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Additive Manufacturing Remote Jobs in Indiana (NOW HIRING)

$14.50 - $18.75/hr

... additive manufacturing, advanced visualization, or patient-specific healthcare technologies. This position is on-site and is not eligible for hybrid or remote work. Schedule: The position offers some ...

New

The role is based in Midwest, United States (remote). We are also looking for this candidate to be ... Identify new business opportunities through understanding ethanol and manufacturing processes ...

The role is based in Midwest, United States (remote). We are also looking for this candidate to be ... Identify new business opportunities through understanding ethanol and manufacturing processes ...

The work model for the role is: #LI - Remote This role is contributing to the Electrification Service Division in Indianapolis, IN. Central area. You will be mainly accountable for: * Communicate ...

The work model for the role is: #LI - Remote This role is contributing to the Electrification Service Division in Indianapolis, IN. Central area. You will be mainly accountable for: * Communicate ...

Additive Manufacturing Remote information

What are some common challenges faced by professionals working in remote additive manufacturing roles, and how can they be overcome?

Working in a remote additive manufacturing role often involves overcoming challenges such as coordinating with on-site teams, managing complex digital workflows, and maintaining effective communication across different time zones. To address these, professionals typically leverage advanced collaboration tools, cloud-based CAD platforms, and regular video meetings to ensure alignment on project specifications and production timelines. Building a strong rapport with team members and establishing clear communication channels are key to successfully navigating the remote work environment in this field.

What are the key skills and qualifications needed to thrive as an Additive Manufacturing Remote Specialist, and why are they important?

To thrive as an Additive Manufacturing Remote Specialist, you need expertise in 3D printing technologies, materials science, and a background in engineering or related fields. Familiarity with CAD software, slicer programs, remote monitoring systems, and certifications like Additive Manufacturing Technician (AMT) are typically important. Strong problem-solving, attention to detail, and effective remote communication skills help you stand out in this role. These competencies ensure high-quality production, efficient troubleshooting, and seamless collaboration in a remote work environment.

What is additive manufacturing remote work?

Additive manufacturing remote work refers to the practice of performing tasks related to 3D printing and digital fabrication from a location outside of a traditional onsite manufacturing facility. Professionals in this field use digital tools, CAD software, and cloud-based platforms to design, simulate, and sometimes even remotely monitor additive manufacturing processes. While the physical printing often occurs at a dedicated site, many roles such as design, engineering, and process optimization can be effectively performed remotely. This setup allows for greater flexibility and can help companies access a wider talent pool.

What is the difference between Additive Manufacturing Remote vs Additive Manufacturing Technician?

AspectAdditive Manufacturing RemoteAdditive Manufacturing Technician
CredentialsTypically requires a degree in engineering, manufacturing, or related field; certifications like AMF or 3D printing certifications are commonUsually requires technical diploma or associate degree; certifications in 3D printing or CAD are beneficial
Work EnvironmentPrimarily remote, involving design, programming, and oversight of additive manufacturing processesOn-site or in manufacturing facilities, operating and maintaining 3D printers and equipment
Industry UsageUsed across industries for remote project management, design, and process optimizationHands-on manufacturing, equipment setup, and quality control in production settings

In summary, Additive Manufacturing Remote roles focus on remote design, programming, and project coordination, requiring strong technical skills and certifications, while Additive Manufacturing Technicians are hands-on workers operating and maintaining 3D printers on-site. Both roles are essential in the additive manufacturing industry but differ mainly in work environment and daily responsibilities.

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 cities in Indiana are hiring for Additive Manufacturing Remote jobs? Cities in Indiana with the most Additive Manufacturing Remote job openings:
Infographic showing various Additive Manufacturing Remote job openings in Indiana as of July 2026, with employment types broken down into 100% Full Time. Highlights an 100% Remote job distribution.

Advanced Visualization Engineering Intern

Imh

On-site, Remote

$14.50 - $18.75/hr

Part-time

Posted 6 days ago

New


Job description

Job Description:

The Advanced Visualization Engineering Internship provides hands-on experience supporting Intermountain Health's IMPACT Center, a specialized engineering team focused on patient-specific care, advanced visualization, medical device development, digital healthcare innovation, and additive manufacturing technologies. Interns contribute directly to clinical and operational initiatives involving 3D printing, biomedical engineering, digital workflow transformation, medical imaging, patient-specific modeling, and emerging healthcare technologies.
This position is designed to provide meaningful real-world experience while supporting production, operational, research, and implementation activities across multiple clinical specialties. Preference will be given to Master's and PhD students pursuing Biomedical Engineering, Biomechanical Engineering, Mechanical Engineering, Computational Engineering, or closely related engineering disciplines with research or practical experience in computational modeling, fluid mechanics, cardiovascular modeling, medical devices, additive manufacturing, advanced visualization, or patient-specific healthcare technologies.

