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3D Printing Technology

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Shafeer Khan
Shafeer Khan

3D printing, also known as additive manufacturing, involves using computer-aided design to create three-dimensional solid objects by depositing material layer by layer. It was invented in 1984 and allows for complex shapes to be produced quickly and with less waste than traditional manufacturing. 3D printers work by taking a digital file and building the object layer by layer, with some common types being selective laser sintering, stereolithography, and fused deposition modeling. 3D printing has many applications in fields like engineering, industrial design, automotive, aerospace, medical, dental and jewelry manufacturing.

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3D Printing Technology
3D Printing Technology Sharon S.B S6 CT
What Is 3D Printing?  3D printing” or “Additive Manufacturing” takes digital input in the form of Computer Aided Design (CAD) model and creates solid, three dimensional parts through an additive, layer by layer process.  It is a method of converting a virtual 3D model into a physical object.  Where a 3D object is created by laying down successive layers of material.
History
 1984 – 86  Charles Hull invents 3D printing and coins the term “Stereo Lithography”  1992  First 3D printer built by 3D Systems History Of 3D Printing
Working
Working Working Of 3D Printer Working Of 3D Printer 1) Think About The 3D Model(Measurement, Model etc..) 2) Draw 3D wired Model Using 3D Printing Applications 3) Use Better Inputs, And Print • Think • Draw Wire Model • Print
Steps In 3D Printing
Basic Steps In 3D Printing  3D Card Model  .STL File  Slicing Software  Layer Slicing  Printing 3D Card Model .STL File Slicing Software Layer Slicing Printing
Kind Of 3D Printers
Types of 3D Printers SLS Method. Stereo lithography. Fused Deposition Modeling (FDM) 3D Printers are classified into many types As per there mode of operations. Types Of 3D Printers
Types of 3D Printers  SLS Method. (Selective laser sintering (SLS) )  Stereo lithography.  Fused Deposition Modeling (FDM) Selective Laser Sintering (SLS)  Selective laser sintering (SLS) is an additive manufacturing technique that uses a high power laser (for example, a carbon dioxide laser) to fuse small particles of plastic, metal (direct metal laser sintering),ceramic or glass powders into a mass that has a desired 3-dimensional shape).
Stereo lithography. Stereo lithography is an additive manufacturing process using a vat of liquid UV-curable photopolymer ”resin” and a UV laser to build parts a layer at a time. Types of 3D Printers  SLS Method. (Selective laser sintering (SLS) )  Stereo lithography.  Fused Deposition Modeling (FDM)
 Fused deposition modeling (FDM) is an additive manufacturing technology commonly used for modeling, prototyping, and production applications. Types of 3D Printers  SLS Method. (Selective laser sintering (SLS) )  Stereo lithography.  Fused Deposition Modeling (FDM) Fused-deposition modeling (FDM)
Applications Of 3D Printing
Application Of 3D Printing 3D Printing Medical Food Games & Entertainment Do It YourselfPop-Culture Defense & Space Fashion & Retail
 Designers use 3D printers to quickly create product models and prototypes Application Of 3D Printing (Designing)
 Automotive and aviation industries use 3D printers to make body parts. • Urbee the first prototype car 2011 was presented. This is the first car ever to have its entire body printed out on a giant 3D printer.  It has three wheels, and two seats Application Of 3D Printing(Automotive)
 Artists can create models of their projects.  They Can create any type of real world objects into its portable form Application Of 3D Printing(Architecture)
 In food preparation, to apply items in liquid or paste form such as cheese, icing, and chocolate. Application Of 3D Printing(Food)
 Physicians can use 3D printing to make hearing aids, artificial teeth, and bone grafts.  They Can create any type Body parts in ease Application Of 3D Printing(Medical-Science)
Popular Product Made Of 3D Printers
