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Metallurgy Process Engineer Jobs in Michigan (NOW HIRING)

... Metallurgical Engineering, or related field. · 5-10 years of experience in process engineering (preferably automotive). · Strong Proficiency in MAGMA, ProCAST, or other casting simulation software ...

Also, continuous improvement of processes by improving methods and developing new methods of ... Materials Science and Engineering, or Metallurgical Engineering * Experience working in a Casting ...

Job Posting Title Logistics Process Engineer Summary Dauch is looking for a Logistics Process ... and GKN Powder Metallurgy, Dauch unites deep engineering roots with global manufacturing ...

Experience evaluating metallurgical testing results. * Working knowledge of AutoCAD 2D and 3D ... Process Engineer - Heat Treatment and apply now! DIVERSITY COMMITMENT: Diversity, Equity and ...

Seeking a Process Engineer who will be responsible for helping develop and improve processes as ... Education: Bachelor's Degree in Engineering or a Metallurgical Science from an accredited ...

Seeking a Process Engineer who will be responsible for helping develop and improve processes as ... Education: Bachelor's Degree in Engineering or a Metallurgical Science from an accredited ...

Seeking a Process Engineer who will be responsible for helping develop and improve processes as ... Education: Bachelor's Degree in Engineering or a Metallurgical Science from an accredited ...

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Metallurgy Process Engineer information

What is the highest paid Metallurgical Engineer?

The highest paid Metallurgical Engineers typically work in senior roles such as Lead Metallurgist or Engineering Manager, often earning salaries exceeding $120,000 annually. Compensation varies based on experience, industry, location, and certifications like Professional Engineer (PE) licensure, with those in the mining, aerospace, or specialty metals sectors generally earning more.

What does a Metallurgy Process Engineer do?

A Metallurgy Process Engineer is responsible for developing, optimizing, and overseeing processes involved in the extraction, refining, and manufacturing of metals and alloys. They work to improve efficiency, quality, and safety in metallurgical operations, such as smelting, casting, and heat treatment. Metallurgy Process Engineers also troubleshoot production issues, ensure compliance with environmental and safety regulations, and collaborate with other engineers to develop new materials or processes.

What engineers make $300,000 a year?

Senior metallurgy process engineers with extensive experience, advanced technical skills, and often leadership responsibilities can earn salaries approaching or exceeding $300,000 annually, especially in high-demand industries like aerospace, energy, or specialty metals. Achieving this level typically requires advanced degrees, certifications, and a strong track record of project management and innovation.

What is the difference between Metallurgy Process Engineer vs Materials Scientist?

AspectMetallurgy Process EngineerMaterials Scientist
CredentialsBachelor's or Master's in Metallurgy, Materials Science, or related fieldBachelor's or Master's in Materials Science, Chemistry, or Physics
Work EnvironmentIndustrial settings, manufacturing plants, metal production facilitiesResearch labs, academic institutions, R&D departments
Industry UsageMetal production, mining, manufacturingResearch, development, academia

Metallurgy Process Engineers focus on optimizing metal production processes in industrial settings, while Materials Scientists primarily conduct research to develop new materials and improve existing ones. Both roles require a strong understanding of material properties but differ in their work environment and application focus.

What engineers make $500,000 a year?

Highly experienced engineers in specialized fields such as petroleum engineering, aerospace engineering, or certain senior roles in software engineering can earn $500,000 or more annually, often including bonuses and stock options. These positions typically require advanced skills, extensive experience, and often involve leadership or executive responsibilities.

What are the key skills and qualifications needed to thrive as a Metallurgy Process Engineer, and why are they important?

To thrive as a Metallurgy Process Engineer, a strong background in materials science, metallurgy, and chemical engineering is essential, typically supported by a relevant bachelor's degree. Familiarity with metallurgical analysis tools, process simulation software, and industry certifications like Six Sigma are commonly required. Strong problem-solving abilities, attention to detail, and effective communication skills help professionals excel in cross-functional teams and complex manufacturing environments. These competencies are crucial for optimizing metal production processes, ensuring product quality, and driving operational efficiency.

What are some typical challenges faced by Metallurgy Process Engineers in optimizing industrial processes?

Metallurgy Process Engineers often encounter challenges such as balancing cost efficiency with maintaining material quality, adapting processes to new alloys or specifications, and troubleshooting unexpected production issues like contamination or equipment wear. They must continuously monitor process parameters, analyze data, and implement improvements while collaborating closely with production teams and quality control. Staying updated with the latest technological advancements and environmental regulations is also crucial to ensure processes remain competitive and compliant.

Are metallurgical engineers in demand?

