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Director Cobalt Engineering Jobs (NOW HIRING)

... Cobalt technologies. * Learn the basic operation of all systems as a User would, to help better ... Perform other duties as assigned. * Assist VP/Technology, Dir/Engineering, and Mgr/Technology with ...

... Cobalt technologies. * Learn the basic operation of all systems as a User would, to help better ... Perform other duties as assigned. * Assist VP/Technology, Dir/Engineering, and Mgr/Technology with ...

Works under the direction of the Manufacturing Engineering Manager developing new processes, layout ... Titanium, Cobalt Chrome, Stainless Steels, medical grade plastics, etc. process โ€ข Experience ...

Provide direct technical guidance to engineering teams on how to patch vulnerabilities like XSS ... use of C2 frameworks (Cobalt Strike, Sliver, Havoc) or similar tools * Scripting and Coding:

Provide practitioner feedback to engineering and product management to inform feature design and ... Experience conducting original or self-directed threat research that resulted in novel findings ...

Associate Principal, Application Security

Dallas, TX ยท On-site

$58.25 - $77.75/hr

... administrator, engineer, or developer and direct experience testing in commercial cloud ... Strong proficiency with common penetration testing tools (Kali, Armitage, Metasploit, Cobalt Strike ...

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Director Cobalt Engineering information

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$73K

$194.7K

$254K

How much do director cobalt engineering jobs pay per year?

As of Jul 14, 2026, the average yearly pay for director cobalt engineering in the United States is $194,709.00, according to ZipRecruiter salary data. Most workers in this role earn between $141,500.00 and $253,000.00 per year, depending on experience, location, and employer.

What is the difference between Director Cobalt Engineering vs Cobalt Engineer?

AspectDirector Cobalt EngineeringCobalt Engineer
CredentialsBachelor's or Master's in Engineering, often with management experienceBachelor's or Master's in Engineering or related field
Work EnvironmentLeadership role overseeing teams and projects in industrial or manufacturing settingsTechnical role focused on design, analysis, and testing of cobalt-related processes
Industry UsageCommonly used in manufacturing, mining, and materials industriesPrimarily in manufacturing, materials science, and chemical processing

The main difference between a Director Cobalt Engineering and a Cobalt Engineer lies in their responsibilities and seniority. The Director oversees teams, strategic planning, and project management, while the Cobalt Engineer focuses on technical tasks such as design and analysis. Both roles require relevant engineering credentials, but the director position involves more leadership and management duties.

What cities are hiring for Director Cobalt Engineering jobs? Cities with the most Director Cobalt Engineering job openings:
What are the most commonly searched types of Cobalt Engineering jobs? The most popular types of Cobalt Engineering jobs are:
What states have the most Director Cobalt Engineering jobs? States with the most job openings for Director Cobalt Engineering jobs include:
Infographic showing various Director Cobalt Engineering job openings in the United States as of July 2026, with employment types broken down into 8% Full Time, 1% Part Time, 87% Temporary, and 4% Summer. Highlights an 94% Physical, 2% Hybrid, and 4% Remote job distribution, with an average salary of $194,709 per year, or $93.6 per hour.

Senior Metallurgical Engineer

SeAH Superalloy Technologies

Temple, TX โ€ข On-site

Full-time

Re-posted 29 days ago


Job description

SeAH Superalloy Technologies is building a world-class manufacturing facility in Temple, Texas, producing aerospace-grade nickel-based superalloys for investment casting and additive manufacturing. As part of SeAH Group's $150M U.S. greenfield investment, we're shaping the future of advanced manufacturing and establishing strong partnerships with industry leaders, suppliers, and communities.
About the role
  • We are seeking a highly skilled and detail-oriented Senior Metallurgical Engineer to join our technical team. This role is critical in overseeing the production, quality, and technical integrity of high-performance alloys. The ideal candidate will possess expertise in superalloy metallurgy, specifically within the realms of Investment Casting and Vacuum Induction Melting (VIM). You will be the primary technical authority for interpreting complex aerospace and industrial specifications, ensuring that all products meet the highest standards of quality and performance.

What you'll do
Process Engineering & Melting
  • Provide technical oversight and optimization for Vacuum Induction Melting (VIM) processes to ensure chemical homogeneity and cleanliness of superalloy heats.
  • Manage and refine operating parameters, including refractory preparation, melt profile, additions, filtration, and pouring temperatures, .
  • Troubleshoot production issues related to alloy chemistry and manufacturing.

Specification & Quality Compliance
  • Specification Interpretation: Act as the lead technical point of contact for interpreting customer, industry (AMS, ASTM, ASME), and internal material specifications.
  • Quality Management: Ensure all manufacturing processes and final products comply with internal, customer, AS9100, ISO 9001, and NADCAP requirements.
  • Develop and approve Method of Manufacture (MoM) documentation and Material Control Plans.

Testing & Characterization
  • Provide oversight on metallurgical testing protocols, including chemistry, metallography, and physical testing.
  • Lead Root Cause Analysis (RCA) and Corrective Action (CAPA) investigations for material or process failures.

Qualifications
  • Bachelor's or Master's degree in Metallurgical Engineering, Materials Science, or a related field.
  • A minimum of 5 years of hands-on experience in a metallurgical role specifically focused on nickel-, cobalt-, or iron-based superalloys.
  • Proven experience with Vacuum Induction Melting (VIM) and/or VAR/ESR processes.
  • Direct experience in an Investment Casting foundry environment.
  • Strong understanding of solidification theory and phase transformations in complex alloy systems.
  • Compliance: Demonstrated ability to interpret and apply complex aerospace/defense specifications.
  • Experience with casting simulation software (e.g., ProCAST or Magma).
  • Six Sigma Green or Black Belt certification.
  • Prior experience interfacing with Tier 1 aerospace OEMs.

Physical & Work Environment Requirements
  • Ability to sit or stand for extended periods and move throughout the office as needed.
  • Regular use of hands for typing, writing, and computer work.
  • Ability to lift or carry light office items (typically up to 15 lbs).
  • Work performed in a standard office environment with moderate noise and routine interruptions.
  • Ability to read screens, documents, and electronic communications with clarity.
  • Occasional extended hours during peak HR cycles (onboarding, payroll deadlines, audits).
  • Ability to maintain confidentiality and handle sensitive information in shared office spaces.
  • Occasional time spent on the manufacturing floor and supplier visits as required.
  • Ability to work standard business hours with flexibility during production or supply disruptions.
  • Must be able to comply with all safety and PPE requirements when entering production areas.