LA
Senior Mechanisms Engineer
Accepting applicationsLux Aeterna · Denver, CO
Full-Time Mid_senior aiatecadencerf
Posted
21 May
Category
Test
Experience
Mid_senior
Country
United States
The Mission
Space is the infrastructure layer for humanity’s next industrial revolution. While reusable rockets have opened the door, true economic transformation requires orbital logistics that is as accessible and reliable as commercial aviation. At Lux Aeterna, we’re building that future by developing the first fully reusable satellite platform built for reliable reentry, recovery, and rapid redeployment, transforming space from a one-way street into a two-way highway for innovation and commerce
The Opportunity
We are seeking an exceptional Senior Mechanisms Engineer to take end-to-end ownership of spacecraft mechanical systems and moving hardware; not just their design, but their operational performance through launch, orbit, return, refurbishment, and re-flight.
This role exists to produce real flight hardware that deploys, actuates, seals, separates, latches, releases, survives, and operates repeatedly in the harsh realities of spaceflight. Documentation and analysis will support that mission, but the ultimate measure of success is hardware that works reliably in the real world.
You will deliver robust, reusable spacecraft mechanisms capable of repeated missions at high cadence. The role spans deployable systems, hinges, latches, release systems, actuators, thermal-mechanical interfaces, tooling, test equipment, and whatever else is required to make the vehicle function as a complete system.
This is a unique opportunity to:
Own spacecraft mechanisms from first concept through flight operations and re-flight
Design moving flight hardware, deployment systems, actuators, interfaces, and mechanical subsystems for a reusable spacecraft
Debug real hardware failures and rapidly close the loop through redesign and iteration
Participate directly in build, integration, environmental testing, flight operations, recovery, and refurbishment
Work in a rapid hardware development environment where designs quickly become flight articles
The Role
You are the responsible engineer for mechanisms and moving hardware that flies. When the vehicle is on the pad, in orbit, re-entering, or back in refurbishment, you own how your systems behave.
Responsibilities include:
Designing and delivering spacecraft mechanisms, deployable systems, actuation systems, and supporting flight hardware
Managing trade studies, supplier strategy, and ownership of design/build/deploy schedules, milestones, and blockers
Owning hardware through manufacturing, assembly, integration, test, flight, recovery, inspection, and re-flight
Creating tooling, fixtures, test equipment, and GSE necessary to validate and operate spacecraft mechanisms
Defining functional requirements, load paths, tolerances, life-cycle behavior, and failure modes of mechanical systems
Performing tolerance analysis, mechanism sizing, and dynamic assessments to ensure reliable operation across all mission environments
Leading build and integration activities and resolving real-time hardware issues
Defining and executing qualification and acceptance testing for moving flight hardware
Investigating anomalies and implementing corrective design changes
Managing interfaces across structures, avionics, thermal, propulsion, and vehicle integration teams
Iterating hardware based on test and flight data to improve reliability, operability, and turnaround time
Required Qualifications
BS in Mechanical Engineering or equivalent
5+ years developing flight mechanical systems with direct responsibility for hardware performance on satellites, deployment systems, launch vehicles, or hypersonics
Hands-on experience designing, building, integrating, and troubleshooting mechanical systems
Demonstrated ownership of hardware through environmental testing and flight operations
Strong intuition for mechanical system behavior, tolerance stack-up, friction, wear, preload, and failure modes under real operating conditions
Experience designing mechanisms, deployment systems, latching systems, hinges, release devices, or actuation systems
Strong GD&T capability (ASME Y14.5)
Proficiency in 3D CAD (Siemens NX preferred)
Experience selecting materials, bearings, lubricants, coatings, and manufacturing processes for aerospace hardware
Ability to operate effectively in fast build-test-iterate environments
Desired Experience
Spacecraft mechanisms or deployable flight systems
Separation systems, release mechanisms, or docking interfaces
Vacuum-compatible mechanical design and tribology
Thermal distortion and tolerance-sensitive assemblies
Pyroshock, vibration, and dynamic deployment environments
Designing tooling and production fixtures
Precision assemblies and alignment-sensitive hardware
Reusable flight systems or refurbishment operations
SMC-S-016 and/or NASA GEVS environments
Early-stage hardware startup experience
We are based in Denver, CO and believe in the power of in-person collaboration. We are onsite 5 days/week by default, but flexible when life requires it.
