Product Designer (BIW)

edagengine
Full-timeβ€’India

πŸ“ Job Overview

Job Title: Product Designer (BIW)

Company: edagengine

Location: India

Job Type: Full-Time

Category: Product Design / Engineering Operations

Date Posted: 2026-05-13

Experience Level: Mid-Level (2-5 years)

Remote Status: On-site

πŸš€ Role Summary

  • Responsible for the creation and meticulous updating of 3D and 2D CAD data, specifically for Body-in-White (BIW) components, ensuring strict adherence to technical considerations and design integrity.

  • Executes design reviews, incorporates supplier feedback, and manages design changes effectively to maintain product development timelines and quality standards.

  • Applies deep understanding of Sheet Metal Forming, Joining, and Hemming Processes to optimize part design for manufacturability and assembly efficiency.

  • Conducts essential analyses including clash detection, assembly verification, and surface optimization to ensure seamless integration and functionality of automotive components.

  • Upholds Design for Manufacturability (DFM), Design for Assembly (DFA), and Design for Serviceability (DFS) guidelines throughout the product development lifecycle.

πŸ“ Enhancement Note: This role is deeply embedded within the engineering and manufacturing operations of an automotive Tier 1 supplier or OEM. The "BIW" designation signifies a focus on the structural framework of vehicles, requiring a strong understanding of automotive engineering principles and manufacturing processes. The "Product Designer" title, in this context, leans heavily towards CAD engineering and design for manufacturing rather than user interface or user experience design.

πŸ“ˆ Primary Responsibilities

  • Develop and maintain accurate 3D and 2D CAD data for BIW components such as Hood, Fender, Side Door, Tailgate, Roof, Underbody, and BodySide, adhering to technical specifications.

  • Implement design modifications based on feedback from design reviews, engineering teams, and supplier consultations, ensuring all changes are properly documented and integrated.

  • Analyze and resolve design conflicts through clash analysis and assembly verification in a digital mock-up (DMU) environment.

  • Optimize component surfaces to meet aesthetic, functional, and manufacturing requirements, ensuring compatibility with downstream processes.

  • Ensure all part designs comply with established OEM standards, corporate naming conventions, and product release protocols.

  • Provide timely and accurate CAD deliverables to support Concept Designers and Project Leads, facilitating efficient project progression.

  • Interpret and apply Master Sections provided by Concept Engineers to guide the design of new components and ensure system integration.

  • Understand and adhere to Packaging Guidelines and interface documents to ensure components fit within the vehicle architecture and do not interfere with other systems.

  • Apply fundamental knowledge of sheet metal part creation, including flanges, embosses, reliefs, and corner conditions, to design robust and manufacturable parts.

  • Integrate basic tooling constraints awareness (e.g., draft angles, parting lines, hemming feasibility) into the design process to mitigate manufacturing challenges.

  • Understand fastening concepts, joining methods (e.g., welding, riveting), and tolerance stack-up considerations for reliable component assembly.

  • Interpret and respond to basic CAE feedback related to stiffness, NVH (Noise, Vibration, Harshness), and crash performance requirements.

πŸ“ Enhancement Note: The responsibilities clearly indicate a hands-on CAD engineering role focused on the structural integrity and manufacturability of vehicle bodies. The emphasis on DFM/DFA/DFS, OEM standards, and specific BIW components points to a need for practical application of engineering principles in a production environment.

πŸŽ“ Skills & Qualifications

Education:

  • Bachelor's degree in Mechanical Engineering, Automotive Engineering, Manufacturing Engineering, or a related field.

Experience:

  • 2-5 years of professional experience in product design or CAD engineering, with a significant focus on automotive BIW or Hang-On components.

Required Skills:

  • Proficiency in 3D CAD Data Creation and 2D CAD Data Creation using industry-standard software.

  • Strong knowledge of Sheet Metal Forming, Joining, and Hemming Processes.

  • Demonstrated ability in performing Clash Analysis and Assembly Verification.

