Working Student / Intern – Vehicle Prototyping & Assembly, Driverless Vehicle Engineering (m/f/d)

📍 Job Overview

Job Title: Working Student / Intern – Vehicle Prototyping & Assembly, Driverless Vehicle Engineering (m/f/d)

Company: Bliq

Location: Berlin, Germany

Job Type: INTERN

Category: Engineering / Technical Operations

Date Posted: April 13, 2026

Experience Level: 0-2 Years (Internship/Entry-Level)

Remote Status: On-site

🚀 Role Summary

• This internship opportunity focuses on hands-on vehicle prototyping and assembly within the driverless vehicle engineering domain.

• The role involves direct participation in the fabrication, assembly, and testing of components and systems for advanced mobility platforms.

• It offers practical experience in a cutting-edge hardware development environment, bridging theoretical knowledge with real-world application.

• Successful candidates will be integral to the prototyping process, contributing to the iterative development of autonomous vehicle technology.

📝 Enhancement Note: This role is clearly an internship or working student position, indicating a focus on learning and development alongside practical contribution. The emphasis on "turning ideas into real, testable hardware" and "hands-on workshop environment" points to a role deeply embedded in the physical development lifecycle of a driverless vehicle. The "m/f/d" (männlich/weiblich/divers) designation is standard in German job postings, indicating inclusivity.

📈 Primary Responsibilities

• Support the fabrication of components using advanced manufacturing techniques like FDM and SLA 3D printing, alongside basic metalworking.

• Assist with surface finishing and post-processing of manufactured parts, including sanding, painting, and coating to meet quality standards.

• Contribute to the assembly of mechanical and electronic systems, including essential tasks such as soldering, crimping, wiring, and meticulous cable routing.

• Aid in the installation and testing of fabricated components and integrated systems onto vehicle platforms.

• Help in sourcing necessary parts and materials, and coordinate with external suppliers or workshops for specialized fabrication needs.

• Collaborate closely with engineering teams to provide feedback on designs, suggest improvements, and iterate on prototype development.

• Maintain and organize workshop tools, materials, and equipment to ensure a safe and efficient working environment.

• Participate actively in fast-paced, practical problem-solving for day-to-day development challenges.

📝 Enhancement Note: The responsibilities outline a comprehensive, hands-on experience in the physical development of autonomous vehicle components. This goes beyond simple assembly, encompassing fabrication, finishing, and integration, requiring a proactive and detail-oriented approach. The emphasis on collaboration with engineers highlights the importance of feedback loops in the prototyping lifecycle.

🎓 Skills & Qualifications

Education: Currently enrolled in a degree program such as mechanical engineering, automotive engineering, industrial design, mechatronics, electrical engineering, or a closely related technical field. Bachelor's degree level is expected.

Experience: First hands-on experience with prototyping, workshop assembly, or building technical projects is essential. This can include academic projects, personal builds, or previous internships.

Required Skills:

• Familiarity with 3D printing technologies (FDM, SLA) and common workshop tools.

• Basic experience with electronics work, including soldering, crimping, and wiring.

• Practical skills in mechanical assembly and component integration.

• Ability to perform surface finishing and post-processing tasks.

• Proficiency in cable routing and harness creation.

• Strong problem-solving skills and a hands-on approach to technical challenges.

• Meticulous attention to detail and ability to work independently.

Preferred Skills:

• Interest in cars, vehicle systems, or custom builds.

• Basic metalworking experience.

• Familiarity with automotive electrical systems.

• Experience working with engineering design software for visualization or basic modifications.

📝 Enhancement Note: The qualifications emphasize practical, hands-on skills and a foundational understanding of engineering principles relevant to physical product development. While formal experience is not extensive (as expected for an intern), a demonstrated aptitude for building and problem-solving is critical. The "m/f/d" designation suggests a broad appeal across all genders.

