PpLocation: Via Melen 83, 16152 Genoa, Italy /p pContract: Full-time, Permanent /p pLegga attentamente tutte le informazioni su questa opportunità, quindi utilizzi il pulsante di candidatura sottostante per inviare il suo CV. /p h3About Us /h3 pGenerative Bionics è una deep-tech company building humanoid robot platforms to deploy human-centered Physical AI. We design intelligent, capable machines that work alongside people in real-world environments — developed in Genova, Italy. /p h3Role /h3 pWe are looking for a talented and motivated Mechanical Designer to join our growing Hardware Engineering team. In this role, you will contribute directly to the design, prototyping, and iteration of mechanical components and subsystems for our humanoid robot platform. You will work closely with senior mechanical engineers and cross-functional teams spanning electronics, software, and AI to bring ambitious robotic designs from concept to physical reality. This is a unique early-career opportunity to work at the intersection of mechanical engineering and humanoid robotics within a fast-moving startup environment. You will gain hands‑on experience with advanced actuation systems, sensor integration, structural design for dynamic platforms, and Design for Manufacturing (DFM) skills that place you at the forefront of one of the most transformative industries of our time. /p h3Responsibilities /h3 ul liMechanical Design and CAD Modeling: Design and model mechanical components and assemblies for the humanoid robot using professional 3D CAD software (Creo, SolidWorks, CATIA or equivalent), producing detailed part models, assembly structures, and engineering drawings with proper GDT. /li liMechatronic Subsystem Development: Support the development and refinement of key mechatronic subsystems including actuation modules, joint mechanisms, structural frames, sensor housings, and cable management solutions. /li liPrototyping and Testing: Build, assemble, and test physical prototypes in our in-house lab, iterating rapidly on designs based on test data, team feedback, and real‑world performance observations. /li liEngineering Analysis: Perform basic engineering analyses (FEA, tolerance stack‑ups, weight/cost estimates) to validate design decisions and ensure components meet performance, durability, and safety requirements. /li liCross-Functional Collaboration: Collaborate with the electronics and software teams to ensure seamless electromechanical integration of sensors, actuators, PCBs, wiring harnesses, and communication interfaces within the robot architecture. /li liTechnical Documentation: Create and maintain clear, well‑organized technical documentation including design specifications, assembly instructions, Bill of Materials (BoM), and revision history. /li /ul h3Requirements /h3 ul liBachelor’s or Master’s degree in Mechanical Engineering, Mechatronics, Robotics, Biomedical Engineering, or a closely related field. /li liProficiency in at least one professional 3D CAD platform (Creo, SolidWorks, CATIA or equivalent) with the ability to create complex parts, assemblies, and production-quality drawings. /li liEngineering Fundamentals: Foundational knowledge of mechanical engineering principles: statics, dynamics, strength of materials, kinematics, and mechanism design. /li liBasic understanding of manufacturing processes such as CNC machining, 3D printing (FDM/SLA/SLS), sheet metal fabrication, and injection molding. /li liHands‑on Mindset: Willingness to work in the lab, build prototypes, troubleshoot physical assemblies, and iterate quickly. /li liStrong communication and teamwork skills, with the ability to work effectively in a multidisciplinary, fast‑paced startup environment. /li liFluent in English (written and spoken). /li liAvailability to travel nationally and internationally is expected. /li /ul h3Valued Extras /h3 ul liExperience with simulation and analysis tools (ANSYS, MATLAB, Simulink or equivalent) for FEA, dynamic simulation, or tolerance analysis. /li liPrevious exposure to robotics projects (academic, competition, or professional), particularly involving actuators, sensors, or locomotion systems. /li liFamiliarity with electromechanical integration concepts: motors, motor drivers, encoders, force/torque sensors. /li liAdvanced Materials: Experience with lightweight materials (composites, aluminium alloys) and structural optimization for weight-sensitive applications. /li liContributions to open‑source robotics projects or a personal portfolio of mechanical design work. /li /ul h3We Offer /h3 ul liCutting-Edge Technology: Work with one of the most advanced humanoid robotic platforms in Europe, integrating state-of-the-art actuation, sensor fusion, and Vision‑Language‑Action AI models. /li liGrowth: In a startup building from zero, your learning curve will be steep and your skill development rapid. You will gain exposure to the full product lifecycle, from early‑stage RD through Design for Manufacturing and production readiness. /li liEnvironment: An informal, fast‑paced, and meritocratic startup context driven by Agile methodologies. /li liCompensation: Competitive salary and contract commensurate with experience. /li /ul h3Disclaimer /h3 pWe are proud to be an Equal Opportunity Employer. We evaluate all qualified applicants solely on the basis of merit and business needs, without distinction or discrimination based on gender, race, color, ethnic or social origin, age, religion, sexual orientation, gender identity, disability, or any other characteristic protected by law. /p /p #J-18808-Ljbffr