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Junior Additive Manufacturing Jobs in Indiana (NOW HIRING)

Senior Mechanical Engineer

Crane, IN · On-site

$104K - $137K/yr

Mentor junior engineers and contribute to a culture of continuous learning and technical excellence ... Knowledge of advanced materials, composites, additive manufacturing, and thermal protection systems

Senior Mechanical Engineer

Crane, IN

$104K - $137K/yr

Mentor junior engineers and contribute to a culture of continuous learning and technical excellence ... Knowledge of advanced materials, composites, additive manufacturing, and thermal protection systems

Senior Mechanical Engineer

Crane, IN · On-site

$104K - $137K/yr

Mentor junior engineers and contribute to a culture of continuous learning and technical excellence ... Knowledge of advanced materials, composites, additive manufacturing, and thermal protection systems

The engineer will provide leadership on mechanical designs and provide mentorship to junior ... EDM, additive manufacturing, etc. * Understanding of aerospace materials and coatings Desired ...

The engineer will provide leadership on mechanical designs and provide mentorship to junior ... EDM, additive manufacturing, etc. * Understanding of aerospace materials and coatings Desired ...

The engineer will provide leadership on mechanical designs and provide mentorship to junior ... EDM, additive manufacturing, etc. * Understanding of aerospace materials and coatings Desired ...

The engineer will provide leadership on mechanical designs and provide mentorship to junior ... EDM, additive manufacturing, etc. * Understanding of aerospace materials and coatings Desired ...

Junior Additive Manufacturing information

What does a Junior Additive Manufacturing Engineer do?

A Junior Additive Manufacturing Engineer assists in designing, developing, and producing parts using 3D printing technologies. They work under the supervision of senior engineers to prepare digital models, operate additive manufacturing equipment, and ensure products meet quality standards. Their responsibilities can also include troubleshooting printer issues, post-processing printed parts, and maintaining documentation. This entry-level role often involves learning and applying new techniques as the technology evolves.

What are some common challenges that Junior Additive Manufacturing professionals face in their first year, and how can they overcome them?

Junior Additive Manufacturing professionals often encounter challenges such as mastering a variety of 3D printing technologies, understanding material properties, and troubleshooting machine errors. Adapting to rapid design changes and learning to efficiently operate and maintain equipment are also common hurdles. To overcome these, it's helpful to seek mentorship from experienced colleagues, actively participate in team meetings, and take advantage of training resources provided by the company. Staying curious and open to feedback will accelerate learning and contribute to successful integration into the team.

What are the key skills and qualifications needed to thrive as a Junior Additive Manufacturing Engineer, and why are they important?

To thrive as a Junior Additive Manufacturing Engineer, you need a solid understanding of engineering principles, 3D modeling, and familiarity with additive manufacturing processes, usually supported by a degree in engineering or a related field. Knowledge of CAD software (such as SolidWorks or AutoCAD), experience with 3D printers, and awareness of industry standards are typically required. Strong problem-solving abilities, attention to detail, and effective teamwork are important soft skills that help you excel in this role. Mastery of these skills ensures precise, innovative, and efficient design-to-production workflows in a rapidly evolving manufacturing environment.

What is the difference between Junior Additive Manufacturing vs Junior CNC Machinist?

AspectJunior Additive ManufacturingJunior CNC Machinist
Required CredentialsHigh school diploma, training in additive manufacturing processesHigh school diploma, training in CNC programming and machining
Work Environment3D printing labs, manufacturing facilitiesMachine shops, manufacturing floors
Industry UsageRapid prototyping, custom parts productionPrecision parts manufacturing, metalworking

Both roles involve manufacturing skills but focus on different technologies. Junior Additive Manufacturing specialists work with 3D printing processes, while Junior CNC Machinists operate computer-controlled machines. Understanding these differences helps in choosing the right career path or job search focus.

What are the most commonly searched types of Additive Manufacturing jobs in Indiana? The most popular types of Additive Manufacturing jobs in Indiana are:
What are popular job titles related to Junior Additive Manufacturing jobs in Indiana? For Junior Additive Manufacturing jobs in Indiana, the most frequently searched job titles are:
What job categories do people searching Junior Additive Manufacturing jobs in Indiana look for? The top searched job categories for Junior Additive Manufacturing jobs in Indiana are:
What cities in Indiana are hiring for Junior Additive Manufacturing jobs? Cities in Indiana with the most Junior Additive Manufacturing job openings:

Advanced Manufacturing Engineer - Program Lead

jbpco

Elkhart, IN

Other

Re-posted 14 days ago


Job description

Company and Position Overview:

 

JB Poindexter & Co (JBPCO)is a privately held diversified manufacturing company forecasting $2.6B in annual revenue and 8,500 team members in 2025.  The nine operating subsidiaries, covering approximately 70 locations, are engaged in the production of commercial truck bodies, step-vans, utility trucks, funeral coaches, limousines, electric and alternative fuel vehicles, pickup truck bed enclosures, precision machining, and expandable foam plastic packaging.  For more information, visit www.jbpoindexter.com.

Advanced Manufacturing Engineer – Program Lead will be responsible for leading automation projects from concept to implementation across JBPCO’s manufacturing sites. The project’s life cycle includes, but is not limited to identifying automation opportunities, justifying, developing concepts, writing the scope of work, selecting the preferred vendor/integrator, design validation, ensuring the design & build follows JBPCO standards, and launching the solution at the plant.  The Program Lead will be executing multiple projects at one time, potentially in different facilities across North America that vary from welding chassis frames, laying fiberglass to machine tending to general assembly. 