📊 Process & Systems Portfolio Requirements

Portfolio Essentials:

• Documentation of previous technical projects, showcasing hands-on fabrication and assembly work.

• Visual evidence of prototyping activities, including 3D prints, assembled components, and integrated systems.

• Examples demonstrating problem-solving in a technical context, showing the iterative design and build process.

• Photographs or descriptions of workshop environments or tools used.

Process Documentation:

• While formal process documentation is not expected at this level, candidates should be prepared to discuss their approach to organizing tasks, managing materials, and ensuring quality in their build processes.

• The ability to articulate how they would document steps taken during assembly or fabrication for future reference or team review will be beneficial.

📝 Enhancement Note: For an internship role, a formal portfolio might not be strictly required, but candidates are strongly encouraged to prepare examples of their practical work. This could include project photos, descriptions of personal builds, or academic project documentation that showcases their ability to turn designs into tangible results. The focus is on demonstrating practical skills and a methodical approach to building.

💵 Compensation & Benefits

Salary Range: As an intern position in Berlin, Germany, compensation will align with industry standards for working students and interns. Based on current market data for similar roles in tech/automotive in Berlin, a range of €12-18 per hour is typical, depending on the specific enrollment status and prior experience.

Benefits:

• Hands-on experience in a cutting-edge driverless vehicle project, offering invaluable exposure to advanced automotive technology.

• Close collaboration with experienced engineers and leadership, providing mentorship and learning opportunities.

• Flexible working environment, accommodating academic schedules where possible.

• Opportunity to be part of an international, dynamic, and highly motivated team.

• Chance to learn quickly and take on real responsibility from day one, contributing to meaningful project milestones.

Working Hours: Typically 20 hours per week during the semester, potentially increasing during semester breaks, aligning with typical working student regulations in Germany. The total expected working hours for a full-time equivalent role are 40 hours per week, but this position is part-time.

📝 Enhancement Note: Salary estimation is based on typical rates for student interns in technical fields in Berlin, Germany. The benefits highlight the practical learning and career development aspects crucial for an internship. The working hours are specified to reflect a typical part-time student role.

🎯 Team & Company Context

🏢 Company Culture

Industry: Technology / Automotive / Autonomous Systems. Bliq operates at the intersection of software and hardware development for the future of mobility, focusing on driverless vehicle solutions. This industry demands innovation, precision, and a strong collaborative spirit.

Company Size: Bliq is likely a growing startup or scale-up, given the dynamic nature of the driverless vehicle sector. This typically means a lean, agile team where individuals can have significant impact.

Founded: While not specified, the company's focus on cutting-edge technology suggests a relatively modern founding date, likely within the last decade, to be competitive in the driverless space.

Team Structure:

• The Vehicle Prototyping & Assembly team is likely composed of engineers, technicians, and potentially designers focused on the physical development of the vehicle platform.

• This role will report to a lead engineer or workshop manager responsible for the prototyping and assembly efforts.

Methodology:

• Emphasis on agile and iterative development processes, common in fast-paced tech environments.

• Data-driven decision-making, even in the physical prototyping phase, to inform design improvements.

• A strong focus on rapid prototyping and testing to accelerate the product development cycle.

Company Website: bliq.ai

📝 Enhancement Note: The company context is inferred from its industry and focus on driverless vehicles. This suggests a culture of innovation, rapid iteration, and a strong engineering ethos, typical of a tech startup in a highly competitive and evolving field.

📈 Career & Growth Analysis

Operations Career Level: This is an entry-level internship or working student position. It serves as a foundational step into technical roles within the automotive or robotics industry, specifically focusing on the physical development and integration aspects of complex systems.

Reporting Structure: The intern will report to a senior member of the engineering or workshop team, likely a Lead Engineer or Workshop Manager, who will provide guidance and oversee their tasks.

