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Mechanical Engineering Jobs in Silver Spring, MD

Mechanical Engineering Lead

Sterling, VA · On-site

$109K - $132K/yr

Mechanical Engineering Lead Full-Time · On-Site · Sterling, VA (Northern Virginia) Competitive compensation 401k, equity, healthcare benefits OUR MISSION To tackle the growing e-waste problem, Molg ...

We are a project-driven firm that reliably meets the IT needs of our State and Government customers through development and business keenness. 'Mechanical Engineering design and development with ...

Job Title Mid Mechanical Engineering Location Bethesda, MD 20800 US (Primary) Category Research, Development, and Engineering Job Type Full-Time Career Level Staff Education Bachelor's Degree Travel ...

About the Job The Varsity Tutors Live Learning Platform has thousands of students looking for online Mechanical Engineering tutors nationally. As a tutor on the Varsity Tutors Platform, you'll have ...

About the Job The Varsity Tutors Live Learning Platform has thousands of students looking for online Mechanical Engineering tutors nationally. As a tutor on the Varsity Tutors Platform, you'll have ...

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Mechanical Engineering information

See Silver Spring, MD salary details

$47K

$106.4K

$172.1K

How much do mechanical engineering jobs pay per year?

As of Jul 18, 2026, the average yearly pay for mechanical engineering in Silver Spring, MD is $106,353.00, according to ZipRecruiter salary data. Most workers in this role earn between $84,300.00 and $130,800.00 per year, depending on experience, location, and employer.

What engineer makes $500,000 a year?

Highly experienced mechanical engineers working in specialized industries such as aerospace, oil and gas, or with executive-level responsibilities can earn salaries approaching or exceeding $500,000 annually. These roles often require advanced skills, extensive experience, and sometimes leadership or project management responsibilities.

What careers are there in mechanical engineering?

Mechanical engineering offers careers such as design engineer, manufacturing engineer, systems engineer, and research and development engineer. These roles involve applying principles of physics and materials science, often using tools like CAD software, and may require certifications or specialized training. Mechanical engineers work in industries including automotive, aerospace, energy, and robotics, typically in office or manufacturing environments.

Can you make $200,000 a year as a mechanical engineer?

Mechanical engineers can earn $200,000 or more annually, typically with extensive experience, advanced skills, and in specialized fields such as aerospace, robotics, or management roles. High salaries often require a master's degree, professional engineering licensure, and working in high-demand industries or locations with a high cost of living.

What are some common challenges faced by mechanical engineers when working on multidisciplinary project teams?

Mechanical engineers often collaborate with professionals from electrical, software, and civil engineering backgrounds, which can present challenges in aligning project goals, communication styles, and technical languages. Successfully navigating these challenges requires strong teamwork, adaptability, and a willingness to learn about related fields. Mechanical engineers may need to bridge knowledge gaps, coordinate schedules, and ensure that their designs integrate seamlessly with those from other disciplines. Proactive communication and regular team meetings are key strategies for overcoming these hurdles and ensuring project success.

What is mechanical engineering?

Mechanical engineering is a branch of engineering that focuses on the design, analysis, manufacturing, and maintenance of mechanical systems. It involves principles of physics and materials science to create everything from small individual parts and devices to large systems like engines, machines, and HVAC systems. Mechanical engineers work in a variety of industries, including automotive, aerospace, energy, and manufacturing, developing solutions that improve efficiency, safety, and reliability.

What type of jobs do mechanical engineers do?

Mechanical engineers design, develop, and test mechanical devices and systems such as engines, HVAC systems, manufacturing equipment, and robotics. They often work in industries like aerospace, automotive, energy, and manufacturing, utilizing skills in CAD software, thermodynamics, and materials science. Their roles can involve research, product development, and project management, often requiring a bachelor's degree and professional engineering licensure.

What is the difference between Mechanical Engineering vs Civil Engineering?

AspectMechanical EngineeringCivil Engineering
Required CredentialsBachelor's degree in Mechanical Engineering, PE license (optional)Bachelor's degree in Civil Engineering, PE license often required
Work EnvironmentManufacturing plants, design labs, R&D facilitiesConstruction sites, infrastructure projects, urban planning
Industry UsageAutomotive, aerospace, energy, manufacturingBuildings, bridges, roads, water systems

Mechanical Engineering and Civil Engineering share foundational engineering principles but differ in focus and work environments. Mechanical engineers often work in manufacturing and product design, while civil engineers focus on infrastructure and construction projects. Both fields require similar credentials but serve distinct industries and project types.

What are the key skills and qualifications needed to thrive as a Mechanical Engineer, and why are they important?

To thrive as a Mechanical Engineer, you need a solid background in mathematics, physics, and engineering principles, typically supported by a bachelor's degree in mechanical engineering or a related field. Proficiency with CAD software (such as SolidWorks or AutoCAD), simulation tools, and familiarity with industry standards or certifications like FE/EIT are commonly required. Strong problem-solving, teamwork, and effective communication skills set top candidates apart in this field. These competencies ensure innovative, safe, and efficient design and implementation of mechanical systems across diverse industries.
What are the most commonly searched types of Mechanical Engineering jobs in Silver Spring, MD? The most popular types of Mechanical Engineering jobs in Silver Spring, MD are:
What are popular job titles related to Mechanical Engineering jobs in Silver Spring, MD? For Mechanical Engineering jobs in Silver Spring, MD, the most frequently searched job titles are:
What job categories do people searching Mechanical Engineering jobs in Silver Spring, MD look for? The top searched job categories for Mechanical Engineering jobs in Silver Spring, MD are:
What cities near Silver Spring, MD are hiring for Mechanical Engineering jobs? Cities near Silver Spring, MD with the most Mechanical Engineering job openings:
Infographic showing various Mechanical Engineering job openings in Silver Spring, MD as of July 2026, with employment types broken down into 84% Full Time, 14% Part Time, and 2% Contract. Highlights an 84% Physical, 6% Hybrid, and 10% Remote job distribution, with an average salary of $106,353 per year, or $51.1 per hour.

