3D CORE ENGINEER - Research Center - Howmet Aerospace

About Howmet Aerospace

Howmet Aerospace Inc. (NYSE: HWM), headquartered in Pittsburgh, Pennsylvania, is a leading global provider of advanced engineered solutions for the aerospace and transportation industries. The Company's sales for 2022 approximated $5.7 billion. The Company's primary businesses focus on jet engine components, aerospace fastening systems, titanium structural parts and forged wheels. With nearly 1,150 granted and pending patents, the Company's differentiated technologies promote more fuel efficiency for aircraft and commercial transportation. For more information, visit www.howmet.com , including content shared during the Company's May 2022 Technology Day.

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Howmet is proud to be an Equal Employment Opportunity and Affirmative Action employer. We celebrate diversity and are committed to creating an inclusive environment for all employees.

All qualified applicants will receive consideration for employment without regard to race, color, religion, sex, sexual orientation, gender identity, national origin, disability, status as a protected veteran, or other applicable legally protected characteristics.

If you need assistance to complete your application due to a disability, please email TalentAcquisitionCoE_Howmet@howmet.com BASIC REQUIREMENTS

• A Bachelor's degree in Engineering from an accredited institution.
• A minimum of 2 years production experience working in an additive manufacturing environment.
• Employees must be legally authorized to work in the United States. Verification of employment eligibility will be required at the time of hire. Visa sponsorship is not available for this position.

PREFERRED QUALIFICATIONS

• Bachelor's or Master's Degree in Engineering from an accredited institution in the following disciplines preferred: Materials Science, Mechanical, Manufacturing, Engineering Technology, Chemical, or Aerospace.
• Fluency with CAD software, preferably with Siemens NX.
• Experience in additive manufacturing of resins in a production environment.
• Experience in new process control development and product start ups
• 3 years of additive industry experience
• Plastic injection molding experience
• Experience with developing and applying new manufacturing processes and/or inspection methods
• Experience in advanced inspection methods, such as structured light inspection or CT inspection
• Project management experience
• Good verbal communication skills.
• Proven problem solving skills using sound fundamentals as well as history of trials/execution of improvements
• Knowledge of Microsoft Office Suite software.
• Ability to effectively work/communicate as part of a project team.

Ability to prioritize and manage multiple tasks and activities. BASIC REQUIREMENTS

• A Bachelor's degree in Engineering from an accredited institution.
• A minimum of 2 years production experience working in an additive manufacturing environment.
• Employees must be legally authorized to work in the United States. Verification of employment eligibility will be required at the time of hire. Visa sponsorship is not available for this position.

PREFERRED QUALIFICATIONS

• Bachelor's or Master's Degree in Engineering from an accredited institution in the following disciplines preferred: Materials Science, Mechanical, Manufacturing, Engineering Technology, Chemical, or Aerospace.
• Fluency with CAD software, preferably with Siemens NX.
• Experience in additive manufacturing of resins in a production environment.
• Experience in new process control development and product start ups
• 3+ years of additive industry experience
• Plastic injection molding experience
• Experience with developing and applying new manufacturing processes and/or inspection methods
• Experience in advanced inspection methods, such as structured light inspection or CT inspection
• Project management experience
• Good verbal communication skills.
• Proven problem solving skills using sound fundamentals as well as history of trials/execution of improvements
• Knowledge of Microsoft Office Suite software.
• Ability to effectively work/communicate as part of a project team.

Ability to prioritize and manage multiple tasks and activities.This 3D CORE ENGINEER position will be located in the Howmet Research Center in Whitehall, MI and will be responsible for ongoing development and implementation of the 3D core process, with focus on additive manufacturing aspects of the process as well as process control.

Primary Responsibilities:

• Collaborating with Howmet Morristown production operations to develop robust processes and enhancements on new and existing programs.
• Working with Howmet Research Center Engineering in support of new development projects, both in Core Prototyping and Rapid Tooling departments where additive manufacturing is utilized
• Running trials, characterizing, and documenting additive manufacturing processes within the Howmet Research Center Lab.
• Advancing production manufacturing readiness levels on new projects (New Product Introduction)
• Creating and leveraging best practices/standards, both as individual effort as well as within a team environment.
• Evaluating and implementing new methods and processes to positively affect yields and part quality levels

This 3D CORE ENGINEER position will be located in the Howmet Research Center in Whitehall, MI and will be responsible for ongoing development and implementation of the 3D core process, with focus on additive manufacturing aspects of the process as well as process control.

Primary Responsibilities:

• Collaborating with Howmet Morristown production operations to develop robust processes and enhancements on new and existing programs.
• Working with Howmet Research Center Engineering in support of new development projects, both in Core Prototyping and Rapid Tooling departments where additive manufacturing is utilized
• Running trials, characterizing, and documenting additive manufacturing processes within the Howmet Research Center Lab.
• Advancing production manufacturing readiness levels on new projects (New Product Introduction)
• Creating and leveraging best practices/standards, both as individual effort as well as within a team environment.
• Evaluating and implementing new methods and processes to positively affect yields and part quality levels