Course

USI3DT offers a wide range of courses in the field of 3D Printing Technology. The certification course aims at making the participation employable in vast range of industries. The emphasis is on making the classes practice oriented so that the participants gain hands on experience with 3D Printers and its technology. We have theory and practical lectures. Students are also offered to visit various industries and work on real time projects.

The participants will be exposed to various industrial problems in manufacturing and will be encouraged to find 3D printing solution for the same. Basic outline of the course is as follows. Changes to the same will be made to ensure participants gain practical knowledge rather than theoretical content. Focus will be to encourage developing creative thinking and reasoning skills.

Additive manufacturing plays a key role across industries, but there is a widening gap between the technology and number of skilled workers who can drive it. As a certification institute, we will prepare the workforce of tomorrow by offering a professional credential in additive manufacturing Technologies, industries and applications, Design consideration, technology specification, and post processing methods.

SEMINAR

  • Introduction on 3D Printing Technology
  • What is 3D Printing and how it works
  • Various Materials for 3D Printing
  • Various types of 3D Printers
  • Comparison of Traditional and modern Methods
  • Industries Using 3D Printing
Duration: 45 Min
  • Advantages of 3D Printing
  • Success Stories
  • Applications of 3D Printing for Students
  • Creative Applications
  • Highlights of Courses
  • Audience Interaction

WORKSHOP

  • Understanding of Additive Manufacturing with brief of 3D printing processes, and types of technologies.
  • Scope and applications of 3D Printing
Duration: 6 hrs
  • Real time interaction with 3D printer
  • Questions-Answers
  • Feedback

PRIMARY LEVEL COURSE

  • Introduction of 3D Printing
  • Genesis of 3D Printing
  • 3D Printing Technology in Industries
  • 3D Printing Processes (Technologies)
  • 3D Printing Materials
  • Understanding of FDM 3D Printer
  • Basics on 3D Designing and Printing
  • Comparison of 3D printing with traditional Methods of manufacturing
Duration: 30 hrs
  • Advantages of 3D Printing
  • Applications of 3D Printing
  • 3D Printing global effects
  • Basics of 3D Pen
  • Demo and Introduction of 3D Scanning
  • Opportunities in Additive Manufacturing
  • Hands on experience with 3D printer

ADVANCE LEVEL COURSE ON 3D PRINTING

  • 3D Printing Basics
  • Various 3D Printing Technologies
  • FDM/DLP/SLA 3D Printing
  • FDM/DLP/SLA Printware
  • FDM/DLP/SLA Hardware
  • Tinker CAD (Design Software)
  • Designing for 3D Printing
Duration: 30 hrs
  • Operating FDM/DLP/SLA 3D Printers
  • Advantages of 3D Printing
  • 3D Pen
  • 3D Scanning Basics
  • Application of 3D Printing
  • Practical Training on FDM/DLP/SLA 3D printer
  • Project

3D SYSTEMS CERTIFICATION COURSE

  • 3D Printing Basics
  • 3D Printing Technologies
  • FDM/DLP/SLA/SLS/DMP/MJP/CJP 3D Printers
  • Materials for 3D Printing
  • Advantages of 3D Printing
  • Printware
  • FDM/DLP/SLA/SLS/DMP/MJP/CJP Hardware
  • Designing / CAD
  • Machine and Material Selection
  • Interaction with FDM/DLP/SLA/SLS/DMP/MJP/CJP machines
  • Post Processing of FDM/DLP/SLA/SLS/DMP/MJP/CJP Prototypes
  • Printware for FDM/DLP/SLA/SLS/DMP/MJP/CJP
  • Introduction to manufacturing Processes
  • Project work (Minor + Major)
Duration: 200 hrs.
Paid domestic internship up to 12 months* Domestic &/or Global Placement*
  • 3D Printing V/S Traditional Manufacturing Processes
  • Advance Techniques
  • Converting FDM and DLP Prototypes to metal models
  • 3D Pen
  • 3D Scanning (Basics)
  • Industries using 3D Printing
  • Identifying problems in manufacturing processes
  • 3D Printing global effects
  • Impact of 3D Printing on commercial manufacturing
  • Areas of further development
  • Opportunities in 3D Printing
  • Case studies / Creative applications
  • Expertise with FDM/DLP/SLA/SLS/DMP/MJP/CJP
  • Real time Industrial Exposure

Scholarship Test

USI3DT provide scholarship to the deserved candidate to help them to create their professional career into 3D printing domain.

We regularly take scholarship test for the same. Below are the criteria for the scholarship process.

  • CPI / Percentile/ percentage of latest educational qualification
  • Aptitude test
  • Presentation/Interview

Advantages

Creativity

Being able to try new things, test theories, and think more creatively can aid the learning process. 3D Printing technology encourage students to be innovative and creative, they can materialize their idea through trial and error. As a result, students are more likely to remember the facts and lessons learned.

Design

Designing is the main component of this 3D Printing Technology. Keeping students engaged can be challenging, while designing of 3D Printing will keep them helping develop the new ideas and it will lead to the maximization of using their creativity for innovation.

Product Development

3D printing is a technology that scientists and engineers are using to change the world. Put that same technology into the hands of the students and introduce them to some of the challenges facing the community. They will learn empathy, teamwork, and problem solving as you set them loose on a real-world-problem. This will help them to develop such products that can also be possible making through 3D Printing.

Skill development

“The more you fail, the more you learn.” This formula appears very logical here. Professionals/Students/Industry workers can develop their skills to the highest level only if they will fail while learning 3D Printing Technology. This will help them to explore all the parameters while designing and they can raise their design skills.

 

Ideas to products

This is very big advantage of 3D Printing Technology. Student can develop something which is not available in outside market and if that product development is getting any financial support then the idea of the student can become a real-life usable product too.

Real Time Innovation

3D Printing Technology positions students as creators. Instead of buying or consuming the creations of someone else they become inventors who can identify needs and create solutions. This technology will help students in many ways to create something unfamiliar innovation to the world.

Entrepreneurship

3D Printing Technology has affected prototype industry by distance. This current era is an era of customization, and so, 3D Printing is the best solution to that. According to the needs of customers, 3D Printer can print an object and that too with micro detailing.