THIS IS WHERE YOU SAVE AND SUSTAIN LIVES

At Baxter, we are deeply connected by our mission. No matter your role at Baxter, your work makes a positive impact on people around the world. You’ll feel a sense of purpose throughout the organization, as we know our work improves outcomes for millions of patients.
Baxter’s products and therapies are found in almost every hospital worldwide, in clinics and in the home. For over 85 years, we have pioneered significant medical innovations that transform healthcare.
Together, we create a place where we are happy, successful and inspire each other. This is where you can do your best work.
Join us at the intersection of saving and sustaining lives— where your purpose accelerates our mission.

WHAT YOU’LL BE DOING

As a Senior Mechanical Engineer, you will be at the forefront of product development, working on both new and existing infusion systems. Your responsibilities will include:

• Defining Design Requirements: Collaborate with customers and users to translate their needs into clear design requirements and hardware specifications.
• Architecting Mechanical Systems: Contribute to the development and documentation of innovative mechanical system architectures that push the boundaries of technology.
• Designing Complex Assemblies: Create and develop intricate designs for mechanical assemblies, mechanisms, and component parts of electro-mechanical medical devices, ensuring they meet performance objectives.
• Conducting In-Depth Analysis: Perform detailed mechanical analysis, including tolerance analysis (GD&T), load and fatigue life analysis, and thermal modeling, to guarantee consistent performance in safety-critical applications.
• Utilizing FEA Tools: Leverage advanced tools like SolidWorks Simulation and Abaqus for structural analysis, both linear and non-linear, to validate your designs.
• Integrating Designs: Ensure seamless integration of mechanical design elements with electrical and consumable components, collaborating with cross-functional teams.
• Troubleshooting and Problem Solving: Engage in troubleshooting efforts related to mechanical design aspects, working closely with other design constituents to resolve issues.
• Transitioning to Manufacturing: Effectively transition products to manufacturing, ensuring robust designs and processes that meet production standards.
• Optimizing Designs: Continuously improve mechanical and electro-mechanical designs to enhance production efficiency, reliability, regulatory compliance, and cost-effectiveness.
• Defining Testing Protocols: Establish and orchestrate testing protocols to validate the safety and effectiveness of your designs, ensuring they meet the highest standards.

To thrive in this role, you should possess the following qualifications:

• Educational Background: A Bachelor’s degree in Mechanical Engineering or a related field with 3+ years of relevant experience, or a Master’s degree with 1+ years of experience.
• Proven Experience: A demonstrated track record in electro-mechanical hardware development, preferably in a highly regulated industries such as medical device, aerospace, automotive, or defense.
• Fast-Paced Environment: Experience working effectively in a fast-paced environment, showcasing your ability to adapt and excel under pressure.
• CAD Proficiency: Strong knowledge and experience using CAD systems for mechanical design and analysis, particularly in surface/solid modeling and master modeling (SolidWorks preferred).
• Mechanical Knowledge: Familiarity with drive mechanisms (gears, leadscrews), fluid mechanics, and design principles for plastics, sheet metal, and casting parts according to manufacturing guidelines.
• Design for Manufacturing (DFM): Understanding of DFM and Design for Assembly (DFA) principles to optimize designs for production