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Course Curicullum

Raja Sekhar Upputuri
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Introduction to 3D Printing

3D Printing is considered the next major revolution which is going to change the world. By making mass customization and personal fabrication possible, it is making every person a creator. 3D Printing is poised to unlock the potential in every person to create, to innovate and to fabricate. It is already transforming manufacturing and will soon change the world.

Recognizing the profound implications of 3D printing for the future of design and manufacturing, think3D has designed this course to prepare students for current and emerging careers in those fields. Upon course completion, students will be able to:

  • Print full functional moving parts using 3D Printer
  • Explain current and emerging 3D printing applications in the manufacturing field
  • Understand the advantages and limitations of each 3D printing technology
  • Evaluate scenarios and recommend the appropriate use of 3D printing technology
  • Identify opportunities to apply 3D printing technology for time and cost savings

INDIVIDUAL WORKSHOP

  1. Introduction to 3D Printing : 90 Mins
  2. Basics of Cartesian 3D Printer : 90 Mins
  3. Basics of Delta 3D Printer : 90 Mins
  4. Basics of DLP Printer : 90 Mins
  5. Overview on Slic3r : 90 Mins
  6. Object design for 3D Printing basics : 90 Mins
  7. Design repair in Netfabb : 90 Mins
  8. How to use FDM 3D Printer : 90 Mins

DURATION AS FULL DAY WORKSHOP

  1. Introduction to 3D Printing : 60 Mins
  2. Basics of Cartesian 3D Printer : 60 Mins
  3. Object design for 3D Printing basics : 60 Mins
  4. Overview on Slic3r : 60 Mins
  5. Printing the object : 60 Mins
  6. Quiz & Conclusion : 60 Mins

DURATION AS WEEKEND WORKSHOP

  1. Introduction to 3D Printing : 90 Mins
  2. Basics of Cartesian 3D Printer : 45 Mins
  3. Basics of Delta 3D Printer : 45 Mins
  4. Basics of DLP 3D Printer : 45 Mins
  5. Object design for 3D Printing basics : 90 Mins
  6. Design repair in NetFabb : 45 Mins
  7. Overview on Slic3r : 60 Mins
  8. Printing the object : 60 Mins
  9. Live project : 120 Mins

DURATION AS 3 MONTH CERTIFICATE PROGRAM

  1. Introduction to 3D Printing
  2. Basics of Cartesian 3D Printer
  3. Basics of Delta 3D Printer
  4. Basics of DLP 3D Printer
  5. Object design for 3D Printing basics
  6. Design repair in NetFabb
  7. Overview on Slic3r
  8. Printing the object
  9. Live Project 1 – Design a 3D Printer
  10. Live Project 2 – Design & Print Object

DURATION AS SEMESTER PROGRAM

  1. Introduction to 3D Printing
  2. Basics of Cartesian 3D Printer
  3. Basics of Delta 3D Printer
  4. Basics of DLP 3D Printer
  5. Object design for 3D Printing basics
  6. Design repair in NetFabb
  7. Overview on Slic3r
  8. Printing the object
  9. Live Project 1 – Design a 3D Printer
  10. Live Project 2 – Design & Print object

COURSES ON 3D PRINTING

  1. Introduction to 3D Printing
  2. How to build a Cartesian 3D Printer
  3. How to build a Delta 3D Printer
  4. How to build a DLP 3D Printer
  5. Overview on Slic3r
  6. Object design for 3D Printing
  7. Repair a design in NetFabb
  8. How to use a 3D Scanner
  9. Build printer(s) and take a print
  10. Build parts for an object

FREQUENTLY ASKED QUESTIONS

What is CNC machining technology?

CNC Machining is a process used in the manufacturing sector that involves the use of computers to control machine tools. Tools that can be controlled in this manner include lathes, mills, routers and grinders. The CNC in CNC Machining stands for Computer Numerical Control.

Why is CNC important?

Computer Numerical Control (CNC) refers to - manipulating traditional machines by the use of computer systems. Since computers are used to control machines, it means that all major operations of production can be automated to increase speed and quality of manufacturing.

What is CNC material?

Almost any material can be used in a CNC machine. It really depends on the application. Common materials include metals such as aluminum, brass, copper, steel, and titanium, as well as wood, foam, fiberglass, and plastics such as polypropylene.

Which software is used in CNC machine?

Creating a part on a CNC mill is a three phase process. The part is drawn in a CAD(Computer Aided Design) drawing program such as AutoCAD. Then a CAM (Computer Aided Manufacturing) program is used to convert the CAD drawing to G-Code. Finally, the G-code controls the CNC mill as it makes the part.

