This applied science position conducts experiments via third party and in-house tools to determine structural performance of components and systems. The results from the experiments are used to determine the validity of the design to meet the customer requirements. Design recommendations are then provided as needed.
Investigates product and system problems, understands causal mechanisms, recommends appropriate action, owns problem resolution and documents results with guidance from more experienced team members
Main focus is on the execution and improvement of established processes primarily documented in detailed local and global work instructions (EPs) that are required in Engineering Standard Work (ESW) and/or Design Validation Plans (DVP&R). This is accomplished through standard, as well as development of specialized experimental tools and methods that are required to support the Design and Validation processes and enable high confidence decision making.
Obtains input from Design, Thermal Sciences, Materials and Product Validation groups and delivers key structural performance measurements like motion, load, natural frequencies, stress, design margin, life, sound power to Design and Product Validation.
Uses formal training like Statics, Dynamics, Machine Design, Mechanics of Materials, Failure Analysis, Engineering Materials and others along with test and measurement results to make Design decisions of structural performance of components and systems. Has ownership of problem resolution for moderately complex components, products, systems, subsystems or services with a greater degree of technical complexity and ambiguity over the entry level engineer and with greater accountability to the project team.
Owns problem resolution for moderately complex components, products, systems, subsystems or services with a greater degree of technical complexity and ambiguity over the entry level engineer level and with greater accountability to the project team.
Provides independent execution of established work processes and systems, while still developing technology or product knowledge; engages with the improvement of systems and processes.
Involves minimal direct management of people, but could involve the coordination and direction of work amongst technicians and/or temporary student employees.
Contributes effectively toward team goals, exhibits influence within a work group and continues to develop proficiency in the competency areas critical to success in the role.
Applies Principles of Fatigue and Durability - Determines life of components and systems via numerical modeling and/or physical measurements; evaluates component temperatures, natural frequencies, mode shapes, displacements, strains/stresses, wear, and fatigue life to draw conclusions that influence design decisions with internal and external customers.
Applies Principles of Noise and Acoustics - Determines the acoustic behavior of components and systems via numerical modeling and/or physical measurements; evaluates both air and structure borne noise, sound power levels, sound quality, flexible body motion, and natural frequencies to draw conclusions that influence design decisions with internal and external customers.
Applies Principles of Dynamics and Vibration - Determines motion of components and systems via numerical modeling and/or physical measurements; evaluates rigid and flexible body motion, natural frequencies, mode shapes, displacements, velocities, accelerations, friction, and wear to draw conclusions that influence design decisions with internal and external customers.
Product Systems Modeling and Analysis - Impacts product design decisions to best meet stakeholder's requirements through the utilization and interpretation of numerical tools and methods that predict the performance of a component or system.
Product Function Test System Design - Interprets test equipment specifications from test standards or lab customer requirements; selects and integrates appropriate equipment, instrumentation and software to control boundary conditions and collect measurement data; assesses capability of the lab equipment against the requirements and support infrastructure.
Function Based Product Testing of "X" - Selects appropriate equipment and techniques to operate the product and record operational data in a hardware or software based testing environment most often required as part of a product verification or validation plan; evaluates quality and validity of measurement data; analyzes test results using accepted standards to characterize product capabilities in alignment with the requirements of the engineer responsible for making product decisions.
Applies Principles of Statistical Methods - Analyzes technical data using descriptive statistics, probability distributions, graphical analysis, and statistical inference (population and sample, confidence intervals, and hypothesis testing); models relationships between response and independent variables using analysis of variance, regression, and design of experiments to make rigorous, data-based decisions.
Decision quality - Making good and timely decisions that keep the organization moving forward.
Drives results - Consistently achieving results, even under tough circumstances.
Collaborates - Building partnerships and working collaboratively with others to meet shared objectives.
Communicates effectively - Developing and delivering multi-mode communications that convey a clear understanding of the unique needs of different audiences.
Self-development - Actively seeking new ways to grow and be challenged using both formal and informal development channels.
Education, Licenses, Certifications
College, university, or equivalent Bachelor's degree in Engineering or other relevant technical disciplines is required. Post-graduate (Master's or PHD) degree relevant to this discipline area preferred for this roles.
Prior entry level engineering equivalent work experience in a relevant discipline area is required. Preferred candidates would have a mix of experience using MS Office tools, Matlab, LabVIEW, nCode, Siemens Test.Lab and Windows operating systems.
Experience with multi-channel high-speed data acquisition system, such as LMS Test.Lab or B&K PULSE.
Experience with acoustic noise modeling software packages using Boundary Elements, Finite Elements and Statistical Energy Analysis.
Skills in experimental data analysis to correlate models and ability to efficiently integrate complex analytical tools into the product design process.
Skills in troubleshooting noise and vibrations problems with mechanical systems as related to product development.
Understanding of basic statistics and Design of Experiments.
Primary Location United States-Minnesota-Minneapolis-US, MN, Fridley, Cummins Power Generation
Job Type Experienced - Exempt / Office
Recruitment Job Type Exempt - Experienced
Job Posting Aug 22, 2019, 2:08:38 PM
Unposting Date Ongoing
Req ID: 190003V8