Product Designer (BIW)

📍 Job Overview

Job Title: Product Designer (BIW)

Company: edagengine

Location: Pune, Maharashtra, India

Job Type: Full-Time

Category: Product Design / Engineering

Date Posted: May 13, 2026

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

Remote Status: On-site

🚀 Role Summary

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

• Perform critical clash analysis, assembly verification, and surface optimization to guarantee seamless integration and functionality of BIW parts.

• Apply Design for Manufacturing (DFM), Design for Assembly (DFA), and Design for Service (DFS) principles throughout the part construction process.

• Collaborate closely with Concept Designers and Project Leads to deliver accurate and compliant CAD deliverables, facilitating efficient project progression.

• Develop a deep understanding of BIW/Hang-On domain-specific components, including Hoods, Fenders, Side Doors, Tailgates, Roofs, Underbodies, and Body Sides.

📝 Enhancement Note: The role title "Product Designer (BIW)" and the detailed responsibilities strongly indicate a focus on automotive engineering, specifically within the Body-in-White (BIW) domain. The emphasis on CAD data creation, DFM/DFA/DFS, sheet metal processes, and BIW component knowledge solidifies this. The "2-5 years" experience level suggests a mid-level individual contributor role.

📈 Primary Responsibilities

• Create and update 3D and 2D CAD data for BIW components, incorporating technical considerations from design reviews and supplier feedback.

• Conduct thorough clash analysis and assembly verification to identify and resolve potential integration issues early in the design cycle.

• Optimize component surfaces to enhance performance, manufacturability, and aesthetic appeal.

• Implement DFM/DFA/DFS guidelines during part construction to ensure ease of manufacturing, assembly, and serviceability.

• Adhere strictly to OEM standards, naming conventions, and release rules for all CAD deliverables.

• Support Concept Designers and Project Leads by providing accurate and timely CAD data.

• Interpret master sections provided by Concept Engineers to guide component design.

• Ensure designs comply with packaging guidelines and interface documents.

• Apply knowledge of sheet metal part creation, including flanges, embosses, reliefs, and corner conditions.

• Understand and apply sheet metal design guidelines and OEM-specific standards.

• Analyze and understand basic tooling constraints such as draft, parting lines, and hemming feasibility.

• Understand fastening concepts, joining methods, and their impact on tolerance considerations.

• Perform DMU (Digital Mock-Up) checks and CAD structuring for complex assemblies.

• Understand and integrate basic feedback from CAE (Computer-Aided Engineering) analysis regarding stiffness, NVH (Noise, Vibration, and Harshness), and crash performance.

📝 Enhancement Note: The responsibilities listed are highly specific to automotive BIW design. The emphasis on detailed CAD work, adherence to standards, and collaboration with engineering disciplines like CAE points to a role requiring technical precision and a strong understanding of the automotive product development lifecycle.

🎓 Skills & Qualifications

Education:

Experience:

• 2 to 5 years of professional experience in product design, with a significant focus on Body-in-White (BIW) components within the automotive sector.

• Proven experience in 3D CAD data creation and 2D CAD data creation.

Required Skills:

• Proficiency in 3D CAD software (e.g., CATIA V5, Siemens NX) for BIW component design.

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

• Expertise in performing Clash Analysis and Assembly Verification.

• Ability to optimize surfaces for functional and manufacturing requirements.

• Familiarity with OEM standards, naming conventions, and release processes.

• Knowledge of BIW/Hang-On domain-specific components (Hood, Fender, Side Door, Tailgate, Roof, Underbody, BodySide).

• Ability to read and interpret Master Sections and interface documents.

• Understanding of Packaging Guidelines.

• Knowledge of Sheet Metal Part creation techniques (flanges, embosses, reliefs, corner conditions).

• Familiarity with basic tooling constraints (draft, parting, hemming feasibility).

• Understanding of fastening concepts and joining methods.

• Experience with DMU checks and CAD structuring.

Preferred Skills:

• Experience with specific OEM design standards and processes.

• Familiarity with CAE pre-processing requirements.

• Exposure to tolerance analysis and stack-up studies.

• Experience with data management systems (e.g., PDM/PLM).

📝 Enhancement Note: The required skills are highly technical and specific to automotive BIW engineering. Proficiency in industry-standard CAD software is implicitly expected given the nature of the role. The experience level aligns with the detailed technical requirements.

📊 Process & Systems Portfolio Requirements

Portfolio Essentials:

• Showcase a minimum of 2-3 detailed case studies demonstrating successful BIW component design projects.

• Each case study should clearly outline the design challenge, your specific role and contributions, the design process followed, and the final outcome.