  • Practical understanding of DFM (Design for Manufacturability), DFA (Design for Assembly), and DFS (Design for Serviceability) principles.

  • Familiarity with BIW/Hang-On domain-specific components (e.g., Hood, Fender, Side Door, Tailgate, Roof, Underbody, BodySide).

  • Ability to interpret and work with Master Sections provided by Concept Engineers.

  • Understanding of Packaging Guidelines and interface documents.

  • Familiarity with Sheet Metal Design Guidelines and OEM standards.

  • Basic understanding of tooling constraints and fastening concepts.

  • Exposure to DMU checks and CAD structuring best practices.

Preferred Skills:

  • Experience with specific OEM standards and release rules.

  • Working knowledge of surface optimization techniques.

  • Familiarity with CAE input interpretation for stiffness, NVH, and crash.

  • Experience with CATIA V5, Siemens NX, or similar advanced CAD software.

  • Understanding of tolerance stack-up analysis.

πŸ“ Enhancement Note: The experience level and skill set suggest a candidate who can independently contribute to design tasks and understand complex manufacturing requirements. The emphasis on specific BIW components and processes implies a need for specialized knowledge within the automotive sector.

πŸ“Š Process & Systems Portfolio Requirements

Portfolio Essentials:

  • Showcase a minimum of two detailed case studies demonstrating the design and optimization of BIW components from concept to production-ready CAD.

  • Include examples of 3D CAD models and 2D drawings with clear annotations, dimensions, and GDT (Geometric Dimensioning and Tolerancing) where applicable.

  • Present evidence of applying DFM/DFA/DFS principles in your designs, explaining the rationale and impact on manufacturability or assembly.

Process Documentation:

  • Document your approach to interpreting and applying Master Sections and Packaging Guidelines in your design work.

  • Illustrate your understanding of Sheet Metal Part creation processes, including specific techniques for flanges, reliefs, and hemming.

  • Provide examples of how you have incorporated OEM standards and release rules into your CAD deliverables.

  • Explain your process for collaborating with Concept Designers and Project Leads, ensuring timely and accurate CAD deliverables.

πŸ“ Enhancement Note: A strong portfolio is critical for this role, as it provides tangible proof of the candidate's CAD skills, understanding of BIW manufacturing, and ability to apply design principles effectively. The emphasis on process documentation highlights the need for structured thinking and clear communication of technical workflows.

πŸ’΅ Compensation & Benefits

Salary Range:

Benefits:

  • Comprehensive health insurance coverage (medical, dental, vision).

  • Paid time off, including vacation days, sick leave, and public holidays.

  • Opportunities for professional development, including training programs and workshops.

  • Potential for performance-based bonuses or incentives.

  • Contribution to provident fund (PF) and other statutory benefits as per Indian labor laws.

Working Hours:

  • Standard working hours are typically 9:00 AM to 6:00 PM IST, Monday to Friday, totaling approximately 40 hours per week.

  • Flexibility may be required to meet project deadlines or collaborate with global teams.

πŸ“ Enhancement Note: The salary estimate is based on industry benchmarks for engineering roles in India with 2-5 years of experience, considering the specialized nature of BIW design. Benefits are typical for full-time positions in the Indian automotive manufacturing sector.

🎯 Team & Company Context

🏒 Company Culture

Industry: Automotive Engineering Services and Product Development. edagengine operates within the highly competitive automotive sector, focusing on providing specialized engineering solutions.

Company Size: edagengine is part of the EDAG Group, a global leader in automotive engineering. While the specific size of the edagengine India operations is not detailed, the parent group employs thousands worldwide, indicating substantial resources and a broad operational footprint. This suggests a structured environment with established processes.

Founded: The EDAG Group was founded in 1999. This long history implies a mature organization with deep industry expertise and a stable operational framework.

Team Structure:

  • The Product Design team likely comprises several CAD engineers and designers, specializing in different areas of vehicle development (e.g., BIW, interior, exterior, powertrain).

