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Flex Schedule Injection Molding Process Engineer Jobs in Jackson, WI

The role focuses on optimizing the injection molding process by leveraging the latest cutting-edge technologies the industry has to offer. The Principal Process Engineer will focus on spearheading ...

As a Process Engineer at MGS, you will be responsible for the upkeep of equipment and processes to ... Devises and recommends new or modified components of plastic injection molding machinery.

As a Process Engineer at MGS, you will be responsible for the upkeep of equipment and processes to ... Devises and recommends new or modified components of plastic injection molding machinery.

As a Process Engineer at MGS, you will be responsible for the upkeep of equipment and processes to ... Devises and recommends new or modified components of plastic injection molding machinery.

Knowledge of manufacturing processes for plastic injection molds and tolerances associated with ... Bachelor's degree in Engineering or a related technical field preferred. Alternatives include some ...

Process Technician

Richfield, WI · On-site

$30 - $40/hr

Schedule: Day shift on a 2-2-3 rotating schedule , working 12-hour shifts. To hear more about this ... Engineers and Tooling teams to improve performance. * 5-7 years of plastics injection molding ...

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Flex Schedule Injection Molding Process Engineer information

See Jackson, WI salary details

$47.7K

$88.6K

$137.2K

How much do flex schedule injection molding process engineer jobs pay per year?

As of Jul 17, 2026, the average yearly pay for flex schedule injection molding process engineer in Jackson, WI is $88,608.00, according to ZipRecruiter salary data. Most workers in this role earn between $71,700.00 and $99,200.00 per year, depending on experience, location, and employer.

What are the key skills and qualifications needed to thrive as a Flex Schedule Injection Molding Process Engineer, and why are they important?

A Flex Schedule Injection Molding Process Engineer requires a solid background in plastics engineering or mechanical engineering, experience with injection molding processes, and often a relevant degree. Familiarity with CAD software, process monitoring systems, and certifications like RJG or Scientific Molding are commonly expected. Strong problem-solving abilities, attention to detail, and effective communication skills help engineers collaborate across shifts and respond to production issues efficiently. These skills ensure consistent product quality, optimized manufacturing processes, and smooth workflow coverage in dynamic, around-the-clock environments.

What does a Flex Schedule Injection Molding Process Engineer do?

A Flex Schedule Injection Molding Process Engineer is responsible for developing, optimizing, and troubleshooting the injection molding process used to manufacture plastic parts and products. The 'flex schedule' aspect means that the engineer may work non-traditional hours, such as evenings, weekends, or rotating shifts, to support 24/7 production needs. Their duties include setting up molding machines, improving cycle times, ensuring product quality, and collaborating with other teams to resolve technical issues. They also help implement process improvements to increase efficiency and reduce costs, all while adhering to safety and quality standards.

What is the difference between Flex Schedule Injection Molding Process Engineer vs Standard Injection Molding Process Engineer?

AspectFlex Schedule Injection Molding Process EngineerStandard Injection Molding Process Engineer
Work HoursFlexible, variable shifts based on production needsTypically fixed, regular shifts
CertificationsOften requires certifications in injection molding and process optimizationSimilar certifications, may vary by employer
Work EnvironmentManufacturing plants with adaptable schedulesStandard manufacturing settings
Industry UsageCommon in companies prioritizing flexible staffingStandard in most manufacturing facilities

The main difference between a Flex Schedule Injection Molding Process Engineer and a Standard Injection Molding Process Engineer lies in work hours flexibility. The flex schedule role offers adaptable shifts to meet production demands, while the standard role follows fixed schedules. Both roles require similar certifications and work in manufacturing environments, but the flex schedule position provides greater scheduling flexibility to accommodate dynamic production needs.

What are some common challenges faced by Flex Schedule Injection Molding Process Engineers, and how can they be addressed?

One common challenge for Flex Schedule Injection Molding Process Engineers is managing production efficiency while adapting to varying work schedules. Flex shifts can introduce variability in machine operation and team coordination, making communication and documentation especially important. Engineers may also need to quickly troubleshoot process deviations that occur during off-peak hours when fewer support staff are available. Developing strong cross-shift handoff processes and utilizing digital tracking tools can help ensure continuity and consistent quality across all schedules.
What are popular job titles related to Flex Schedule Injection Molding Process Engineer jobs in Jackson, WI? For Flex Schedule Injection Molding Process Engineer jobs in Jackson, WI, the most frequently searched job titles are:
What job categories do people searching Flex Schedule Injection Molding Process Engineer jobs in Jackson, WI look for? The top searched job categories for Flex Schedule Injection Molding Process Engineer jobs in Jackson, WI are:
What cities near Jackson, WI are hiring for Flex Schedule Injection Molding Process Engineer jobs? Cities near Jackson, WI with the most Flex Schedule Injection Molding Process Engineer job openings:

Advanced Molding Group Process Engineer

htna

Milwaukee, WI • On-site

Other

Re-posted 13 days ago


Job description

Job Summary

The Advanced Molding Group Process Engineer is responsible for ensuring new injection molded parts and processes are optimized for production, generally using OEE (Overall Equipment Effectiveness) and the ability to establish a robust processing window as measures. This process engineer will use their knowledge, understanding, and experience to focus on higher-risk projects. These might be for parts, materials, or processes new to the organization or ones needing improvement.

Responsibilities include the ability to research and put into practice new and different materials or processes, and participation in corrective actions and continuous improvement efforts. This will be achieved while maintaining HellermannTyton's Quality and EHS&S certifications by supporting all corporate policies, procedures, work instructions, and required documentation.

Essential Functions:

  • Work with others to get assigned projects into production with acceptable OEE and risk level.
  • Provide guidance and mentoring to process engineers and technicians, as well as the project teams, to continuously improve all aspects affecting process engineering. Recommend learning opportunities for others.
  • Collaborate with materials engineers, mold tooling engineers, and quality engineers to ensure systems and processes are optimized. Promote change where needed.
  • Collaborate with materials engineers, mold tooling engineers, and quality engineers to ensure systems and processes are optimized. Promote change where needed.
  • Equipment evaluation. Able to evaluate and, where applicable, recommend screw geometry, non-return valves, auxiliary equipment like dryers and blenders, etc.
  • Problem solving. Can use and explain different root cause failure analysis techniques. Work with the materials engineer to recommend appropriate analytical methods and coordinate needed actions internally or with outside labs.
  • Recommend hot runner setups
  • Work with maintenance to establish proper preventive maintenance cycles on the presses and equipment.
  • Assist the Director of Manufacturing and the Training Department to evaluate training needs for Process Engineers and Process Technicians.
  • Can explain APQP, write and evaluate PFMEAs, and how all of it gets incorporated through Control Plans and level 3 PPAPs.
  • Set up, run, and evaluate DOEs and make appropriate recommendations when needed.
  • Assist the Director of Manufacturing in evaluating and making recommendations on key process-related equipment.
  • Other duties as assigned.

Success in this role will require 

  • Injection molding. Can set a mold and establish robust processes on a variety of injection molding machines across a variety of resins using scientific injection molding.
  • Injection molding auxiliary equipment. Able to use/evaluate/recommend moisture analyzers, blenders, dryers, mold temperature control units, hot runner controllers, etc.
  • Heat transfer. Can explain, calculate, and recommend mold cooling requirements.
  • Can explain and figure out shear-induced flow groups and recommend appropriate course of action when fill-imbalance mitigation is needed, and how best to do that.
  • Application of statistics. Able to interpret various statistical tools such as Cp, Cpk, and standard deviation.
  • Calculate gate sizes using shear rate
  • Explain mechanical mold design from a structural perspective. Able to properly recommend, specify, and interpret FEA analyses.
  • Explain flow analyses. Able to properly recommend, specify, and interpret flow analyses.
  • Can explain APQP Advanced Product Quality Planning. Can write PFMEAS. Has a working knowledge of DFMEAs, Control Plans, SPC, etc.
  • Mold pressure and temperature sensing, EOAT, vision or other inspection systems. Work with process engineering, automation, IEs, maintenance, and other team members to implement appropriate strategies for maximizing OEE.
  • Part inspection. Can read part drawings, preferably including GD&T, and perform basic measurements.
  • Clear and concise written and verbal communication skills.
  • Have and maintain a teachable point of view and an ability and aptitude to help others learn.
  • Understands hygroscopic resin moisture absorption, desorption, and resin moisture effects on processing and part performance.
  • Can explain and evaluate scientific injection molding practices.

What You’ll Bring

  • Education. Bachelor’s degree in engineering, a related technical field, or experience with demonstrated progressive learning and responsibility.
  • Minimum 5+ years of hands-on injection molding experience with a proven understanding of successful injection molding
  • Proficiency with CAD software.
  • Self-motivated. Results oriented
  • Good technical writing skills.
  • Good verbal and written communication skills.
  • High mechanical aptitude.
  • Software skills, including MS O365.
  • Proven ability to work independently and manage multiple tasks in a fast-paced environment.
  • Valid driver's license with an acceptable driving record, along with adequate automobile insurance.
  • Capable and willing to travel 2 - 4 times per year.

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