Creo Mold Design is a specialized module of PTC Creo, tailored for mold and tooling design in manufacturing industries. It provides tools to create, analyze, and optimize molds for injection molding, die casting, and other molding processes. Creo Mold enables designers and engineers to accelerate the mold design process, reduce errors, and produce manufacturable molds efficiently.
Widely used in industries such as automotive, consumer products, electronics, and industrial machinery, Creo Mold allows seamless integration with Creo Parametric for part modeling and assembly, ensuring that molds are designed accurately according to the geometry and requirements of the product.
Essential for professionals in mold design, tooling, and injection molding industries.
Reduces design cycle time and minimizes errors in mold production.
Prepares learners for careers in manufacturing, automotive, consumer products, and industrial machinery sectors.
Provides hands-on experience in designing, analyzing, and optimizing molds for real-world applications.
Mold Base Creation – Automate the creation of standard and custom mold bases.
Cooling System Design – Integrate cooling channels to optimize mold performance.
Draft Analysis & Parting Line – Evaluate draft angles and parting surfaces for manufacturability.
Automation & Standardization – Use libraries and templates to speed up mold design.
Simulation & Verification – Prepare molds for manufacturing while minimizing errors.
Design of injection molds, die-casting molds, and tooling components.
Optimize mold design for manufacturability, efficiency, and precision.
Mold design for automotive components, body panels, and interior parts.
Creation of high-precision molds for mass production of vehicle parts.
Design molds for plastic products, electronics housings, and household appliances.
Integrate cooling systems and parting lines for complex product geometries.
Develop core, cavity, sliders, inserts, and ejector systems.
Evaluate draft angles, parting lines, and undercuts for manufacturability.
Analyze mold design for defects, cooling efficiency, and part ejection.
Reduce production errors and improve mold lifespan through optimization.
By the end of this course, learners will be able to:
Create mold bases, cavities, cores, and inserts for complex parts.
Design sliders, lifters, and ejector systems for efficient mold operation.
Perform draft analysis and parting line evaluation to ensure manufacturability.
Integrate cooling channels and analyze thermal performance for mold efficiency.
Automate repetitive mold design tasks using templates and standard libraries.
Prepare mold assemblies for manufacturing, ensuring accuracy and functionality.
Simulate mold performance to detect potential defects and optimize design.
Collaborate with CAD and CAM workflows for seamless production readiness.
Apply industry standards and best practices in mold and tooling design.
Develop professional skills for careers in mold design, tooling, and manufacturing industries.
Component Based Training
Industry Based Training
International Certifications
100% Placement Assistance
Free Certified Workshops & Seminars
Syllabus Based Classes
Component Based Training
Industry Based Training
International Certifications
100% Placement Assistance
Free Certified Workshops & Seminars
Syllabus Based Classes
Component Based Training
Industry Based Training
International Certifications
100% Placement Assistance
Free Certified Workshops & Seminars
Syllabus Based Classes
Component Based Training
Industry Based Training
International Certifications
100% Placement Assistance
Free Certified Workshops & Seminars
Syllabus Based Classes
Component Based Training
Industry Based Training
International Certifications
100% Placement Assistance
Free Certified Workshops & Seminars
Syllabus Based Classes
No: #172, Raahat Plaza,
2nd Floor, Office No: 196 & 197,
Arcot Road, Vadapalani,
Chennai - 600026.
caddschool@gmail.com
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