• Highlight your proficiency in 3D CAD modeling, specifically for sheet metal components within the automotive context.

• Demonstrate your understanding and application of DFM/DFA/DFS principles, illustrating how these were integrated into your designs.

Process Documentation:

• For each portfolio project, be prepared to discuss:

  • The workflow from concept to final CAD deliverable.

  • How you managed design reviews, feedback incorporation, and iteration cycles.

  • Your methods for ensuring accuracy in 3D and 2D data creation.

  • How you performed clash analysis and assembly verification.

  • Your approach to optimizing surfaces and ensuring manufacturability.

  • Documentation of adherence to specific packaging and interface requirements.

📝 Enhancement Note: For a design role, a portfolio is crucial. The prompt specifically asks for BIW components, DFM/DFA/DFS, and CAD data creation. The portfolio should reflect these elements with clear examples of problem-solving and technical execution.

💵 Compensation & Benefits

Salary Range:

Benefits:

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

• Paid time off (vacation, sick leave, public holidays).

• Retirement savings plan or provident fund contribution.

• Professional development opportunities, including training and workshops.

• Potential for performance-based bonuses.

• Access to company-provided software licenses and design tools.

Working Hours:

• Standard full-time employment, typically 40 hours per week.

• Working hours are generally aligned with Indian Standard Time (IST), Monday to Friday.

• Occasional overtime may be required to meet project deadlines.

📝 Enhancement Note: Salary research for Pune, India, for a mid-level design engineer in the automotive sector indicates a range that reflects the specified experience. Benefits are standard for a full-time engineering role.

🎯 Team & Company Context

🏢 Company Culture

Industry: Automotive Engineering Services, Product Development, Design & Consulting.

Company Size: edagengine is part of the EDAG Group, a global leader in automotive engineering. The EDAG Group employs over 8,500 people worldwide, indicating a large, established, and experienced organization. This size suggests a structured environment with access to extensive resources and a wide range of expertise.

Founded: The EDAG Group was founded in 1999. This history points to a company with significant experience and a well-established reputation in the automotive industry.

Team Structure:

• The Product Designer (BIW) will likely be part of a larger BIW engineering team or a dedicated product development group.

• This team will consist of engineers with specialized knowledge in BIW, potentially including Concept Engineers, Senior Designers, CAE Engineers, and Project Leads.

• Collaboration will be cross-functional, involving designers, engineers from other domains (e.g., chassis, powertrain), manufacturing specialists, and potentially client representatives.

Methodology:

• The team likely employs agile or waterfall methodologies adapted for automotive product development, focusing on structured design processes, rigorous reviews, and data-driven decision-making.

• Emphasis on CAD data integrity, adherence to master sections, and integration with CAE simulations for validation.

• Continuous improvement through feedback loops from design reviews, supplier input, and CAE results.

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

📝 Enhancement Note: Given edagengine is part of the EDAG Group, the company culture will likely reflect the established practices of a major automotive engineering service provider – professional, structured, and focused on technical excellence and client delivery.

📈 Career & Growth Analysis

Operations Career Level: This role is positioned as a Mid-Level Product Designer (2-5 years of experience). It involves significant individual contribution with a focus on executing detailed design tasks and contributing to project milestones. The scope is focused on specific BIW components and their integration within larger vehicle structures.

Reporting Structure: The designer will report to a Design Lead or a BIW Engineering Manager. They will collaborate with Concept Engineers, Project Leads, and potentially CAE engineers and manufacturing specialists.

Operations Impact: The Product Designer's work directly impacts the manufacturability, assembly efficiency, structural integrity, safety (crash performance), and overall cost of the vehicle's body structure. Accurate and optimized BIW designs are foundational to the vehicle's performance and production feasibility.

Growth Opportunities:

• Specialization: Deepen expertise in specific BIW components (e.g., underbody structures, door systems) or advanced areas like lightweight materials or sustainable design.

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

• Lead Engineer: Transition into a Lead Engineer or Design Lead position, responsible for managing design teams, overseeing project deliverables, and interfacing directly with clients.

• Cross-Functional Roles: Move into roles in CAE, manufacturing engineering, or project management within the automotive domain.

• Further Education/Certifications: Pursue advanced certifications in CAD software, automotive design, or specific engineering disciplines.

📝 Enhancement Note: The career path for a product designer in automotive engineering is typically well-defined, moving from individual contributor to team leadership or specialized technical expert roles. Growth is driven by technical mastery and project management capabilities.

🌐 Work Environment

Office Type: The role is on-site, indicating a professional office environment typical for engineering firms, likely featuring open-plan workstations, meeting rooms, and collaboration spaces.

