1

Injection Molding Simulation Jobs in Racine, WI (NOW HIRING)

Programmer

Menomonee Falls, WI · On-site

$26.50 - $36.50/hr

Knowledge of the injection mold building and injection molding is a plus. * Proficiency in CNC ... Experience with CAD/CAM software and CNC simulation tools. PREFERRED QUALIFICATIONS: * Experience ...

Apply Early

Staff Mechanical Engineer

Milwaukee, WI · On-site

$100K - $167K/yr

Proven expertise in FEA tools and interpreting simulation results to guide design decisions. * Strong knowledge of injection molding, including material selection, DFM, and tooling considerations.

Staff Mechanical Engineer

Milwaukee, WI · On-site

$100K - $167K/yr

Proven expertise in FEA tools and interpreting simulation results to guide design decisions. * Strong knowledge of injection molding, including material selection, DFM, and tooling considerations.

Use simulation, digital twins, virtual commissioning, structured testing, and prototype builds to ... Mechanical aptitude across fixture design, metalworking, stamping, injection molding, machining ...

Use simulation, digital twins, virtual commissioning, structured testing, and prototype builds to ... Mechanical aptitude across fixture design, metalworking, stamping, injection molding, machining ...

Injection Molding Simulation information

See Racine, WI salary details

$10.3K

$63.4K

$113.9K

How much do injection molding simulation jobs pay per year?

As of Jul 3, 2026, the average yearly pay for injection molding simulation in Racine, WI is $63,388.00, according to ZipRecruiter salary data. Most workers in this role earn between $41,300.00 and $74,500.00 per year, depending on experience, location, and employer.

What are some typical challenges faced in an Injection Molding Simulation role, and how can I prepare to address them?

Professionals in Injection Molding Simulation often encounter challenges such as accurately predicting material flow, minimizing defects like warpage or sink marks, and optimizing process parameters for cost efficiency. To address these, it's vital to stay current with simulation software updates, develop strong communication skills to collaborate with design and manufacturing teams, and cultivate a solid understanding of polymer materials. Gaining hands-on experience with real-world molding processes and troubleshooting will also help bridge the gap between virtual simulations and practical outcomes.

What are the key skills and qualifications needed to thrive as an Injection Molding Simulation Engineer, and why are they important?

To excel as an Injection Molding Simulation Engineer, you need a solid background in mechanical or manufacturing engineering, with expertise in polymer processing and simulation principles. Familiarity with simulation software such as Moldflow, Moldex3D, or Autodesk Simulation, along with CAD tools, is typically required, and relevant certifications can be advantageous. Strong problem-solving abilities, attention to detail, and effective communication skills help you interpret simulation data and collaborate with cross-functional teams. These competencies ensure accurate mold designs, optimized manufacturing processes, and reduced production costs and defects.

What is injection molding simulation?

Injection molding simulation is the use of specialized software to predict and analyze the behavior of plastic materials as they are injected into a mold during the manufacturing process. This simulation helps engineers optimize mold design, minimize defects, and reduce production costs by identifying potential issues before physical molds are made. It allows for virtual testing of different materials, mold geometries, and processing conditions, making the manufacturing process more efficient and reliable.

What is the difference between Injection Molding Simulation vs Injection Molding Technician?

AspectInjection Molding SimulationInjection Molding Technician
Primary FocusUsing software to model and optimize molding processesOperating and maintaining molding equipment on the production floor
Required SkillsCAD/CAM software, process analysis, troubleshootingMachine operation, quality control, basic troubleshooting
Work EnvironmentDesign labs, engineering departments, software environmentsManufacturing floor, production lines
CredentialsEngineering degree or technical training, software proficiencyTechnical diploma or certification, hands-on experience

Injection Molding Simulation specialists focus on virtual modeling to improve manufacturing processes, while Injection Molding Technicians operate and maintain the equipment on the factory floor. Both roles are essential in the injection molding industry but differ in their focus, skills, and work environment.

What are popular job titles related to Injection Molding Simulation jobs in Racine, WI? For Injection Molding Simulation jobs in Racine, WI, the most frequently searched job titles are:
What job categories do people searching Injection Molding Simulation jobs in Racine, WI look for? The top searched job categories for Injection Molding Simulation jobs in Racine, WI are:
What cities near Racine, WI are hiring for Injection Molding Simulation jobs? Cities near Racine, WI with the most Injection Molding Simulation job openings:
Infographic showing various Injection Molding Simulation job openings in Racine, WI as of June 2026, with employment types broken down into 83% Full Time, 12% Part Time, and 5% Contract. Highlights an 98% Physical, 1% Hybrid, and 1% Remote job distribution, with an average salary of $63,388 per year, or $30.5 per hour.
Principal Materials Engineer - Polymers (Advanced Engineering)

Principal Materials Engineer - Polymers (Advanced Engineering)

Milwaukee Tool

Milwaukee, WI • On-site

Full-time

Posted 10 days ago


Job description

Job Description:

Principal Materials Engineer - Polymers (Advanced Engineering)

Bringdeep technical authority and first-principles rigorto define, mature, and scalepolymer materials and processing approachesacross Milwaukee Tool'sHand Tools business unit(Hand Tools, Storage, PPE).