  • Reporting structure is expected to be hierarchical, with designers reporting to a Design Lead or Engineering Manager, who in turn reports to higher management.

Methodology:

  • Data-driven design decisions, utilizing CAD tools for precise modeling and analysis.

  • Agile or Waterfall project management methodologies, depending on the project phase and client requirements.

  • Emphasis on iterative design processes, incorporating feedback loops for continuous improvement.

  • Strict adherence to OEM standards and engineering best practices to ensure product quality and compliance.

Company Website: https://www.edag.com/

πŸ“ Enhancement Note: Operating within the EDAG Group provides edagengine with access to extensive automotive industry knowledge, global best practices, and a robust engineering infrastructure. This context suggests a professional and technically rigorous work environment.

πŸ“ˆ Career & Growth Analysis

Operations Career Level: This role is positioned as a Mid-Level Product Designer. It requires independent contribution to design tasks, problem-solving within defined parameters, and the ability to support senior engineers. The candidate is expected to be proficient in core CAD operations and possess a solid understanding of BIW manufacturing processes.

Reporting Structure: The Product Designer (BIW) will typically report to a BIW Design Lead or an Engineering Manager. They will work closely with Project Leads and Concept Engineers, receiving direction and providing regular updates on design progress and potential issues.

Operations Impact: The work of a BIW Product Designer directly impacts the structural integrity, safety, weight, and manufacturing cost of a vehicle. Accurate and optimized designs contribute to reduced material usage, efficient assembly, improved vehicle performance (e.g., crashworthiness, NVH), and ultimately, the overall success and competitiveness of the vehicle model. Efficient CAD deliverables streamline the entire product development lifecycle.

Growth Opportunities:

  • Specialization: Develop deeper expertise in specific BIW components (e.g., underbody structures, roof systems) or advanced manufacturing processes.

  • Senior Designer/Lead: Progress to a Senior Product Designer role, taking on more complex design challenges, mentoring junior designers, and leading specific design packages.

  • Engineering Management: Transition into roles like BIW Engineering Manager or Project Manager, overseeing design teams and project execution.

  • Cross-functional Roles: Move into related engineering fields such as CAE analysis, manufacturing engineering, or product development management.

  • Tool Proficiency: Become an expert in advanced CAD software features, surfacing techniques, or simulation tools.

πŸ“ Enhancement Note: The career path for a BIW Product Designer is well-defined within the automotive engineering sector. Growth is typically achieved through deepening technical expertise, taking on leadership responsibilities, or expanding into adjacent engineering disciplines.

🌐 Work Environment

Office Type: This is an on-site role, indicating a traditional office-based work environment within edagengine's facilities in India. This setup is typical for roles requiring direct access to workstations, specialized software, and in-person collaboration with colleagues and potentially client representatives.

Office Location(s): The role is based in India. Specific office locations within India are not detailed but are likely situated in industrial hubs or cities with a strong automotive presence.

Workspace Context:

  • Collaborative Environment: The workspace will facilitate close collaboration with other design engineers, CAE analysts, and project management teams. Regular team meetings and design reviews are expected.

  • Tools and Technology: Employees will have access to high-performance workstations equipped with specialized CAD software (e.g., CATIA V5, Siemens NX), PDM/PLM systems, and potentially other engineering simulation tools.

  • Team Interaction: Opportunities for direct interaction with team members for problem-solving, knowledge sharing, and mentorship are integral to the daily workflow.

Work Schedule: The standard work schedule is Monday to Friday, approximately 9:00 AM to 6:00 PM IST, with a focus on meeting project deadlines. Overtime may be required during peak project phases.

πŸ“ Enhancement Note: The on-site requirement is crucial for a role involving detailed CAD work and close team collaboration. Access to specific hardware and software is paramount for effective performance.

πŸ“„ Application & Portfolio Review Process

Interview Process:

  • Initial Screening: HR or a recruiter will conduct an initial call to assess basic qualifications, experience, and cultural fit.