Product Made Of 3D Printers  All Fashionable Plaster  3D Printed Space  Skyfall’s Aston Martin Fashionable Plaster  This 3D-printed cast to help repair broken bones may be the future of medical orthopedic casts. 3D-printed casts also bring out the positive potential of this emerging technology
Product Made of 3D Printers  Fashionable Plasters.  3D Printed Space  Skyfall’s Aston Martin 3D Printed Space  Building a base on the moon could theoretically be made much simpler by using a 3D printer to construct it from local materials. The concept was recently endorsed by the European Space Agency (ESA) which is now collaborating with architects to gauge the feasibility of 3D printing using lunar soil.
Product Made of 3D Printers  Fashionable Plasters.  3D Printed Space  Skyfall’s Aston Martin Skyfall’s Aston Martin  Skyfall filmmakers 3D-printed this rare Aston Martin so they wouldn't have to damage the original for the film sequence. The effects crew model makers called on a company called Voxeljet, which used a massive 3D printer with a capacity of 283 cubic feet to reproduce three 1:3 scale models of the Aston Martin.
Price Of 3D Printers
Price of 3D Printers  Low End 3D Printers  Mid Range 3D Printers  High End 3D Printers Low End 3D Printers  Maximum part size: 12.7 x 12.7 x 12.7 cm (5 x 5 x 5 in)  Price is above 60000  Just for printing small objects
Price of 3D Printers  Low End 3D Printers  Mid Range 3D Printers  High End 3D Printers Mid Range 3D Printers  Maximum part size: 340×340×200 mm (13.4 × 13.4 × 7.9 in)  Price is above 1 Crore  For Making Object Up to 100 inches and above dimensions
Price of 3D Printers  Low End 3D Printers  Mid Range 3D Printers  High End 3D Printers High End 3D Printers  Maximum part size: 340×340×200 mm (13.4 × 13.4 × 7.9 in)  Price is above 5Crore  For Making Small to Big Parts
Advantages of 3D Printing
Advantage of 3D Printers  Rapid Prototyping  Clean Process  Complex Shape  Easy To Use  Reduce Design Complexity  Portable Rapid Prototyping  3D printing gives designers the ability to quickly turn concepts into 3D models or prototypes (a.k.a., rapid prototyping).
Advantage of 3D Printers  Rapid Prototyping  Clean Process  Complex Shape  Easy To Use  Reduce Design Complexity  Portable Clean Process  Wastage of material is negligible.
Advantage of 3D Printers  Rapid Prototyping  Clean Process  Complex Shape  Easy To Use  Reduce Design Complexity  Portable Low Complexity  Complex shape can be produced
Advantage of 3D Printers  Rapid Prototyping  Clean Process  Complex Shape  Easy To Use  Reduce Design Complexity  Portable Easy To Use  No skilled person needed
Advantage of 3D Printers  Rapid Prototyping  Clean Process  Complex Shape  Easy To Use  Reduce Design Complexity  Portable Reduce Design Complexity  We can Create 3D model easily and more efficient than ordinary methods
Advantage of 3D Printers  Rapid Prototyping  Clean Process  Complex Shape  Easy To Use  Reduce Design Complexity  Portable Portable  3D Printers Is Very Portable as checked to ordinary molding methods
Disadvantages 3D Printing
Disadvantage of 3D Printers  Slowness  Strength.  Cost  Expensive  Misuse Slowness  Process is slow but comparatively faster than ordinary methods
Disadvantage of 3D Printers  Slowness  Strength.  Cost  Expensive  Misuse Strength  Components do not have enough strength.
Disadvantage of 3D Printers  Slowness  Strength.  Cost  Expensive  Misuse Cost  Cost Of Input Is Higher
Disadvantage of 3D Printers  Slowness  Strength.  Cost  Expensive  Misuse Expense  3D Printer Is Highly Expensive
Disadvantage of 3D Printers  Slowness  Strength.  Cost  Expensive  Misuse Misuse  Although 3-D printers have the potential of creating many jobs and opportunities, they might also put certain jobs at risk
Conclusion
Conclusion 3D Printing  Relatively New Technology.  No restrictions on industry.  Significant decrease in product development cycle and costs. Conclusion  3D Printing is a new technology which has many opportunities in real world in many fields.it is use full in many industries which reduce time ,wastage,cost during development
3D Printing Technology
It Was A Presentation About 3D Printing Thanks for being here
Time for your QuestionsNow,
3D Printing Technology
3D Printing Technology