As a Principal Materials Engineer, you serve as thesubject matter expert in polymer systems, driving materialselection, development, validation,processing, and manufacturabilitydecisions forhigh-impact applications. You define material performance intent, develop validation strategies, and translate results into confident material decisions fromearly exploration through commercialization.

Youoperatewithhigh autonomyacross Advanced Engineering (R&D) and platform development, independently progressing multiple material efforts in parallel. You also lead direct technical engagement with material suppliers and development partners to solvecomplex material challenges.

This role emphasizesearly-stage material exploration and innovation, requiring the ability toidentifyemerging material opportunities and generate insights before formal validation pathways exist.

Key Responsibilities

  • Define material performance intent tied to end-use conditions, durability, and manufacturability requirements

  • Develop, qualify, and implement polymer systems (plastics, elastomers, coatings, adhesives, composites) from concept through production-ready specifications, ensuring alignment betweendesign intent, tooling strategy, processing conditions, manufacturability, and field performance

  • Define and execute platform-level material strategies, enabling consistent performance and manufacturability across product architectures

  • Translate experimental and field data intomaterial and process decisionsby linking processing-structure-property relationships to end-use performance and failure modes, and by driving upfront analysis prior to tooling and trials

  • Scout and evaluate emergingpolymer, elastomeric, and flexible material technologies- including startup platforms, university-derived materials, and supplier development pipelines - to expand the organization'smaterials and processing capability roadmap

  • Designnovel test methodologieswhere standard approachesfail tofully characterize material behavior; treat data exploration as a primary tool for surfacingmaterial and process insightsthat drive early-stage decisions

  • Apply materialsexpertiseacrossrigid and flexible polymer systems, including elastomeric components,overmoldedinterfaces, and protective padding or soft goods applications relevant to PPE and hand tool ergonomics

  • Lead direct technical engagement with global material suppliers and development partners to co-develop and mature advancedmaterial and process solutions

  • Lead root-cause investigations for complex material failures, applyingappropriate analyticaltechniques toidentifyfailure mechanisms and translate findings intodesign, material, or process changes;maintainfamiliarity with relevant test methods anddemonstratewillingness to workhands-on in the labas needed

  • Drive corrective actions that prevent recurrence through changes in materialselection, design, or processing conditions

  • Provide targeted support to high-impact production or field issues (~10%), focused on complex or ambiguous failures

  • Influence design, manufacturing, and sourcing decisions to ensure alignment between material selection, processing, and product performance

  • Applystrong working knowledgeof DFM and tooling to polymer materialselection-understanding how material, processing, and design impact tooling and vice versa, and using that understanding to influence manufacturability and development decisions

  • Develop sufficient fluency in injection molding simulation workflows (e.g., Moldflow, FEA, material models) to define meaningful inputs, interpret outputs, and drive targeted requests in partnership with dedicated simulation resources;direct simulation execution capability is preferred but notrequired

  • Document material intent, assumptions, tradeoffs, and risks in clear specifications and recommendations

  • Mentor engineers and elevate technical rigor in materials evaluation and decision-making

  • Operate across a wide range of polymer systems and applications, applying depth selectively where technical risk is highest

Typical Advanced Engineering Flow

  • Discovery:Identifyunmet performance needs; evaluate materials technologies and external capabilities

  • Definition:Translate application requirements into material performance intent,processing strategy, manufacturability considerations,and validation approach

  • Exploration:Develop and test material systems; iterate with suppliers and partners;explore process windows and tooling interactions; quantify tradeoffs and failure modes

  • Validation:Confirm performance, durability, and manufacturability; retire material and process risk

  • Commercialization:Deliver production-ready specifications, test methods, and supplier alignment; support launch as SME

Qualifications

  • Bachelor's degree in Materials Science, Polymer Engineering, or related field; advanced degree preferred

  • 10+ years of experience in polymer materials engineering across R&D, development, or manufacturing

  • Deepexpertisein plastics, elastomers, thermosets, adhesives, coatings, and composite systems

  • Proven ability to solve complex technical problems and lead root cause analysis

  • Experience working directly with material suppliers and development partners

  • Strong ability to translate data into decisions and communicate clearly across functions

  • Strong working knowledgeof polymer processing (e.g., injection molding,overmolding) and the interaction between materialselection, tooling, and manufacturing outcomes

  • Working knowledge ofinjection molding simulation conceptssufficient to engage simulation resources effectively, interpret simulation outputs, and recognize where simulation-informed decisions add value;experience directly running Moldflow or similar analyses is preferred

  • Familiarity with polymer characterization methods and willingness to behands-on in the labare expected; experience independently operating polymer analysis equipment to support development and failure investigations is preferred

Milwaukee Tool is an equal opportunity employer.