Metallurgical engineers are in steady demand due to their expertise in materials processing, quality control, and failure analysis across industries such as aerospace, automotive, and manufacturing. Employment opportunities often require knowledge of advanced tools like microscopy and certifications such as Professional Engineer (PE) licensure. Job growth is expected to align with industrial development and technological advancements.
What are popular job titles related to Metallurgy Process Engineer jobs in Michigan? For Metallurgy Process Engineer jobs in Michigan, the most frequently searched job titles are:
What job categories do people searching Metallurgy Process Engineer jobs in Michigan look for? The top searched job categories for Metallurgy Process Engineer jobs in Michigan are:
What cities in Michigan are hiring for Metallurgy Process Engineer jobs? Cities in Michigan with the most Metallurgy Process Engineer job openings:
Infographic showing various Metallurgy Process Engineer job openings in Michigan as of July 2026, with employment types broken down into 2% Locum Tenens, 91% Full Time, 4% Part Time, and 3% Contract. Highlights an 87% Physical, 4% Hybrid, and 9% Remote job distribution.

Process Engineer

Infinity Staffing Professionals

Whitehall, MI • On-site

$70K/yr

Full-time

Medical, Dental, Vision, Life, Retirement, PTO

Re-posted 4 days ago


Job description

NPI Process Engineer

Responsibilities
The NPI Process Engineer supports manufacturing through process control and improvement initiatives, ensuring product integrity for assigned components, maintaining customer relationships, developing part-specific work instructions, maintaining cost awareness, and implementing actions to improve profitability. This role plays a critical part in new product introduction, process development, metallurgical performance, and continuous improvement of manufacturing operations.

Compensation and Benefits
  • Starting pay: $70,000+ annually
  • Medical, dental, and vision insurance
  • 401(k) savings plan with employer match
  • Paid time off including vacation, holidays, and sick leave
  • Life insurance and employee assistance programs
  • Opportunities for professional development, technical training, and CI certification
  • Collaborative environment supporting innovation and cross-functional teamwork

Primary Responsibilities
  • Develops robust manufacturing processes that consistently meet or exceed customer requirements for metallurgical quality and performance.
  • Drives continuous improvement by developing new manufacturing methods and improving existing ones to increase yields and reduce labor content.
  • Leads NPI concurrent engineering discussions; participates in customer meetings to review design concepts.
  • Prepares material, scrap, and labor cost models for quotations.
  • Plans and formulates engineering programs for new product introduction within assigned responsibility areas.
  • Attends NPI meetings and provides input related to BOM, routing development, and milestone planning based on customer specifications.
  • Monitors and analyzes yield, labor, and material data to identify process improvement opportunities for both new and established processes.
  • Performs part qualification and requalification activities, including metallurgical investigations, documentation creation, and process validation.
  • Provides manufacturing support through training, creation and maintenance of work instructions, and process interpretation.
  • Conducts technical meetings and provides engineering data to meet internal and external customer needs.
  • Investigates external customer escapes, conducts root cause analysis, and develops corrective action plans.
  • Performs additional duties as required to support NPI and manufacturing operations.

Job Roles
  • Systems thinker – Sees the business holistically; anticipates impacts; considers multiple downstream effects; makes strategic, scalable decisions.
  • Optimizer – Continuously challenges existing processes; ensures teams have what they need to succeed.
  • Anticipation – Looks ahead to prevent issues and capitalize on opportunities; prepares others for future stages of production.
  • Operational accelerator – Drives continuous improvement; understands automation and process advancement; promotes safety, ergonomics, and scalability.
  • Organization and structure – Works effectively within established systems while improving and standardizing them; provides accurate information; aligns teams toward shared goals.
  • Influence – Uses data, relationships, and technical expertise to guide decision-making and gain adoption of best practices.
  • Data informed – Makes decisions based on quantifiable inputs; understands and explains the “why” behind actions and changes.
  • Prioritized reaction – Responds effectively to unexpected issues while maintaining focus on high-impact objectives.
  • Relationship – Builds rapport across shifts and functions; serves as a liaison between engineering and the shop floor; ensures employee insights are heard and acted upon.

Qualifications
Basic Qualifications
  • Bachelor’s degree in Engineering from an accredited institution
  • Legally authorized to work in the United States (no visa sponsorship available)
  • Ability to meet export-control requirements for access to restricted materials

Preferred Qualifications
  • Bachelor’s degree in Materials Science & Engineering or Metallurgical Engineering
  • Experience working in a casting environment
  • Internship or co-op experience in a manufacturing or laboratory setting
  • Strong analytical, verbal, and written communication skills
  • Proficiency in Microsoft Office, especially Excel
  • Experience using solidification modeling tools (ProCast, SOLIDCast)
  • Working knowledge of statistical tools (Minitab, JMP)
  • Familiarity with Six Sigma, Lean Manufacturing, or ABS methodologies
  • Experience with Design of Experiments (DOE) concepts