security/warfare, microwave electronics, missile defense, training, and combat systems. Our customers include the U.S. federal government, foreign governments, commercial enterprises, and state and local government agencies. At Kratos, we prioritize affordability as a cornerstone of our technology. We leverage proven, cutting-edge methodologies and technology to minimize costs, streamline schedules, and mitigate risks, ensuring timely delivery of cost-effective solutions to market.

GENERAL JOB SUMMARY:

The Non-Rotating Components Design Release Engineer is responsible for ensuring the successful design, development, validation, and release of structural engine components that support propulsion system architecture but do not rotate. This includes engine structures, housings, mounts, frames, brackets, and load-bearing assemblies that interface with rotating machinery, fuel systems, controls, and airframe structures.

This role owns non-rotating component designs from concept through production release, ensuring designs meet structural, thermal, durability, and manufacturability requirements. The engineer ensures that non-rotating hardware is configuration-controlled, technically mature, and ready for manufacturing, assembly, testing, and customer delivery.

The position works closely with Design Engineering, Product Engineering, Systems Engineering, Performance Engineering, Manufacturing Engineering, Test Engineering, and Quality to ensure structural components support engine performance, system integration, and production reliability.

ESSENTIAL JOB FUNCTIONS

Component Design & Development

  • Own the design and development of non-rotating structural propulsion components, including:
    • Engine casings and housings
    • Structural frames and support structures
    • Engine mounts and airframe interfaces
    • Exhaust structures and ducting
    • Fuel system structures and brackets
    • External engine structures and covers
  • Support Design Engineering in the development of 3D CAD models and detailed engineering drawings
  • Define component best practices based on customer flow down requirements and internal methodologies as they relate to geometry, tolerances, and interface requirements
  • Apply continuous improvement methods to refine component design (design best practices based on learnings) and processes
  • Ensure designs meet structural load, thermal, vibration, and durability requirements

Design Release & Configuration Control

  • Ensure engineering drawings, models, and specifications are released in accordance with configuration management standards
  • Maintain design documentation including:
    • Engineering drawings
    • Bills of material (BOM)
    • Design calculations
    • Interface documentation
    • Technical Specification
  • Own Engineering Change Requests (ECR) and Engineering Change Notices (ECN)
  • Ensure designs are configuration-controlled within PLM/PDM systems
  • Manage and present component status & schedule during internal reviews relative Process of Engineering milestones (Change Control Boards, Issues Resolution Board, Gate Reviews)

Structural Analysis & Validation

  • Perform/Coordinate structural analysis for non-rotating components including:
    • Static structural analysis
    • Thermal stress considerations
    • Vibration and load path analysis
    • Mount and structural interface loads and fatigue life
  • Work with CAE/FEA engineers to validate structural integrity and durability

Design for Manufacturing & Assembly

  • Partner with Manufacturing Engineering to ensure structural components are manufacturable and producible
  • Support design reviews related to fabrication, machining, welding, and assembly
  • Ensure tolerances, joints, and interfaces support efficient assembly and serviceability
  • Support production readiness reviews and first article inspections
  • Support on-site supplier audits

System Integration & Interface Management

  • Ensure structural components properly support system interfaces including:
    • Rotating assemblies
    • Fuel systems
    • Engine controls
    • Electrical harnessing
    • Exhaust and thermal systems
    • Airframe mounting interfaces
  • Coordinate closely with Systems Engineering and Integration Engineering to maintain interface compatibility

Test & Validation Support

  • Support development, structural, and system-level testing activities
  • Evaluate test data to validate structural component performance
  • Support troubleshooting and failure analysis of hardware
  • Provide engineering support during development and production testing

Root Cause Analysis & Continuous Improvement

  • Participate in post-test design reviews and own the execution of root cause investigations related to component performance or failures
  • Support corrective actions and design improvements
  • Capture lessons learned to improve component design robustness and manufacturability

Cross-Functional Engineering Collaboration

  • Collaborate with:
    • Design Engineering
    • Product Engineering
    • Systems Engineering
    • Performance Engineering
    • Manufacturing Engineering
    • Test Engineering
    • Quality Engineering
  • Support design reviews, interface reviews, and risk assessments
  • Communicate design intent and technical requirements to cross-functional teams

SUPERVISORY RESPONSIBILITY

  • No direct supervisory responsibility
  • May provide technical guidance to junior engineers or technicians

KNOWLEDGE, SKILLS & ABILITIES

Required

  • Strong understanding of structural mechanical design
  • Knowledge of load paths, stress analysis, structural durability and thermal effects
  • Ability to interpret and create engineering drawings with GD&T
  • Proficiency with CAD software (SolidWorks preferred)
  • Strong analytical and problem-solving skills
  • Ability to collaborate across multidisciplinary engineering teams
  • Ability to manage confidential and export-controlled information (ITAR)

Preferred

  • Experience designing aerospace engine structures or propulsion hardware
  • Familiarity with structural FEA tools
  • Experience with welded or fabricated structural assemblies
  • Experience in AS9100-regulated environments

EDUCATION AND EXPERIENCE

Required

  • Bachelor's degree in Mechanical Engineering, Aerospace Engineering, or related discipline
  • 3-8 years of experience in mechanical design or structural engineering

Preferred

  • Experience with propulsion systems or aerospace structures
  • Experience supporting development and production programs

WORK ENVIRONMENT / PHYSICAL REQUIREMENTS

  • Office, laboratory, and manufacturing environments
  • Interaction with production hardware and test equipment
  • Ability to work in manufacturing areas and test facilities
  • May be required to lift materials or components up to 50 lbs

TRAVEL REQUIREMENTS

  • 0-15% as required to support supplier visits, testing, or program activities

THE ABOVE STATEMENTS ARE INTENDED TO DESCRIBE THE GENERAL NATURE AND LEVEL OF WORK BEING PERFORMED BY INDIVIDUALS ASSIGNED TO THIS CLASSIFICATION. THEY ARE NOT INTENDED TO BE CONSTRUED AS AN EXHAUSTIVE LIST OF ALL RESPONSIBILITIES, DUTIES AND SKILLS REQUIRED OF PERSONNEL SO CLASSIFIED.

A REVIEW OF THIS CLASSIFICATION HAS EXCLUDED THE MARGINAL FUNCTIONS OF THE CLASSIFICATION THAT ARE INCIDENTAL TO THE PERFORMANCE OF FUNDAMENTAL JOB JUTIES. ALL DUTIES AND RESPONSIBILITIES ARE ESSENTIAL JOB FUNCTIONS AND REQUIREMENTS AND ARE SUBJECT TO POSSIBLE MODIFICATION TO REASONABLY ACCOMMODATE INDIVIDUALS WITH DISABILITIES TO PERFORM THIS JOB PROFICIENTLY. THE REQUIREMENTS LISTED IN THIS DOCUMENT ARE THE MINIMUM LEVELS OF KNOWLEDGE, SKILLS OR ABILITIES.

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