{"version":"0.1","company":{"name":"YubHub","url":"https://yubhub.co","jobsUrl":"https://yubhub.co/jobs/skill/dynamic-testing"},"x-facet":{"type":"skill","slug":"dynamic-testing","display":"Dynamic Testing","count":1},"x-feed-size-limit":100,"x-feed-sort":"enriched_at desc","x-feed-notice":"This feed contains at most 100 jobs (the most recently enriched). For the full corpus, use the paginated /stats/by-facet endpoint or /search.","x-generator":"yubhub-xml-generator","x-rights":"Free to redistribute with attribution: \"Data by YubHub (https://yubhub.co)\"","x-schema":"Each entry in `jobs` follows https://schema.org/JobPosting. YubHub-native raw fields carry `x-` prefix.","jobs":[{"@context":"https://schema.org","@type":"JobPosting","identifier":{"@type":"PropertyValue","name":"YubHub","value":"job_85f6b189-bbe"},"title":"Load & Dynamics Engineer","description":"<p>We are seeking a highly skilled Load &amp; Dynamics Engineer to join our team working on cutting-edge autonomous surface vessels (ASVs) for the Department of Defense (DoD).</p>\n<p>As a Load &amp; Dynamics Engineer, you will be responsible for modeling and analyzing the forces acting on our autonomous vessels, ensuring they meet operational requirements for performance and safety. You will play a key role in simulating vehicle behavior, designing load response models, and ensuring hardware is validated for real-world environments. This is an interdisciplinary role requiring understanding of dynamics, structural integrity, and system performance.</p>\n<p>Responsibilities:</p>\n<ul>\n<li>Analyze and resolve dynamic load-related problems affecting autonomous surface vessels, utilizing a combination of analysis, simulation, and field data.</li>\n<li>Develop finite element models and lumped element models to simulate vessel response under various load conditions (e.g., waves, wind, operational stress).</li>\n<li>Perform dynamic testing from start to finish, including pre-test analysis, sensor selection and installation, test execution, data analysis, signal processing, and model validation.</li>\n<li>Own system-level dynamic analysis and recommend hardware or design changes across engineering teams to enhance vessel performance under dynamic conditions.</li>\n<li>Collaborate with cross-functional teams to assess and refine vehicle design for load-bearing capability, ensuring it meets stringent operational and defense standards.</li>\n<li>Conduct advanced simulations to predict the behavior of autonomous vessels in complex environments (e.g., turbulent water, harsh weather, operational maneuvers).</li>\n<li>Write and modify software to support dynamic modeling, simulation, and analysis in commercial and in-house software platforms.</li>\n</ul>\n<p>Qualifications:</p>\n<ul>\n<li>Bachelor’s degree or greater in Mathematics, Physics, Mechanical Engineering, Structural Engineering, Naval Architecture, or a related field.</li>\n<li>2+ years of professional experience with dynamics, particularly in structural or fluid dynamics, with a focus on vehicle response to external forces.</li>\n<li>Strong experience with dynamic simulation and load analysis using industry-standard tools.</li>\n<li>Proven ability to conduct testing and data analysis to assess load dynamics in complex systems.</li>\n<li>Proficiency with software tools like MATLAB, Python, and commercial finite element modeling tools (e.g., NASTRAN).</li>\n<li>Hands-on experience with both dynamic analysis and hardware testing.</li>\n<li>Experience in the modeling of fluid-structure interaction, particularly in maritime environments.</li>\n<li>Knowledge of naval architecture and experience with hull, propulsion, and stability dynamics.</li>\n<li>Expertise in vibration, shock, and fatigue testing as it applies to large-scale marine or autonomous systems.</li>\n<li>Familiarity with control systems and integration of autonomous technologies within physical vessel systems.</li>\n<li>Experience working in defense-related industries, particularly with DoD contractors or government programs.</li>\n<li>Advanced knowledge of structural integrity and failure mechanisms related to dynamic loading conditions.</li>\n</ul>\n<p>Benefits:</p>\n<ul>\n<li>Medical Insurance: Comprehensive health insurance plans covering a range of services</li>\n<li>Saronic pays 100% of the premium for employees and 80% for dependents</li>\n<li>Dental and Vision Insurance: Coverage for routine dental check-ups, orthodontics, and vision care</li>\n<li>Saronic pays 100% of the premium under the basic plan for employees and 80% for dependents</li>\n<li>Time Off: Generous PTO and Holidays</li>\n<li>Parental Leave: Paid maternity and paternity leave to support new parents</li>\n<li>Competitive Salary: Industry-standard salaries with opportunities for performance-based bonuses</li>\n<li>Retirement Plan: 401(k) plan with company match</li>\n<li>Stock Options: Equity options to give employees a stake in the company’s success</li>\n<li>Life and Disability Insurance: Basic life insurance and short- and long-term disability coverage</li>\n<li>Pet Insurance: Discounted pet insurance options including 24/7 Telehealth helpline</li>\n<li>Additional Perks: Free lunch benefit and unlimited free drinks and snacks in the office</li>\n</ul>\n<p style=\"margin-top:24px;font-size:13px;color:#666;\">XML job scraping automation by <a href=\"https://yubhub.co\">YubHub</a></p>","url":"https://yubhub.co/jobs/job_85f6b189-bbe","directApply":true,"hiringOrganization":{"@type":"Organization","name":"Saronic Technologies","sameAs":"https://www.saronictechnologies.com/","logo":"https://logos.yubhub.co/saronictechnologies.com.png"},"x-apply-url":"https://jobs.lever.co/saronic/804ed622-0095-4d59-9ebc-a215b6113092","x-work-arrangement":"onsite","x-experience-level":"mid","x-job-type":"full-time","x-salary-range":null,"x-skills-required":["dynamics","structural integrity","system performance","finite element modeling","lumped element modeling","dynamic testing","analysis","simulation","field data","MATLAB","Python","NASTRAN","fluid-structure interaction","naval architecture","hull","propulsion","stability dynamics","vibration","shock","fatigue testing","control systems","autonomous 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