
STARK · Munich
ABOUT US STARK is a new kind of defence technology company revolutionizing the way autonomous systems are deployed across multiple domains. We design, develop ...
STARK is a new kind of defence technology company revolutionizing the way autonomous systems are deployed across multiple domains.
We design, develop and manufacture high performance unmanned systems that are software-defined, mass-scalable, and cost effective.
This provides our operators with a decisive edge in highly contested environments.
We are focused on delivering deployable high-performance systems - not future promises. In a time of rising threats, STARK is
bolstering the technological edge of NATO Allies and their partners to deter aggression and defend Europe - today.
Mission Simulation is STARK’s digital proving ground — the tactical environment where our entire ecosystem of UAVs, surface
vessels, and EW systems converges. The Mission Simulation team is a small, specialized group based in Munich, working closely with
our platform and C2 teams to integrate all multi-domain assets into high-fidelity, Software-in-the-Loop simulators.
We move fast, ship realistic environments, and build for three core purposes: rigorous testing, high-stakes demos, and tactical
training. There is no room for gamification. We simulate the reality of combat — from complex swarm logic to EW degradation —
ensuring that developers can fail fast, and real soldiers can train safely before hitting the battlefield.
To create high‑quality, optimized 3D hard‑surface models with clean, efficient topology suitable for low‑poly use in production,
while generating bake maps (Normal, AO, Curvature) and photorealistic or stylized PBR textures that meet the project’s visual
standards. The role includes rigging and animation of vehicles and environmental assets, demonstrating strong understanding of
timing, weight, and physics. Ultimately, the mission is to import assets into the production pipeline, ensure seamless
integration, and troubleshoot visual or technical issues to maintain a stable, high‑fidelity asset ecosystem.
animations (locomotion, tactical movements, weapon handling, mechanical systems) within Blender.
correct bone mapping, runtime triggers, and full engine compatibility.
environmental elements to enhance simulation realism.
large‑scale VBS4 environments without compromising visual quality.
highly collaborative environment.
high‑value solutions.
continuously improving the asset pipeline.
or closely related fields, supported by a strong portfolio showcasing hard‑surface modelling, texturing, baking workflows, and
asset integration.
producing clean, engine‑ready animation data.
pipeline‑related tooling.
import, configuration, and runtime testing.
rendering pipelines.
or engine integration.
animation workflows.
ABOUT US STARK is a new kind of defence technology company revolutionising the way autonomous systems are deployed across multiple domains. We design, develop, and manufacture high-performance unmanned systems that are software-defined, mass-scalable, and cost-effective - providing operators with a decisive edge in contested environments. We are focused on delivering deployable, high-performance systems - not future promises. In a time of rising threats, STARK is bolstering the technological edge of NATO Allies and their Partners to deter aggression and defend Europe, today. YOUR MISSION As the Manufacturing Engineer, you will act as the vital bridge between R&D and mass production. Your primary focus is on Industrialization, Design for Manufacturing (DFM), and Risk Mitigation (FMEA). You will embed yourself with the R&D team early in the design phase to ensure that next-generation products are optimized for high-yield, cost-effective, and scalable manufacturing. RESPONSIBILITIES * DFM/DFA Integration: Collaborate closely with R&D during early design cycles. Conduct rigorous Design for Manufacturing (DFM) and Design for Assembly (DFA) reviews to simplify designs and prepare them for automated production. * FMEA Leadership: Lead and document Process Failure Mode and Effects Analysis (PFMEA) workshops to proactively identify manufacturing risks and implement effective mitigation strategies. * Industrialization: Own the manufacturing ramp-up during. Track and manage the transition from prototype builds to pilot runs and eventual mass production. * Quality & Validation: Define early-stage quality criteria, design assembly fixtures, and collaborate with quality teams to validate that production processes meet product specifications. * General ME Support: Provide technical feedback to R&D regarding manufacturing capabilities, tolerance stack-ups, and material selection impact on production. QUALIFICATIONS * Bachelor’s degree in Mechanical Engineering, Manufacturing Engineering, or a related field. * Proven track record in NPI/Industrialization environments, successfully transitioning products from engineering labs to the factory floor. * High proficiency in running PFMEAs and applying DFM/DFA principles. Strong 3D CAD skills (SolidWorks, Creo, etc.) are essential. For further information please reach out to talent@stark-defence.com.