Essential Job Functions:

  • Lead and support manufacturing initiatives aimed at process improvements through the targeted implementation of automated processes that drive improvements in key corporate metrics for safety, quality, cost and throughput.
  • Leads Concept-to-Commissioning process for automation systems, working with our internal manufacturing customers and the external system integrators.
  • Help define better business processes that support the transformation and automation of JBPCO’s manufacturing footprint.
  • Work cross-functionally and collaboratively, at all levels in the organization, to gain buy-in and ensure successful implementation of projects, strategies, and initiatives.
  • Confers with planning and design staff concerning product design and tooling to ensure efficient Lean production methods.
  • Confers with management, engineering, and other staff regarding manufacturing capabilities, production schedules, and other considerations to facilitate production processes.
  • Collaborate on the development and implementation of standardized work instructions, PFMEAs, and other control plans to ensure quality and consistency.
  • Develop equipment specifications (RFQ) to meet manufacturing requirements, and negotiate for purchase of equipment, materials, or parts. Evaluate equipment according to specifications and quality standards through design reviews, and gated acceptance testing.
  • Works with Business Units on production times, staffing requirements, and related costs to provide information for stakeholder decisions.
  • Adheres to Quality policy by exceeding customer expectations, being customer focused and supporting continuous improvement activities.
  • Adheres to JBPCO and industry safety policies and standards 100% of the time, including but not limited to, RIA, ANSI, ISO, IEEE, and NFPA.
  • Execute internal concept development workshops with the manufacturing sites to define base project scope.  Output to include, base process, automation selection, man-machine charts, cardboard mockups, cost estimates
  • Utilize project management skills to maintain an appropriate level of project control with respect to project budget, project timeline, resource allocation, document control, and issuance of purchase orders.
  • Create and maintain the required level of control with all JBPCO documents, included but not limited to, solid models, drawings, procedures, and work instructions.
  • Leads design reviews, build validation, FAT and SAT with the supplier ensuring the full representation of JBPCO is integrated into the process.
  • Lead training efforts across the enterprise to enable manufacturing operations to be self-sufficient at running, maintaining, and modifying automation systems.
  • Execute or assist vendors/integrators with standardized Task-Based Risk Assessment in accordance with A3 and JBPCO (ANSI/RIA TR R15.306).
  • Work with maintenance on policies, procedures, and spare parts.
  • Lead and train the Business Units on automation safety standards, mechanical and electrical.
  • Coach and mentorship to junior engineers to help build internal capabilities on project management across the enterprise.
  • Partner with site-level engineers, operations leaders, and corporate stakeholders to deploy best practices, standards, and advanced technologies.
  • Conduct process capability analysis, time studies, and value stream mapping to identify and eliminate waste.
  • Serve as a technical resource for new product introductions (NPIs), manufacturing cell designs, and layout optimization.
  • Stay current with emerging manufacturing technologies (e.g., Industry 4.0, robotics, additive manufacturing) and assess their fit within the organization.

Qualifications:

  • A self-starter with strong project leadership experience.
  • Has experience successfully leading projects transforming a traditional low volume/high mix manual manufacturing environment over to Automation.
  • Proven ability to lead various sizes of manufacturing projects and drive measurable improvement in cost, quality, safety, or delivery metrics.
  • Experience with various types of automation, automation vendors, and automation applications.
  • Experience working in a high-volume, complex manufacturing environment and/or high-mix, low volume manufacturing environment.
  • Ability to communicate, collaborate, and build rapport with personnel at all levels in a manufacturing environment.
  • Understanding of manufacturing design elements/tools/systems, processes, and regulatory requirements.
  • Understanding of design principles such as Data Analysis, DOE, FMEA, DFM/DFA.
  • Must possess excellent automation/electrical/mechanical aptitude.
  • Ability to work collaboratively within a team as well as independently.
  • Must have a passion and strong working knowledge for safety, workplace organization, and continuous improvement with a focus on Lean Manufacturing, Six Sigma, and Lean implementation.
  • Proficient with computer systems and software packages such as Microsoft Word, Excel, Power-Point, Outlook (email), Microsoft Project or Smartsheet, and JDEdwards.
  • Optional: 3D CAD Competency (SolidWorks Preferred).
  • Optional: Visual Basic Programming, Ladder Logic, or other programming knowledge.

Education:

  • BSME, BSIE, BSEE or equivalent.
  • Ten years or more of directly related experience in a manufacturing engineering or advanced manufacturing role, preferably in a multi-site or complex manufacturing environment.  A minimum of five years must be in program/project leadership.
  • Preferred: Certifications in PE, Lean Six Sigma, PMP, or relevant engineering credentials.

Travel Expectation:

  • 75%.
  • Must have a valid driver’s license and passport.

JB Poindexter & Co., Inc. provides equal employment opportunities to all employees and applicants for employment and prohibits discrimination and harassment of any type without regard to race, color, religion, age, sex, national origin, disability status, genetics, protected veteran status, sexual orientation, gender identity or expression, or any other characteristic protected by federal, state or local laws.

This policy applies to all terms and conditions of employment, including recruiting, hiring, placement, promotion, termination, layoff, recall, transfer, leaves of absence, compensation, and training.