Mechanical Engineering Lead

Molg

Sterling, VA • On-site

$109K - $132K/yr

Full-time

Medical, Retirement

Re-posted 3 days ago


Job description

Mechanical Engineering Lead

Full-Time · On-Site · Sterling, VA (Northern Virginia)

Competitive compensation 401k, equity, healthcare benefits

OUR MISSION

To tackle the growing e-waste problem, Molg enables circular manufacturing with robotics and design. Its robotic microfactories can autonomously disassemble complex electronic products, and the team partners with leading manufacturers to design electronics with reuse in mind — ensuring one product’s end is another’s new beginning.

Molg combines advanced robotics and intelligent software to transform how electronics are manufactured and recovered. Working with partners like HP, leading hyperscalers, and industrial companies such as ABB and Stanley Black & Decker, Molg’s solutions recover valuable materials from existing devices while helping create the next generation of products optimized for circularity. This dual focus on recovery and design innovation drives Molg’s mission to keep materials in use and reduce waste.

IN THIS ROLE YOU WILL

Join a cross-functional team of software, electrical, robotics, and operations engineers to design, develop, and validate the articulating end of arm tooling (EOAT) that powers our robotic microfactory. This is hands-on, mechanism-forward work — multi-DOF grippers, compliant linkages, actuated fingers, force-controlled contact systems, and tooling that must adapt to real variability in device geometry and assembly state. As the Mechanical Engineering Lead, you will own the full design cycle from concept through production validation and lead a small team of mechanical engineers doing the same.

Design & Engineering

  • Lead the design and development of end of arm tooling — grippers, fixtures, and compliance mechanisms — for automated electronics disassembly.

  • Define tooling requirements in collaboration with robotics, automation, and operations teams.

  • Perform mechanical analysis (stress, tolerance, kinematic) to validate designs before fabrication.

  • Oversee prototyping, testing, and iterative refinement of EOAT systems.

  • Ensure designs meet reliability, repeatability, and cycle-time targets in production environments.

  • Apply DFM principles to minimize cost and lead time.

Technical Leadership

  • Serve as Technical Lead Manager for a small team of mechanical engineers — assign tasks, set milestones, and track deliverables across the EOAT workstream.

  • Conduct design reviews, provide technical feedback, and maintain quality standards across the team's output.

  • Mentor junior and mid-level engineers, supporting their technical growth and career development.

  • Act as the primary technical point of contact for EOAT within the project team.

Cross-Functional Collaboration

  • Partner with robotics, software, and manufacturing teams to integrate EOAT into the broader automated disassembly system.

  • Communicate design status, risks, and dependencies to project leads and stakeholders.

  • Contribute to project planning with realistic engineering estimates and technical input.

  • Help resolve integration issues and unblock teams during implementation phases.

Process & Documentation

  • Maintain design documentation, BOMs, drawings, and revision history to engineering standards.

  • Establish best practices for EOAT design, testing protocols, and knowledge sharing within the team.

  • Support lessons-learned processes to continuously improve tooling reliability and development speed.


WHO YOU ARE

A hands-on mechanical engineer with deep expertise in kinematic design, mechanism synthesis, and actuation systems — and the technical leadership to drive execution in a fast-paced, hardware-intensive environment. You take full ownership of your workstream and know how to bring a team along with you. Specifically, you have:

  • Bachelor's degree in Mechanical Engineering or related field (Master's a plus).

  • 5–8 years of experience in mechanical design, with at least 2 years in a technical lead or team lead capacity.

  • Hands-on experience designing articulating mechanisms — grippers, compliant linkages, actuated systems, or similar.

  • Proficiency in CAD tools (SolidWorks, Fusion, or equivalent) and engineering analysis methods.

  • Experience with DFM and mechanical testing and validation processes.

  • Familiarity with automation systems, robotics integration, or microfactory environments is strongly preferred.

  • Strong communication skills and experience working in cross-functional product or project teams.

WHO WE ARE

We spend our days building robotic systems, developing complex assembly intelligence software, and designing the next generation of circular products for our customers. Given the importance of working hands-on with physical systems, we are a 100% in-person team collaboratively working in our industrial space in Sterling, VA, down the road from the largest data center market in the world. Our facility includes a variety of robots, CNC milling machines, 3D printers, and all the tools needed to build and test our products. It is important to us that anyone on our team that is interested in learning how to use our various pieces of equipment and machinery is taught and can gain the skills and appreciation for making physical things.

THING TO KNOW

  • We're a hands-on, collaborative team with big ambitions — expect full ownership and meaningful technical challenge from day one.

  • There's a good amount of context-switching. We expect people to be autonomous and drive their own work to completion.

  • This role grows with the company. As the microfactory program scales, there is a clear path to expanded team leadership and the opportunity to grow into a principal-level technical contributor.

  • We're scrappy and building a great, sustainable company for years to come. Priorities may shift as the business evolves — we give people the context and decision-making power to meet that head on.