Certain roles may involve access to export-controlled technical data. To comply with U.S. export-control laws, access may be limited to individuals who qualify as a “U.S. person” under 22 C.F.R. §120.62 or who otherwise may lawfully receive such access.
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Space is the infrastructure layer for humanity’s next industrial revolution. While reusable rockets have opened the door, true economic transformation requires orbital logistics that is as accessible and reliable as commercial aviation. At Lux Aeterna, we’re building that future by developing the first fully reusable satellite platform built for reliable reentry, recovery, and rapid redeployment, transforming space from a one-way street into a two-way highway for innovation and commerce
The Opportunity
We are seeking an exceptional Senior Mechanisms Engineer to take end-to-end ownership of spacecraft mechanical systems and moving hardware; not just their design, but their operational performance through launch, orbit, return, refurbishment, and re-flight.
This role exists to produce real flight hardware that deploys, actuates, seals, separates, latches, releases, survives, and operates repeatedly in the harsh realities of spaceflight. Documentation and analysis will support that mission, but the ultimate measure of success is hardware that works reliably in the real world.
You will deliver robust, reusable spacecraft mechanisms capable of repeated missions at high cadence. The role spans deployable systems, hinges, latches, release systems, actuators, thermal-mechanical interfaces, tooling, test equipment, and whatever else is required to make the vehicle function as a complete system.
This is a unique opportunity to:
Own spacecraft mechanisms from first concept through flight operations and re-flight
Design moving flight hardware, deployment systems, actuators, interfaces, and mechanical subsystems for a reusable spacecraft
Debug real hardware failures and rapidly close the loop through redesign and iteration
Participate directly in build, integration, environmental testing, flight operations, recovery, and refurbishment
Work in a rapid hardware development environment where designs quickly become flight articles
The Role
You are the responsible engineer for mechanisms and moving hardware that flies. When the vehicle is on the pad, in orbit, re-entering, or back in refurbishment, you own how your systems behave.
Responsibilities include:
Designing and delivering spacecraft mechanisms, deployable systems, actuation systems, and supporting flight hardware
Managing trade studies, supplier strategy, and ownership of design/build/deploy schedules, milestones, and blockers
Owning hardware through manufacturing, assembly, integration, test, flight, recovery, inspection, and re-flight
Creating tooling, fixtures, test equipment, and GSE necessary to validate and operate spacecraft mechanisms
Defining functional requirements, load paths, tolerances, life-cycle behavior, and failure modes of mechanical systems
Performing tolerance analysis, mechanism sizing, and dynamic assessments to ensure reliable operation across all mission environments
Leading build and integration activities and resolving real-time hardware issues
Defining and executing qualification and acceptance testing for moving flight hardware
Investigating anomalies and implementing corrective design changes
Managing interfaces across structures, avionics, thermal, propulsion, and vehicle integration teams
Iterating hardware based on test and flight data to improve reliability, operability, and turnaround time
Required Qualifications
BS in Mechanical Engineering or equivalent
5+ years developing flight mechanical systems with direct responsibility for hardware performance on satellites, deployment systems, launch vehicles, or hypersonics
Hands-on experience designing, building, integrating, and troubleshooting mechanical systems
Demonstrated ownership of hardware through environmental testing and flight operations
Strong intuition for mechanical system behavior, tolerance stack-up, friction, wear, preload, and failure modes under real operating conditions
Experience designing mechanisms, deployment systems, latching systems, hinges, release devices, or actuation systems
Strong GD&T capability (ASME Y14.5)
Proficiency in 3D CAD (Siemens NX preferred)
Experience selecting materials, bearings, lubricants, coatings, and manufacturing processes for aerospace hardware
Ability to operate effectively in fast build-test-iterate environments
Desired Experience
Spacecraft mechanisms or deployable flight systems
Separation systems, release mechanisms, or docking interfaces
Vacuum-compatible mechanical design and tribology
Thermal distortion and tolerance-sensitive assemblies
Pyroshock, vibration, and dynamic deployment environments
Designing tooling and production fixtures
Precision assemblies and alignment-sensitive hardware
Reusable flight systems or refurbishment operations
SMC-S-016 and/or NASA GEVS environments
Early-stage hardware startup experience
We are based in Denver, CO and believe in the power of in-person collaboration. We are onsite 5 days/week by default, but flexible when life requires it.
Certain roles may involve access to export-controlled technical data. To comply with U.S. export-control laws, access may be limited to individuals who qualify as a “U.S. person” under 22 C.F.R. §120.62 or who otherwise may lawfully receive such access.
Show more Show less