Mechanical Design & Prototyping Engineer

Haast AutonomousPendleton, OR

About The Position

Haast Autonomous is building an autonomous aircraft network for time-sensitive medical logistics. We’re developing long-range VTOL aircraft, autonomy software, and the operational foundation needed to move critical payloads between hospitals, labs, and healthcare facilities on-demand faster and more reliably. We’re early, small, and moving quickly. Joining now means you'll have a direct role in shaping the foundation of Haast — our culture, engineering process, testing discipline, partner relationships, and the path from prototype to a real medical logistics network. We’re looking for high-agency people who want ownership, urgency, and system-level impact from day one. As a Mechanical Design & Prototyping Engineer at Haast, you’ll help design and build the physical aircraft systems that make our autonomous aircraft network possible, with a strong emphasis on tailoring solutions to customer needs and prototyping user-focused experiences. You’ll work across CAD, structures, prototyping, aircraft packaging, fixtures, payload integration, manufacturing, and flight-test support. This is a hands-on role focused on customer-first design, including design for manufacturing and usability. We’re looking for someone who can design a part, build it, install it, watch it fail, improve it, and get it ready for the next test—always with the end user and customer requirements in mind.

Requirements

  • Strong CAD skills in SolidWorks, Fusion 360, Onshape, CATIA, NX, or similar.
  • Experience building real hardware and iterating with customer feedback, not just designing it.
  • Good mechanical intuition around structures, load paths, fasteners, adhesives, vibration, packaging, manufacturability, and usability.
  • Comfortable working with 3D printing, composites, foam, carbon fiber, basic shop tools, and rapid prototyping in service of user-centered solutions.
  • Ability to move quickly without being sloppy, while maintaining customer-focused quality.
  • Strong ownership and initiative. You don’t wait around for perfect requirements and proactively engage with user-related challenges.
  • Good documentation habits so the team can actually track what changed and how it addresses customer needs.
  • Excitement to work in a startup environment where the aircraft, process, and company are all being built at the same time, centered on customer-driven design.

Nice To Haves

  • Experience with UAVs, RC aircraft, fixed-wing aircraft, VTOL aircraft, robotics, motorsports, or aerospace hardware.
  • Composite layup, vacuum bagging, mold design, or foam-core construction experience.
  • Experience with lightweight aircraft structures, spars, ribs, motor mounts, control surfaces, or landing gear.
  • Familiarity with aircraft CG, stability, vibration, thermal, avionics packaging, and user experience constraints.
  • Experience on a student design team, aerospace startup, robotics team, race team, or a fast-moving hardware project where customer feedback played a significant role.

Responsibilities

  • Design and develop airframes, structures, mechanisms, mounts, fixtures, and prototype hardware with a focus on user experience and customer requirements.
  • Own CAD for key airframe and mechanical systems, ensuring designs are manufacturable and tailored to customer use cases.
  • Design payload bays, landing gear, motor mounts, avionics mounts, access panels, covers, brackets, internal structure, and payload compartments optimized for user accessibility and operational efficiency.
  • Build prototypes using 3D printing, composites, foam, carbon fiber, hand tools, and other rapid fabrication methods, continuously iterating based on user testing and feedback.
  • Create detailed part drawings, assembly documentation, BOMs, and revision history focused on clarity and ease of use for manufacturing and customer support.
  • Work with avionics and controls engineers to package sensors, wiring, batteries, antennas, and payload interfaces that support real-world use scenarios.
  • Improve the aircraft for buildability, repairability, serviceability, usability, and repeatability.
  • Support aircraft assembly, pre-flight inspections, field repairs, post-test teardown, and customer-driven design changes.
  • Track mass properties, center of gravity, structural changes, manufacturing constraints, and customer impact.
  • Help move Haast from one-off prototypes toward aircraft hardware that can support a real autonomous medical logistics network, with customer experience at the core.
© 2026 Teal Labs, Inc
Privacy PolicyTerms of Service