Pune/Pimpri-Chinchwad Area
With 6+ years in the design engineering field, my journey has grown from a Design Software Trainee to a Tool Design Engineer working with CATIA , and now to an Application Engineer specializing in PTC Creo Parametric . I focus on turning engineering ideas into practical, manufacturable designs while helping teams work smarter with CAD tools and structured workflows. Passionate about continuous learning, design optimization, and delivering reliable engineering solutions. Always open to connecting with professionals in product design, CAD, and PLM.
Application Engineer – PTC Creo Parametric | CAD Innovation Consultant Empowering Engineering Excellence through Advanced Design Solutions As a dedicated Application Engineer specializing in PTC Creo Parametric, I bring a refined blend of technical acumen and strategic insight to enhance product development across diverse engineering domains. With a deep understanding of parametric modeling, simulation, and design automation, I provide end-to-end support to optimize CAD environments and elevate design efficiency. Key responsibilities: Technical Expertise: Provide hands-on support in 3D modeling, assemblies, sheet metal design, surfacing, and detailed drawings using Creo Parametric. Solution Customization: Develop custom tools, macros, and automation scripts using Creo Toolkit, J-Link, and mapkeys to streamline repetitive tasks and improve workflow efficiency. User Training & Enablement: Conduct training sessions, workshops, and technical demonstrations to upskill engineering teams and promote best practices. Consultation & Implementation: Assist in deploying Creo solutions tailored to industry-specific needs, ensuring alignment with business goals and engineering standards. Troubleshooting & Support: Act as a first point of contact for resolving software issues, performance bottlenecks, or user challenges within the Creo environment. Process Optimization: Collaborate with cross-functional teams to refine CAD processes, improve model integrity, and ensure data consistency across product lifecycles.
1.Designing Press Tools – Creating designs for press tools using CAD software like AutoCAD, SolidWorks, or CATIA. 2. Product Development – Assisting in the development of new tool designs based on product requirements. 3. Drafting and Detailing – Preparing detailed drawings and technical documentation for manufacturing. 4. Material Selection – Choosing appropriate materials for tool components based on strength and durability. 5. Prototype Testing – Assisting in testing tool prototypes and making necessary design modifications. 6. Manufacturing Support – Collaborating with the production team to ensure smooth tool manufacturing. 7. Troubleshooting & Modifications – Identifying issues in tool performance and making design improvements. 8. Vendor Coordination – Interacting with suppliers for tooling components and ensuring quality standards. 9. Documentation & Reports – Maintaining reports on design changes, test results, and project progress.
As a dedicated CAD Trainer and Student Mentor at the CAD Institute, I empower mechanical engineering students with the technical expertise and industry insights needed to thrive in today’s competitive engineering landscape. I deliver immersive, application-focused training in leading design and simulation tools including AutoCAD, CATIA, SolidWorks, Creo, and ANSYS, guiding students from foundational concepts to advanced modeling, assembly, and FEA simulations. Beyond software training, I serve as a career development mentor, providing personalized counseling to help students align their technical skills with real-world opportunities. From project guidance and portfolio development to career mapping and interview preparation, I support students in every step of their professional journey. Key Responsibilities: Designing and delivering interactive CAD/CAE training modules. Coaching students for industry certifications and project execution. Conducting career counseling sessions tailored to individual strengths and goals. Bridging the gap between academic learning and industry expectations. Keeping curriculum aligned with the latest trends in engineering design and analysis.