  • Technical Interview: This will likely involve a discussion with a hiring manager or senior engineer. Be prepared to elaborate on your experience with BIW components, CAD software, DFM/DFA/DFS principles, and sheet metal processes.

  • CAD/Portfolio Review: You will be asked to present your portfolio, detailing specific BIW projects. Expect questions about your design choices, problem-solving approaches, and how you incorporated technical constraints.

  • Case Study/Technical Test (Potentially): A practical test or a short case study might be administered to assess your CAD skills and problem-solving abilities in real-time.

  • Final Interview: May involve discussions with higher management regarding career aspirations, team dynamics, and overall fit within the company culture.

Portfolio Review Tips:

  • Structure: Organize your portfolio logically, starting with your most relevant and impactful BIW projects. For each project, include an overview, your role, the challenges faced, your solutions, and the outcomes.

  • Visuals: Use high-quality renders of your 3D models and clear, annotated 2D drawings. Highlight key design features and technical details.

  • Process Explanation: Clearly articulate your design process, including how you interpreted requirements, applied DFM/DFA/DFS, conducted analyses, and collaborated with others.

  • Metrics: Quantify your achievements where possible (e.g., "reduced part weight by X%," "identified Y clashes that would have delayed assembly").

  • OEM Standards: Be ready to discuss how you have applied specific OEM standards or company-specific guidelines.

Challenge Preparation:

  • CAD Software: Refresh your skills in your primary CAD software (e.g., CATIA V5). Practice common operations related to sheet metal design, surface modeling, and assembly creation.

  • BIW Fundamentals: Review key BIW components, their functions, and common manufacturing processes (stamping, hemming, joining).

  • DFM/DFA/DFS: Prepare examples of how you have applied these principles to improve designs.

  • Problem-Solving: Think about common design challenges in BIW development and how you would approach solving them.

πŸ“ Enhancement Note: The interview process will heavily scrutinize technical proficiency and practical experience in BIW design. A well-prepared portfolio that clearly demonstrates the candidate's ability to handle complex engineering challenges is paramount.

πŸ›  Tools & Technology Stack

Primary Tools:

  • CAD Software: CATIA V5 is highly probable given OEM standards in automotive. Siemens NX is also a strong possibility. Proficiency in at least one is essential.

  • PDM/PLM Systems: Experience with Product Data Management (PDM) or Product Lifecycle Management (PLM) systems for managing CAD data and revisions (e.g., ENOVIA, Teamcenter).

  • Visualization Tools: Software for creating renders and potentially Digital Mock-Up (DMU) analysis.

Analytics & Reporting:

CRM & Automation:

  • Not directly applicable to this design role, but understanding how design data integrates into broader product development workflows is important.

πŸ“ Enhancement Note: Proficiency in industry-standard CAD software, particularly CATIA V5, is a non-negotiable requirement for this role, given the automotive context and OEM standards. Familiarity with PDM/PLM systems is also critical for managing design data effectively.

πŸ‘₯ Team Culture & Values

Operations Values:

  • Precision & Accuracy: A core value in engineering operations, ensuring all CAD data is exact and reliable for downstream processes.

  • Collaboration: Strong emphasis on teamwork, sharing knowledge, and working effectively with cross-functional teams (design, CAE, manufacturing).

  • Innovation & Continuous Improvement: Encouraging new ideas and methods to optimize designs, processes, and efficiency.

  • Quality & Compliance: Adherence to high standards of quality and strict compliance with OEM specifications and industry regulations.

  • Problem-Solving: A proactive approach to identifying and resolving technical challenges efficiently.

Collaboration Style:

  • Integrated Teamwork: Designers work closely with CAE engineers to validate designs and with manufacturing engineers to ensure manufacturability.

  • Feedback Culture: Open to constructive criticism and feedback during design reviews, used to refine designs.

  • Knowledge Sharing: Encouragement to share technical insights, best practices, and solutions within the team and potentially across departments.