Office Location(s): Pune, Maharashtra, India. This location is a significant hub for the automotive industry in India, offering a rich ecosystem of suppliers, manufacturers, and engineering talent.

Workspace Context:

• Access to high-performance workstations equipped with industry-standard CAD software (e.g., CATIA V5, NX) and other design tools.

• Collaborative spaces designed for team meetings, design reviews, and brainstorming sessions.

• Proximity to other engineering departments (e.g., CAE, packaging, manufacturing) to facilitate seamless cross-functional communication and problem-solving.

• A professional atmosphere focused on technical precision, innovation, and client project delivery.

Work Schedule: Standard working hours are expected, typically Monday to Friday, with potential for occasional overtime to meet project deadlines. Flexibility may be offered depending on company policy, but the on-site nature implies consistent office presence.

📝 Enhancement Note: An on-site engineering role in a major automotive hub like Pune implies a structured, collaborative, and technologically equipped environment focused on delivering complex engineering solutions.

📄 Application & Portfolio Review Process

Interview Process:

1. Initial Screening: HR or Recruiter will review your resume for basic qualifications and experience.

2. Technical Interview 1: Likely with a Design Lead or Senior Engineer. Focus on CAD skills, BIW knowledge, DFM/DFA/DFS principles, and understanding of sheet metal processes. Expect theoretical questions and potentially a quick CAD exercise.

3. Portfolio Review: A dedicated session to walk through your design portfolio. Be prepared to discuss your projects in detail, focusing on your contributions, design decisions, process adherence, and problem-solving approaches.

4. Technical Interview 2 / Team Fit: May involve further technical depth, discussion of CAE feedback integration, or assessment of your ability to collaborate within a team.

5. Final Interview: Potentially with a hiring manager or department head, focusing on overall fit, career aspirations, and cultural alignment.

Portfolio Review Tips:

• Curate Strategically: Select 2-3 strong BIW design projects that best showcase your skills in 3D/2D CAD, sheet metal design, DFM/DFA/DFS, and adherence to OEM standards.

• Quantify Impact: Where possible, highlight the positive outcomes of your designs (e.g., improved manufacturability, reduced part count, successful integration).

• Explain Your Role: Clearly articulate your specific contributions to each project, especially if it was a team effort.

• Process Clarity: Be ready to explain your design process step-by-step, including how you interpreted requirements, made decisions, and handled challenges.

• Visuals are Key: Use clear screenshots, renderings, and potentially short animations to illustrate your CAD work.

• Prepare for Questions: Anticipate questions about your CAD software proficiency, understanding of tooling constraints, and how you incorporate CAE feedback.

Challenge Preparation:

• CAD Fundamentals: Brush up on core CAD operations, including part modeling, surface modeling, assembly creation, and drawing generation.

• BIW Specifics: Review common BIW components, their functions, and typical manufacturing considerations (e.g., stamping, welding, hemming).

• DFM/DFA/DFS Scenarios: Think about common design flaws related to manufacturing, assembly, or serviceability and how you would address them.

• Problem-Solving: Prepare to discuss how you approach technical challenges, from initial analysis to solution implementation.

📝 Enhancement Note: The interview process for a specialized design role like this will heavily emphasize practical skills and technical knowledge demonstrated through a portfolio. Candidates should be ready to discuss their work in depth.

🛠 Tools & Technology Stack

Primary Tools:

• 3D CAD Software: CATIA V5 and/or Siemens NX (essential for BIW design).

• 2D CAD Software: AutoCAD or similar for technical drawings and documentation.

• DMU Kinematics / Clash Analysis Tools: Integrated within the primary CAD packages or standalone software.

• PDM/PLM Systems: Experience with systems like Teamcenter, Enovia, or similar for data management and version control.

Analytics & Reporting:

• While not a primary analytics role, understanding how to interpret and utilize feedback from CAE reports (e.g., stiffness, crash, NVH simulations) is crucial.

CRM & Automation:

• Not directly applicable to this design role, but understanding how design data flows into downstream processes (e.g., manufacturing planning, PLM) is important.

• Automation within CAD (e.g., macros, templates) might be relevant for efficiency.

📝 Enhancement Note: Proficiency in CATIA V5 and/or Siemens NX is paramount for this role, as these are the industry standards for automotive BIW design.

👥 Team Culture & Values

Operations Values:

• Technical Excellence: A commitment to precision, accuracy, and high-quality design deliverables.

• Collaboration: Valuing teamwork and open communication across engineering disciplines and with project stakeholders.