ABOUT US STARK is a new kind of defence technology company, revolutionizing the way autonomous systems are deployed across multiple domains. We design, develop and manufacture high-performance unmanned systems that are software-defined, mass-scalable, and cost-effective. YOUR MISSION As our Werkstattmeister (Workshop Lead), you are the technical authority on the R&D shop floor. Your mission is to maintain a high-functioning prototyping environment that bridges the gap between digital design and physical testing. You will lead a small team of 3–4 technicians and act as the "gatekeeper" of our workshop standards. You balance the speed of R&D with the necessity of order: you ensure tools are returned, machines are respected, and safety is never compromised. You aren't just a supervisor; you are an enabler who provides the guidance and structure engineers need to build and test their designs effectively before they move into series production. RESPONSIBILITIES WORKSHOP MANAGEMENT & AUTHORITY * Ownership of the Floor: You define and enforce the standards for cleanliness, tool placement, and machine usage. You ensure the workshop remains organized enough to remain productive. * Asset Maintenance: You own the maintenance cycles for our CNC portal, manual lathe, and large 3D printing farm (FDM, Resin, and SLS/PA11). * Technical Guidance: You provide hands-on support and "over-the-shoulder" guidance to engineers. You ensure they use the equipment correctly and help them troubleshoot physical build issues. * Inventory & Sourcing: You manage the stock of R&D materials and hardware. You will be a key stakeholder in selecting and commissioning our future high-end metal CNC machinery. PROTOTYPING & ASSEMBLY * Execution: Lead the team in building complex prototypes, from UAV airframes to radio link towers and specialized test stands, supporting the Engineers that designed builds. * Additive Farm Oversight: Ensure the printing farm is running efficiently, prioritizing jobs based on R&D needs and ensuring the quality of high-strength PA11 SLS parts. * Process Transition: Help refine prototyping workflows so that designs can be successfully handed over to the production workshop. QUALIFICATIONS EXPERIENCE & EDUCATION * Certified Master Craftsman (Meister) or Senior Technician in a mechanical field (e.g., Feinwerkmechanik, Industriemechanik, Modellbau, or Aviation/Fluggerätmechanik). * Experience in a prototyping or R&D environment where you have managed both machines and people. TECHNICAL BACKGROUND * Machining: Strong hands-on experience with manual lathes and CNC machines (milling/portal). * Additive Manufacturing: Solid understanding of FDM and Resin processes. Practical experience with SLS (PA11) for functional parts is a strong advantage. * Familiar with CAD/CAM: Ability to work with CATIA / 3DEXPERIENCE to review designs to prepare manufacturing steps is a plus. * Standards: A background in aviation or defense-related manufacturing standards is a big plus. MINDSET & WORKING STYLE * The "Anchor" of the Shop: You have the confidence to enforce shop floor rules and ensure discipline regarding tools and safety, but you do it to help the team, not to hinder them. * Practical Leadership: You understand that R&D requires flexibility. You aim for a "clean-as-you-go" culture that supports speed rather than a rigid "sterile lab" mentality. * Quality & Pride: You take personal pride in the state of the workshop and the quality of the prototypes that leave it.
ABOUT US STARK is a new kind of defence technology company, revolutionizing the way autonomous systems are deployed across multiple domains. We design, develop and manufacture high-performance unmanned systems that are software-defined, mass-scalable, and cost-effective. YOUR MISSION As a Prototyping & Additive Manufacturing Technician, you are the "maker" who brings our digital designs into the physical world. Reporting to our Workshop/Prototyping Lead, you will be the primary operator of our R&D workshop equipment. Your mission is to be the go-to person for rapid part production. Whether it’s managing a high-volume FDM print job, post-processing a high-strength SLS part, or machining a custom aluminum fixture on the CNC portal, you ensure that our engineers have the parts they need to test and iterate. You are self-sufficient, hands-on, and thrive in an environment where every day brings a different technical challenge. RESPONSIBILITIES Additive Manufacturing & Print Farm Operations * Print Farm Management: Take ownership of our FDM and Resin printer fleet. You handle everything from slicing and starting jobs to routine maintenance. * SLS Production: Operate our large-scale SLS printer, managing the PA11 powder cycle and post-processing parts for high-strength applications. * Quality Control: Ensure that printed parts meet the required tolerances and functional needs of the R&D team. Machining & Prototyping * CNC & Manual Machining: Operate our CNC portal machine, laser cutter, and manual lathe to produce one-off parts, fixtures, and components for UAVs and test stands. * Rapid Prototyping: Support the assembly of complex sub-systems, such as radio link towers or launcher interfaces. * Shop Support: Assist the Master in keeping the workshop functional. This includes organizing small parts, maintaining tools, and ensuring raw materials are ready for the next job. Service & Efficiency * Task Execution: Efficiently manage a queue of "small jobs" (e.g., "machine this bracket," "print this housing") and provide realistic timelines to the engineering team. * Troubleshooting: Identify and solve issues with print failures or machining setups independently. QUALIFICATIONS Experience & Background * Technical Training: Completed vocational training as a Modellbauer, Industriemechaniker, Feinwerkmechaniker, or a similar technical field. * Hands-on Experience: Proven track record in a workshop environment, ideally with a mix of additive manufacturing and traditional machining. Technical Skills * Additive Expert: Deep interest and experience in 3D printing (FDM is a must; Resin and SLS are huge pluses). * Machinist Skills: Proficient in operating CNC machines and manual workshop tools. Experience with laser cutters is a benefit. * CAD/CAM Literacy is a plus: Ability to open designs in CATIA / 3DEXPERIENCE and use slicing/CAM software to prepare jobs * Manual Dexterity: You are "handy" and enjoy the fine details of assembling prototypes and finishing parts. Mindset & Working Style * Self-Sufficient: You see a job through from the initial request to the finished part with minimal supervision. * Adaptable: You enjoy the variety of R&D—one day you are post-processing PA11 parts, the next you are turning a shaft on the lathe. * Reliable: You understand that the engineering team depends on your speed and accuracy to hit their project milestones.