πŸ“ Enhancement Note: The culture likely reflects the demanding nature of automotive engineering, emphasizing technical excellence, collaboration, and a commitment to delivering high-quality, compliant designs.

⚑ Challenges & Growth Opportunities

Challenges:

  • Complex Design Requirements: Balancing aesthetic, functional, structural, and manufacturing requirements for BIW components can be challenging.

  • OEM Standard Adherence: Navigating and consistently applying diverse and evolving OEM standards requires meticulous attention to detail.

  • Integration with CAE/Manufacturing: Effectively translating design intent into CAE simulations and ensuring manufacturability on the production floor requires strong interdisciplinary communication.

  • Tight Project Deadlines: Meeting aggressive timelines common in the automotive industry while maintaining design quality.

Learning & Development Opportunities:

  • Advanced CAD Training: Opportunities to master advanced features in CATIA V5 or other CAD software, including surfacing, complex assemblies, and automation scripting.

  • BIW Specialization: Deep dive into specific areas like crash structure design, lightweighting strategies, or advanced joining technologies.

  • Cross-functional Exposure: Gain insights into CAE analysis, manufacturing processes, and product development management.

  • Industry Certifications: Pursue certifications relevant to automotive design or specific CAD software expertise.

πŸ“ Enhancement Note: This role offers significant opportunities for technical growth within a specialized area of automotive engineering, with clear pathways for career advancement based on skill development and project experience.

πŸ’‘ Interview Preparation

Strategy Questions:

  • "Describe a challenging BIW component design you worked on. What were the key technical considerations, and how did you approach them?" (Focus on your process, problem-solving, and application of DFM/DFA/DFS.)

  • "How do you ensure your CAD deliverables meet strict OEM standards and naming conventions? Can you provide an example?" (Highlight your attention to detail and understanding of release processes.)

Company & Culture Questions:

  • "What interests you about working for edagengine and the automotive industry?" (Showcase your research and passion for automotive engineering.)

  • "How do you approach collaboration with CAE engineers or manufacturing teams whose feedback might challenge your design?" (Emphasize your ability to work cross-functionally and find optimal solutions.)

Portfolio Presentation Strategy:

  • Storytelling: For each project, tell a compelling story that highlights the problem, your role, your solution, and the positive outcome.

  • Technical Deep Dive: Be prepared to explain the technical intricacies of your designs, including material selection, process considerations, and specific CAD features used.

  • Clarity on DFM/DFA/DFS: Explicitly point out where and how you applied these principles and the benefits achieved.

  • Interactive Walkthrough: If possible, use screen-sharing to walk through your CAD models, pointing out key features and decision points.

πŸ“ Enhancement Note: Interviewers will be looking for a combination of strong technical CAD skills, a deep understanding of BIW manufacturing processes, and the ability to communicate complex technical information clearly and concisely.

πŸ“Œ Application Steps

To apply for this Product Designer (BIW) position:

  • Submit your application through the provided career portal link on careers.edag.com.

  • Customize Your Resume: Tailor your resume to highlight your experience with BIW components, specific CAD software (especially CATIA V5 if applicable), DFM/DFA/DFS principles, and sheet metal processes. Quantify achievements where possible.

  • Prepare Your Portfolio: Curate a portfolio showcasing your best BIW design projects. Ensure it includes 3D models, 2D drawings, and clear explanations of your design process, challenges, and solutions.

  • Research edagengine/EDAG Group: Understand their services, key projects, and company values. This will help you articulate your interest and cultural fit during the interview.

  • Practice Technical Explanations: Be ready to verbally walk through your portfolio projects, explaining design choices and problem-solving methodologies with confidence.

⚠️ 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.

Application Requirements

Requires deep knowledge of BIW/Hang-On components and sheet metal design guidelines, including forming and joining processes. Must be able to interpret master sections, packaging guidelines, and basic CAE feedback for stiffness and crash inputs.