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Forging Die Design Engineer Jobs (NOW HIRING)

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Other mold/die design experience may be acceptable. Required Experience/Skills: -5+ Years of ... design engineering and manufacturing support projects from start to finish (project organization ...

Be Seen First

Other mold/die design experience may be acceptable. Required Experience/Skills: -5+ Years of ... design engineering and manufacturing support projects from start to finish (project organization ...

Four-year degree in Industrial Engineering, Mechanical Engineering, Materials Science, or ... Conduct continuous forging evaluation and optimization (Die Design, Tool Development, and Repair ...

Four-year degree in Industrial Engineering, Mechanical Engineering, Materials Science, or ... Conduct continuous forging evaluation and optimization (Die Design, Tool Development, and Repair ...

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Forging Die Design Engineer information

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$41K

$92.1K

$196K

How much do forging die design engineer jobs pay per year?

As of Jul 16, 2026, the average yearly pay for forging die design engineer in the United States is $92,070.00, according to ZipRecruiter salary data. Most workers in this role earn between $65,000.00 and $95,500.00 per year, depending on experience, location, and employer.

What is the difference between Forging Die Design Engineer vs Machining Engineer?

AspectForging Die Design EngineerMachining Engineer
Primary FocusDesigning dies for forging processesDesigning and optimizing machining tools and parts
Work EnvironmentManufacturing plants, die shopsMachine shops, manufacturing facilities
Required SkillsCAD, materials, forging processesCAD, machining techniques, tooling
Industry UsageAutomotive, aerospace, heavy machineryAutomotive, aerospace, general manufacturing

While both roles involve CAD design and manufacturing knowledge, Forging Die Design Engineers focus on creating dies for forging processes, whereas Machining Engineers specialize in designing tools for machining operations. Both roles are essential in manufacturing but serve different stages of production.

What engineers make $200,000 a year?

Forging Die Design Engineers with extensive experience, specialized skills in CAD software, and working in high-demand manufacturing or aerospace industries can earn $200,000 or more annually. Achieving this level often requires advanced certifications, a strong track record, and leadership responsibilities.

What engineer makes $500,000 a year?

A Forging Die Design Engineer typically earns a salary well below $500,000 annually. High salaries in engineering roles are often associated with executive positions, specialized consulting, or roles in highly profitable industries, but such compensation levels are uncommon for standard engineering roles without additional bonuses or profit-sharing arrangements.

What are the key skills and qualifications needed to thrive as a Forging Die Design Engineer, and why are they important?

To thrive as a Forging Die Design Engineer, you need a solid background in mechanical engineering, materials science, and CAD design, often supported by a relevant engineering degree. Proficiency with 3D modeling software (such as SolidWorks or AutoCAD), simulation tools, and knowledge of manufacturing processes are typically required. Strong problem-solving abilities, attention to detail, and effective communication skills are crucial for collaborating with cross-functional teams and ensuring precise designs. These skills ensure the production of high-quality dies, optimal manufacturing efficiency, and product integrity in demanding industrial environments.

What is a Forging Die Design Engineer?

A Forging Die Design Engineer is a specialized professional responsible for designing and developing dies and tooling used in the metal forging process. They use engineering principles and computer-aided design (CAD) software to create precise die designs that shape metal components according to specific requirements. Their work ensures that dies are durable, efficient, and capable of producing high-quality forged parts. These engineers collaborate closely with manufacturing teams to optimize the forging process and resolve any issues related to die performance.

What are some common challenges a Forging Die Design Engineer faces when collaborating with manufacturing teams?

A Forging Die Design Engineer often collaborates closely with manufacturing teams to ensure that die designs are both technically sound and practical for production. Common challenges include balancing the ideal design specifications with manufacturing limitations, such as material constraints or equipment capabilities. Communication is key, as misunderstandings about tolerances, heat treatment, or design intent can lead to costly errors. Engineers must frequently adapt their designs based on real-time feedback from the shop floor and work proactively to resolve issues related to die wear, cycle time, and part quality.

What does a forging engineer do?

A forging die design engineer develops and designs dies used in metal forging processes to shape metal parts accurately and efficiently. They use CAD software, understand material properties, and collaborate with manufacturing teams to ensure the dies meet specifications and quality standards.

How much does a design engineer get paid?

A forging die design engineer typically earns between $60,000 and $90,000 annually, depending on experience, location, and industry. Senior engineers or those with specialized skills may earn higher salaries, and certifications can also influence compensation.
More about Forging Die Design Engineer jobs
Infographic showing various Forging Die Design Engineer job openings in the United States as of July 2026, with employment types broken down into 17% Internship, and 83% Full Time. Highlights an 100% In-person job distribution, with an average salary of $92,070 per year, or $44.3 per hour.
Tool and Die Design Engineer

Full-time

Re-posted 19 days ago


Bonney Forge rating

6.3

Company rating: 6.3 out of 10

Based on 5 frontline employees who took The Breakroom Quiz


Job description

General description
Responsible for the design, simulation, and optimization of specialized tooling-including forging dies, molds, trim blades, and fixtures-to support high-precision and efficient metal forging operations. This role involves creating detailed blueprints, 3D models, and fabrication plans using specialized software to ensure forged components meet quality, durability, and performance requirements. Optimize die designs for material flow, heat tolerance, wear resistance, and structural integrity while supporting production and troubleshooting tooling issues on the plant floor.
Essential job functions and duties:
  • Design and develop forging dies, inserts, trim blades, and fixtures using CAD/CAM software.
  • Create detailed models and layouts to plan fabrication and assembly operations, ensuring safe and efficient tooling designs for various forging processes.
  • Utilize simulation software to predict metal flow, stresses, thermal effects, and potential defects during forging.
  • Analyze engineering drawings, blueprints, and specifications to determine optimal forging methods and tooling approaches.
  • Optimize die designs for durability, material flow, heat resistance, and structural stability under extreme forging conditions.
  • Select appropriate tool steels and materials to maximize die life in high-heat, high-pressure environments.
  • Determine proper die materials, tolerances, and heat treatment requirements to improve tool life and forging stability.
  • Collaborate closely with manufacturing, quality, and tool room personnel to ensure designs are manufacturable and compatible with existing equipment.
  • Serve as a technical resource for the production floor by troubleshooting tooling issues related to wear, damage, alignment, or performance.
  • Support tooling trials, process improvements, and continuous improvement initiatives.
  • Conduct investigations and simulations to diagnose forging defects and recommend corrective actions.
  • Balance ideal engineering solutions with real-world constraints such as equipment capabilities, material availability, and production timelines.

Job specifications:
  • Proficiency in CAD/CAM software such as SolidWorks and AutoCAD.
  • Working knowledge of simulation software such as DEFORM, DELCAM.
  • Strong understanding of metallurgy, forging processes (closed die and press forging), and heat treatment.
  • Proficient in reading and interpreting manufacturing drawings and technical specifications.
  • Familiarity with CNC machining processes and tooling fabrication methods.

Education:
Bachelor's degree in Mechanical Engineering, Manufacturing Engineering, Industrial Engineering, or a related engineering field.
Experience:
Preferred experience in a manufacturing environment and CNC programming.
Software:
SolidWorks, AutoCAD, DEFORM, Autodesk

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