Manufacturing
Non - IT
| Industrial Specialization Course on 3D Printing Technology (USI3DT-3D Systems Certified Course)

| St. Thomas College of Engineering and Technology Alappuzha

Industrial Specialization Course on 3D Printing Technology (USI3DT-3D Systems Certified Course)

Course Overview

Description | Objective | Learning Outcomes | Skills

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St. Thomas College of Engineering & Technology (STC), Chengannur started during the.

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Course Overview

Introduction and Basics of 3D Printing Technology:

Understanding the fundamentals and principles of additive manufacturing.

Historical background and evolution of 3D printing technology.

3D Printing Technologies:

Exploring various 3D printing techniques including FDM, DLP, SLS, MJP, and metal printing.

Comparative analysis of different printing technologies and their applications.

Materials for 3D Printing:

Overview of materials used in additive manufacturing processes.

Properties, characteristics, and selection criteria for different printing materials.

Advantages of 3D Printing:

Analyzing the benefits and advantages of utilizing 3D printing technology in various industries.

Understanding the potential of additive manufacturing in revolutionizing manufacturing processes.

FDM 3D Printers:

In-depth exploration of Fused Deposition Modeling (FDM) technology.

Components, working principles, and applications of FDM 3D printers.

Printware of FDM Technology:

Software tools and applications used in preparing models for FDM printing.

Hands-on experience with FDM printware and slicing software.

FDM Hardware:

Understanding the hardware components of FDM printers.

Maintenance, troubleshooting, and calibration of FDM machines.

Designing & CAD Software Exposure:

Introduction to Computer-Aided Design (CAD) software.

Design principles and considerations for additive manufacturing.

Machine and Material Selection:

Guidelines for selecting appropriate 3D printers and materials based on specific requirements and applications.

Interaction with FDM Machine:

Practical sessions involving interaction with FDM printers to understand operation and settings.

Post Processing of FDM Prototypes:

Techniques and methods for post-processing FDM printed parts.

Finishing, sanding, painting, and assembly processes.

DLP 3D Printing:

Introduction to Digital Light Processing (DLP) technology.

Applications, advantages, and limitations of DLP printing.

Printware for DLP:

Software tools and workflow for DLP printing.

Preparing models for DLP printing using appropriate printware.

DLP Hardware:

Components and operation of DLP 3D printers.

Calibration, maintenance, and troubleshooting of DLP machines.

Introduction Of SLS, MJP & Metal Printing Technology:

Overview of Selective Laser Sintering (SLS), MultiJet Printing (MJP), and Metal Printing technologies.

Understanding their working principles, applications, and industry use cases.

Interaction with DLP 3D Printer

Hands-on experience with DLP printers, specifically Figure 4 machines, to gain practical insights.

3D Pen: Creative Application:

Exploring creative applications of 3D pens in art, design, and prototyping.

Hands-on exercises to unleash creativity using 3D pens.

3D Scanning: Introduction & Hands-on Exposure:

Overview of 3D scanning technology and its applications.

Practical sessions involving hands-on experience with 3D scanners.

Reverse Engineering: Software, Hardware & Application:

Understanding the concept of reverse engineering in additive manufacturing.

Tools, software, and methodologies used for reverse engineering processes.

3D Printers Maintenance and Repair:

Maintenance protocols for ensuring optimal performance of 3D printers.

Troubleshooting common issues and performing minor repairs.

Industrial Inspection: Software, Hardware & Application:

Utilizing inspection software and hardware for quality control in additive manufacturing.

Techniques for inspecting and validating 3D printed parts.

Industries Using 3D Printing:

Exploration of various industries adopting 3D printing technology.

Case studies highlighting real-world applications in aerospace, automotive, healthcare, etc.

Identifying Problems in Manufacturing Processes:

Techniques for identifying and addressing challenges in additive manufacturing workflows.

Problem-solving strategies for optimizing manufacturing processes.

Impact of 3D Printing on Commercial Manufacturing:

Understanding how additive manufacturing disrupts traditional commercial manufacturing.

Business implications and strategies for adapting to the changing landscape.

Real-Time Industrial Exposure:

Immersive experiences in industrial settings, witnessing firsthand the application of 3D printing technology in manufacturing processes.

Networking opportunities with industry professionals and experts.

Project Work:

Capstone project allowing participants to apply acquired knowledge and skills to solve real-world challenges.

Collaboration with peers and instructors to develop innovative solutions and prototypes.

Start Date : 03/06/2024

( Diploma, BE/B.Tech )

₹ 120000.00

~~₹200,000.00~~40% off

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Throughout the course, participants will delve deep into the fundamentals of 3D printing technology, gaining insights into various printing techniques, materials, software, and applications. Led by industry experts and seasoned professionals, the curriculum combines theoretical learning with hands-on practical sessions, ensuring a well-rounded understanding of 3D printing processes and methodologies.

Key Highlights:

Certified by 3D Systems and USI3DT (United States Institute of 3D Printing Technology): Gain a globally recognized certification endorsed by one of the foremost authorities in additive manufacturing technology.

Comprehensive Curriculum: Explore a wide range of topics including but not limited to additive manufacturing principles, design considerations, material science, post-processing techniques, and quality control.

Hands-On Training: Get acquainted with state-of-the-art 3D printing equipment and software through immersive hands-on sessions conducted in our cutting-edge facilities.

Industry-Relevant Projects: Apply your newfound knowledge to real-world projects and case studies, honing your skills and preparing yourself for the demands of the industry.

Internship Opportunity: As a testament to our commitment to your professional development, all participants will be assured one-year internship placement in either the United States or Europe, providing invaluable hands-on experience and exposure to international best practices in 3D printing technology.

Career Advancement: Whether you're looking to kickstart your career in additive manufacturing or enhance your existing skill set, this course serves as a stepping stone towards lucrative opportunities in various industries including aerospace, automotive, healthcare, and more.

Embark on a transformative journey into the realm of cutting-edge 3D printing technology with our Industrial Specialization Course on 3D Printing Technology (USI3DT). This comprehensive program, certified by 3D Systems, a global leader in additive manufacturing solutions, is designed to equip participants with the skills and knowledge needed to excel in the rapidly evolving field of additive manufacturing. Throughout the course, participants will delve deep into the fundamentals of 3D printing technology, gaining insights into various printing techniques, materials, software, and applications. Led by industry experts and seasoned professionals, the curriculum combines theoretical learning with hands-on practical sessions, ensuring a well-rounded understanding of 3D printing processes and methodologies. Key Highlights: Certified by 3D Systems and USI3DT (United States Institute of 3D Printing Technology): Gain a globally recognized certification endorsed by one of the foremost authorities in additive manufacturing technology. Comprehensive Curriculum: Explore a wide range of topics including but not limited to additive manufacturing principles, design considerations, material science, post-processing techniques, and quality control. Hands-On Training: Get acquainted with state-of-the-art 3D printing equipment and software through immersive hands-on sessions conducted in our cutting-edge facilities. Industry-Relevant Projects: Apply your newfound knowledge to real-world projects and case studies, honing your skills and preparing yourself for the demands of the industry. Internship Opportunity: As a testament to our commitment to your professional development, all participants will be assured one-year internship placement in either the United States or Europe, providing invaluable hands-on experience and exposure to international best practices in 3D printing technology. Career Advancement: Whether you're looking to kickstart your career in additive manufacturing or enhance your existing skill set, this course serves as a stepping stone towards lucrative opportunities in various industries including aerospace, automotive, healthcare, and more.

Syllabus :

Best-in-class content by leading faculty and industry leaders in the form of videos, cases and projects

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