• Innovation: Encouraging creative problem-solving and the application of new technologies and methods.

• Client Focus: Dedication to meeting client requirements, timelines, and quality expectations.

• Continuous Improvement: A mindset of learning and adapting to new standards, tools, and processes in the automotive industry.

Collaboration Style:

• Expect a highly collaborative environment where designers work closely with concept engineers, CAE analysts, manufacturing specialists, and project managers.

• Regular design reviews will be a key part of the workflow, requiring constructive feedback exchange and iterative design adjustments.

• Strong communication skills, both verbal and written, are essential for articulating design decisions and understanding technical input from various teams.

📝 Enhancement Note: The culture in an automotive engineering service company like EDAG is typically professional, results-oriented, and emphasizes technical expertise and collaborative problem-solving to meet demanding client project requirements.

⚡ Challenges & Growth Opportunities

Challenges:

• Complex Integration: Ensuring seamless integration of BIW components within a larger vehicle architecture, considering numerous interfaces and constraints.

• Stringent OEM Standards: Adhering to diverse and often complex standards from multiple Original Equipment Manufacturers (OEMs).

• Balancing Design with Constraints: Effectively balancing aesthetic requirements, structural performance (stiffness, crash), manufacturability, cost, and weight reduction targets.

• Incorporating CAE Feedback: Translating complex CAE simulation results into actionable design modifications.

• Rapid Iteration: Managing design changes and updates efficiently within tight project timelines.

Learning & Development Opportunities:

• Advanced CAD Training: Deepen expertise in CATIA V5 or NX, exploring advanced surfacing, assembly management, and automation features.

• Specialized BIW Modules: Gain in-depth knowledge of specific BIW systems (e.g., underbody, closure systems).

• CAE Fundamentals: Develop a better understanding of CAE simulation principles and how design impacts performance metrics.

• Lightweighting & Materials: Learn about new materials and design strategies for weight reduction in automotive structures.

• Project Management Basics: Gain exposure to project management principles relevant to engineering deliverables.

📝 Enhancement Note: The challenges are inherent to automotive BIW design, requiring a blend of technical skill, problem-solving ability, and adaptability. Growth opportunities are geared towards technical mastery and expanding engineering scope.

💡 Interview Preparation

Strategy Questions:

• "Describe a challenging BIW component design you worked on. What were the key technical challenges, and how did you overcome them using DFM/DFA/DFS principles?"

• "How do you approach interpreting and applying OEM standards and master sections in your CAD work?"

• "Walk me through your process for performing clash analysis and assembly verification for a complex BIW assembly."

• "How do you integrate feedback from CAE simulations (e.g., stiffness, crash) into your design modifications?"

Company & Culture Questions:

• "What interests you about working for EDAG and specifically on BIW design projects?"

• "How do you approach collaboration with engineers from different disciplines (e.g., CAE, manufacturing)?"

• "Describe your experience working with PDM/PLM systems."

Portfolio Presentation Strategy:

• Structure: For each project, clearly state the objective, your role, the design process (including CAD tools and methodologies), the challenges faced, your solutions, and the outcome.

• Visual Aids: Use high-quality renderings, CAD screenshots, and potentially short animations to illustrate your designs. Highlight key features and design decisions.

• Technical Depth: Be prepared to discuss specific design features, material considerations, manufacturing processes (stamping, welding, hemming), and how your design addresses them.

• DFM/DFA/DFS Focus: Explicitly point out examples in your portfolio where you applied these principles and the benefits they brought.

• Conciseness: Present your portfolio efficiently, focusing on the most impactful aspects relevant to the role.

📝 Enhancement Note: Interview preparation should focus on demonstrating practical application of skills, problem-solving abilities, and a thorough understanding of the BIW design process and its implications.

📌 Application Steps

To apply for this Product Designer (BIW) position:

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

• Portfolio Customization: Tailor your portfolio to highlight BIW-specific projects, emphasizing your CAD skills, understanding of sheet metal processes, and application of DFM/DFA/DFS principles. Ensure you have clear examples of your work with BIW components.

• Resume Optimization: Ensure your resume clearly lists your experience with CAD software (CATIA V5, NX), specific BIW components, and a strong understanding of automotive design principles. Quantify achievements where possible.

• Interview Practice: Prepare to walk through your portfolio in detail, articulate your design process, and answer technical questions related to BIW design, sheet metal forming, and DFM/DFA/DFS. Practice explaining how you incorporate CAE feedback.

• Company Research: Familiarize yourself with EDAG's work in the automotive sector, their key clients, and their approach to product development. Understand the significance of BIW in vehicle manufacturing.

⚠️ 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.