This position is on-site and is not eligible for hybrid or remote work.

Schedule: The position offers some flexibility up to 40 hours per week, with an expected commitment of 30-40 hours during standard business hours (8:00 AM - 5:00 PM). Occasional support outside standard hours, including holidays or weekends, may be required to support operational needs, production deadlines, or time-sensitive clinical requests.

*Preferred skills include:

  • 3D Printing, additive manufacturing, and CAD applied to anatomical simulation and modeling for patient specialized applications
  • In a graduate engineering program pursuing Biomedical, Biomechanical, Mechanical, or Computational Engineering
  • Medical Device Design and Prototyping
  • Computational Fluid Dynamics (CFD) and Fluid Mechanics research or practical experience

The Advanced Visualization Engineering Intern supports the IMPACT Center's clinical, operational, and innovation activities through participation in biomedical engineering, patient-specific care, advanced visualization, additive manufacturing, and digital healthcare initiatives. Interns work closely with engineers, clinicians, and operational stakeholders to support production workflows, research activities, quality processes, and implementation of new technologies.

Responsibilities may include support of advanced visualization and patient specific surgical planning, medical device development, digital impressions, 3D printing, post-processing, equipment maintenance, quality documentation, workflow optimization, and technology validation activities. Interns may also participate in research, development, and evaluation of emerging technologies, including computational modeling, biomechanics, fluid dynamics, advanced visualization, and patient-specific engineering applications.

Strong preference for candidates with research or practical experience in Computational Fluid Dynamics (CFD), fluid mechanics, cardiovascular modeling, biomedical analysis, additive manufacturing, engineering simulation, medical device development, or advanced design methodologies are encouraged to apply.

Job Essentials
  • Supports operational, production, and implementation projects across the Advanced Visualization Engineering program.
  • Assists with 3D printing, additive manufacturing, post-processing, equipment maintenance, quality documentation, and workflow execution activities.

  • Participates in eligible portions of the engineering initiatives under guidance.

  • Supports data collection, technical documentation, process improvement, validation, and quality management activities. Assists with evaluation and implementation of new technologies, workflows, and service offerings.

  • Participates in assigned projects related to biomedical engineering, computational modeling, additive manufacturing, CFD, or advanced visualization technologies.

  • Demonstrates accountability for assigned tasks, project deliverables, and timeline commitments.

  • Maintains accurate records, documentation, and operational procedures in accordance with department standards.

  • Actively participates in team knowledge-sharing activities.

Preferred Qualifications
  • Currently pursuing a Master's or PhD degree in Biomedical Engineering, Biomechanical Engineering, Mechanical Engineering, Computational Engineering, or a closely related engineering discipline
  • Research or practical experience in Computational Fluid Dynamics (CFD), fluid mechanics, cardiovascular modeling, or engineering fluids simulation
  • Experience with CAD software, 3D design, additive manufacturing, or rapid prototyping required
  • Experience with ANSYS, SimVascular, Materialise or similar engineering software preferred
  • Experience with medical device development, product design, validation, or quality systems preferred
  • Strong analytical, communication, and problem-solving skills
  • Interest in applying engineering principles to patient-specific care, medical devices, advanced visualization, healthcare innovation, and clinical technology development
Standing, Walking, Lifting

Location:

Vine Street Office Building

Work City:

Murray

Work State:

Utah

Scheduled Weekly Hours:

40

The hourly range for this position is listed below. Actual hourly rate dependent upon experience.

$7.25 - $999.99

We care about your well-being - mind, body, and spirit - which is why we provide our caregivers a generous benefits package that covers a wide range of programs to foster a sustainable culture of wellness that encompasses living healthy, happy, secure, connected, and engaged.

Learn more about our comprehensive benefits package here.

Intermountain Health is an equal opportunity employer. Qualified applicants will receive consideration for employment without regard to race, color, religion, age, sex, sexual orientation, gender identity, national origin, disability or protected veteran status.

At Intermountain Health, we usethe artificial intelligence ("AI") platform, HiredScore to improve your job application experience.HiredScore helps match your skills and experiences to the best jobs for you. WhileHiredScore assists in reviewing applications, all final decisions are made byIntermountain personnel to ensure fairness. We protect your privacy and follow strict data protection rules. Your information is safe and used only for recruitment. Thank you for considering a career with us and experiencing our AI-enhanced recruitment process.

All positions subject to close without notice.