What are the applications of CNC machine?

5 Common Applications of a CNC Drilling Machine:

  • Metal Fabrication
  • Wood Manufacturing
  • Computer Parts and Components Manufacturing
  • Electrical Industry
  • Plastics Manufacturing
What is milling and types of milling?

Milling is the most common form of machining, a material removal process, which can create a variety of features on a part by cutting away the unwanted material. The milling process requires a milling machine, work piece, fixture, and cutter.

What is EDM machining process?

Electro Discharge Machining (EDM) is an electro-thermal non-traditional machining process, where electrical energy is used to generate electrical spark and material removal mainly occurs due to thermal energy of the spark. EDM can be used to machine difficult geometries in small batches or even on job-shop basis.

What materials can wire EDM cut?

Virtually any conductive material can be cut using Wire EDM. This would include all metals, including steel, aluminum, brass, titanium, and alloys and super alloys of all types.

How fast does wire EDM cut?

When using standard 0.010" O brass wire you can expect a consistent, reliable wire EDM cutting speed of approximately 18 to 20 inch/hour.

How many types of CNC machines are there?

There are basically five different types of CNC machines:

  • CNC Plasma Cutting Machine
  • CNC Laser Cutting Machine
  • CNC Milling Machine
  • CNC Router Machine
  • CNC Lathe Machine
What are the guidelines while preparing design for 3D printing?

All surfaces of the 3D model ("mesh") must be closed. Only Completely closed models can be printed. Else, the mesh needs to be closed or repaired.

  • If your design has moving parts, then make sure you leave a space of at least 0.5 to 1 mm between them, so that the parts do not get glued together during printing and achieve the desired movement
  • Please make sure that minimum thickness of any wall/ part to be 1mm. This problem arises when you design a bigger part and scale it down drastically.
What are the softwares useful for preparing design for 3D printing?

You can use any of the 3D Modeling softwares, as long as you follow the basic design guidelines given above and export the output as .stl file.

A list of some of the softwares that you can use for Designing your 3D Model

Free 3D Design Softwares

Google Sketchup: Easy to learn, create and export your 3D Models.  SketchUp Make is a free version and SketchUp Pro is a paid version with additional functionality. Works in Windows and Mac

Tinker Cad: Simple Browser based Software that can help you create complex stuff using very simple tools.

Blender: A free, powerful open source 3D content creation suite, available for all major operating systems under the GNU General Public License. Works in Windows, Linux and Mac

OpenScad: A free software for programmers for creating Solid 3D CAD objects. Works in Windows, Linux and Mac.

Netfabb Studio Basic: Free software for STL file slicing, repair. Works in Windows, Linux, Mac. Netfabb also provides a free cloud based mesh repair module.

123D Design: A powerful suite of Apps/ tools from Autodesk. You can create a 3D model from scratch or pick a 3D model from the library and customize it to your liking. Works in Windows, Mac and browser.

Free CAD: An open source parametric 3D modeling software that allows easy parametric editing of your design. Works in Windows, Linux and Mac

Sculptris: A free digital sculpting tool ideal for starters in digital sculpting from Pixologic, the makers of ZBrush. Works in Windows and Mac

3D Tin: A Browser based program using WebGL.

Commercial 3D Design Softwares

Rhino: A Popular 3D modeling software based on curves, using NURBS mathematical modeling. Works in Windows and Mac.

Maya: High end 3D modeling tool to create complex models and has additional functionalities like rigging, dynamics and animation. Works in Windows and Mac.

Solidworks: An advanced 3d modeling software, suitable for mechanical, industrial product design that require high precision. Works in Windows and Mac.

3DS Max: A comprehensive 3D modeling, animation, simulation, and rendering software. Works in Windows.

Autocad: Great CAD design and documentation tool, ideal for architects, engineers and product designers. Works in Windows and Mac.

ZBrush: A digital sculpting and painting program with powerful features and intuitive workflows. Works in Windows and Mac.

Netfabb Professional: an advanced software for professional editing of 3D printing data. Helps in fixing 3D models and  reduce risk of failed builds and wasted material. Works in Windows, Linux and Mac.

Mudbox: A popular digital sculpting and digital painting software from Autodesk. Works in Windows, Linux and Mac.

How safe is my data?

Do not worry! As a habit, we keep customer data very secure. Additionally, we sign a NDA confidentiality form, for projects requiring data security

How do i contact your team?

For any queries or to submit your design, drop an email to info@think3d.in or fill the contact form. Our team will get in touch with you with more details and estimates.

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