Operations Impact: While an intern's direct impact may be on specific components or sub-assemblies, their contribution is vital to the overall vehicle prototyping and assembly process. Their work directly enables engineers to test new hardware designs and systems, facilitating the iterative development that drives the driverless vehicle platform forward.

Growth Opportunities:

• Skill Development: Deepen practical skills in 3D printing, mechanical assembly, electronics integration, and workshop best practices.

• Industry Exposure: Gain firsthand experience in the rapidly evolving driverless vehicle industry and understand the challenges of bringing hardware prototypes to life.

• Networking: Build relationships with experienced engineers and professionals in a cutting-edge tech field.

• Potential for Future Roles: Strong performance and demonstrated aptitude could lead to future internship opportunities or even entry-level positions upon graduation, depending on company needs and the intern's development.

📝 Enhancement Note: The growth analysis is framed around the typical trajectory of an internship, focusing on skill acquisition, industry exposure, and the potential for future career development within the company or the broader autonomous vehicle sector.

🌐 Work Environment

Office Type: Bliq likely operates from a modern office space that includes dedicated workshop areas for prototyping and assembly. This environment is designed to foster collaboration between engineers and hands-on builders.

Office Location(s): The primary location is Berlin, Germany, a hub for technology and innovation. Specific office details would be available upon inquiry.

Workspace Context:

• Collaborative Environment: The workspace will facilitate close interaction with engineers and fellow team members, encouraging knowledge sharing and joint problem-solving.

• Tools & Technology: Access to a well-equipped workshop with various prototyping tools, including 3D printers, hand tools, power tools, and potentially basic machining equipment.

• Team Interaction: Opportunities for direct communication and feedback loops with the engineering team responsible for hardware design and system integration.

Work Schedule: Flexible working hours are offered, typically accommodating academic schedules for working students. While the role is on-site, flexibility in scheduling is a key benefit.

📝 Enhancement Note: The work environment description emphasizes a blend of office-based collaboration and hands-on workshop activity, common in hardware development roles. The mention of flexibility is a significant draw for student positions.

📄 Application & Portfolio Review Process

Interview Process:

• Initial Screening: A review of your application, resume, and any provided portfolio materials (or discussion of relevant projects).

• Technical Interview: This may involve a discussion about your hands-on experience, understanding of workshop tools, and familiarity with prototyping and assembly processes. You might be asked to walk through a past project.

• Workshop/Practical Assessment (Potential): Depending on the role's specifics, there might be a small practical exercise or a discussion about how you would approach a given assembly or fabrication task.

• Team Fit Interview: An opportunity to meet with potential team members and discuss your enthusiasm for driverless technology and your ability to work in a dynamic team.

Portfolio Review Tips:

• Show, Don't Just Tell: If you have photos or videos of past projects (e.g., 3D prints, assembled electronics, custom builds), have them ready.

• Focus on Process: Be prepared to explain how you tackled a project, the challenges you faced, and how you overcame them. This demonstrates your problem-solving skills.

• Highlight Relevant Skills: Emphasize any experience with 3D printing, soldering, wiring, assembly, or workshop tools.

• Articulate Your Interest: Clearly express your passion for driverless vehicles and your eagerness to learn and contribute.

Challenge Preparation:

• Brush up on basic mechanical assembly principles, soldering techniques, and the capabilities of different 3D printing methods.

• Be ready to discuss how you would approach troubleshooting a simple assembly issue or selecting the right material/method for a prototype part.

📝 Enhancement Note: The interview process and portfolio review are tailored to assess practical skills and enthusiasm for a hands-on technical role. Candidates should be ready to demonstrate their capabilities and passion for the field.

🛠 Tools & Technology Stack

Primary Tools:

• 3D Printers: FDM (Fused Deposition Modeling) and SLA (Stereolithography) printers for rapid prototyping.

• Workshop Tools: Hand tools (screwdrivers, wrenches, pliers), power tools (drills, sanders), soldering irons, crimping tools.

• Basic Metalworking Equipment: Potentially including saws, files, or small grinding tools.

• Measurement Tools: Calipers, rulers, multimeters.

Analytics & Reporting: Not directly applicable for this hands-on role, but basic data recording for test results might be involved.

CRM & Automation: Not directly applicable.

📝 Enhancement Note: This section focuses on the tangible tools and equipment used in a prototyping and assembly workshop environment, directly relevant to the core responsibilities of the role.

👥 Team Culture & Values

Operations Values:

• Innovation & Agility: Embracing new ideas and adapting quickly to evolving project needs, crucial in the fast-paced driverless vehicle sector.

• Precision & Quality: A commitment to meticulous work in fabrication and assembly to ensure reliable prototypes.

• Collaboration: Working effectively within the team and across departments to achieve common goals.

• Continuous Learning: A proactive approach to acquiring new skills and knowledge, essential for staying at the forefront of technology.

Collaboration Style:

• Open communication and knowledge sharing are encouraged.

• A hands-on, problem-solving approach where team members support each other.

• Direct feedback loops between engineering and prototyping teams to accelerate iteration.

📝 Enhancement Note: The culture and values are inferred from the tech/automotive industry and the nature of a startup environment, emphasizing innovation, collaboration, and a strong work ethic.

⚡ Challenges & Growth Opportunities

Challenges:

• Working with cutting-edge, potentially unproven driverless vehicle technologies that may require novel solutions.

• Managing multiple prototyping and assembly tasks simultaneously in a fast-paced environment.

• Adapting to design changes and iterating quickly based on engineering feedback.

Learning & Development Opportunities:

• Gain practical expertise in advanced prototyping techniques (3D printing, finishing).

• Develop strong mechanical and electrical assembly skills applicable to complex systems.

• Understand the integration challenges of hardware components within a larger vehicle system.

• Exposure to the development lifecycle of innovative automotive technology.

📝 Enhancement Note: Challenges are framed around the inherent complexities of working in a cutting-edge field, while growth opportunities highlight the direct skill development and industry exposure this internship offers.

💡 Interview Preparation

Strategy Questions:

• "Describe a time you built something technical. What were the biggest challenges, and how did you solve them?" (Focus on your process, problem-solving, and hands-on experience.)

• "How would you approach assembling a complex mechanical part with tight tolerances?" (Demonstrate your understanding of precision and methodical assembly.)

• "If a 3D print didn't turn out as expected, what steps would you take to diagnose and fix the issue?" (Showcase your troubleshooting skills for prototyping.)

Company & Culture Questions:

• Research Bliq's mission and recent developments in the driverless vehicle space.

• Be prepared to discuss how your skills and interests align with a fast-paced, innovative startup culture.

Portfolio Presentation Strategy:

• If you have a portfolio, be ready to walk through 1-2 key projects.

• Highlight your specific role, the challenges, your solutions, and the outcome.

• For each project, emphasize the practical skills you utilized (e.g., design, fabrication, assembly, testing).

📝 Enhancement Note: Interview preparation advice is geared towards assessing practical skills, problem-solving abilities, and genuine interest in the company and its mission.

📌 Application Steps

To apply for this operations position:

• Submit your application through the provided link on the Bliq careers page.

• Prepare your resume: Highlight any relevant technical projects, workshop experience, skills in 3D printing, soldering, or assembly. Quantify achievements where possible.

• Curate your project examples: If you have a portfolio or can describe relevant projects, be ready to discuss them in detail, focusing on your hands-on contribution and problem-solving.

• Research Bliq: Understand their mission, technology, and the role of hardware in their driverless vehicle development.

• Practice articulating your interest: Be ready to explain why you are passionate about this specific internship and the driverless vehicle industry.

⚠️ Important Notice: This enhanced job description includes AI-generated insights and operations industry-standard assumptions. All details should be verified directly with the hiring organization before making application decisions.

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