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3D Printing Technology

  • 3. What Is 3D Printing?  3D printing” or “Additive Manufacturing” takes digital input in the form of Computer Aided Design (CAD) model and creates solid, three dimensional parts through an additive, layer by layer process.  It is a method of converting a virtual 3D model into a physical object.  Where a 3D object is created by laying down successive layers of material.
  • 5.  1984 – 86  Charles Hull invents 3D printing and coins the term “Stereo Lithography”  1992  First 3D printer built by 3D Systems History Of 3D Printing
  • 7. Working Working Of 3D Printer Working Of 3D Printer 1) Think About The 3D Model(Measurement, Model etc..) 2) Draw 3D wired Model Using 3D Printing Applications 3) Use Better Inputs, And Print • Think • Draw Wire Model • Print
  • 8. Steps In 3D Printing
  • 9. Basic Steps In 3D Printing  3D Card Model  .STL File  Slicing Software  Layer Slicing  Printing 3D Card Model .STL File Slicing Software Layer Slicing Printing
  • 10. Kind Of 3D Printers
  • 11. Types of 3D Printers SLS Method. Stereo lithography. Fused Deposition Modeling (FDM) 3D Printers are classified into many types As per there mode of operations. Types Of 3D Printers
  • 12. Types of 3D Printers  SLS Method. (Selective laser sintering (SLS) )  Stereo lithography.  Fused Deposition Modeling (FDM) Selective Laser Sintering (SLS)  Selective laser sintering (SLS) is an additive manufacturing technique that uses a high power laser (for example, a carbon dioxide laser) to fuse small particles of plastic, metal (direct metal laser sintering),ceramic or glass powders into a mass that has a desired 3-dimensional shape).
  • 13. Stereo lithography. Stereo lithography is an additive manufacturing process using a vat of liquid UV-curable photopolymer ”resin” and a UV laser to build parts a layer at a time. Types of 3D Printers  SLS Method. (Selective laser sintering (SLS) )  Stereo lithography.  Fused Deposition Modeling (FDM)
  • 14.  Fused deposition modeling (FDM) is an additive manufacturing technology commonly used for modeling, prototyping, and production applications. Types of 3D Printers  SLS Method. (Selective laser sintering (SLS) )  Stereo lithography.  Fused Deposition Modeling (FDM) Fused-deposition modeling (FDM)
  • 15. Applications Of 3D Printing
  • 16. Application Of 3D Printing 3D Printing Medical Food Games & Entertainment Do It YourselfPop-Culture Defense & Space Fashion & Retail
  • 17.  Designers use 3D printers to quickly create product models and prototypes Application Of 3D Printing (Designing)
  • 18.  Automotive and aviation industries use 3D printers to make body parts. • Urbee the first prototype car 2011 was presented. This is the first car ever to have its entire body printed out on a giant 3D printer.  It has three wheels, and two seats Application Of 3D Printing(Automotive)
  • 19.  Artists can create models of their projects.  They Can create any type of real world objects into its portable form Application Of 3D Printing(Architecture)
  • 20.  In food preparation, to apply items in liquid or paste form such as cheese, icing, and chocolate. Application Of 3D Printing(Food)
  • 21.  Physicians can use 3D printing to make hearing aids, artificial teeth, and bone grafts.  They Can create any type Body parts in ease Application Of 3D Printing(Medical-Science)
  • 22. Popular Product Made Of 3D Printers
  • 23. Product Made Of 3D Printers  All Fashionable Plaster  3D Printed Space  Skyfall’s Aston Martin Fashionable Plaster  This 3D-printed cast to help repair broken bones may be the future of medical orthopedic casts. 3D-printed casts also bring out the positive potential of this emerging technology
  • 24. Product Made of 3D Printers  Fashionable Plasters.  3D Printed Space  Skyfall’s Aston Martin 3D Printed Space  Building a base on the moon could theoretically be made much simpler by using a 3D printer to construct it from local materials. The concept was recently endorsed by the European Space Agency (ESA) which is now collaborating with architects to gauge the feasibility of 3D printing using lunar soil.
  • 25. Product Made of 3D Printers  Fashionable Plasters.  3D Printed Space  Skyfall’s Aston Martin Skyfall’s Aston Martin  Skyfall filmmakers 3D-printed this rare Aston Martin so they wouldn't have to damage the original for the film sequence. The effects crew model makers called on a company called Voxeljet, which used a massive 3D printer with a capacity of 283 cubic feet to reproduce three 1:3 scale models of the Aston Martin.
  • 26. Price Of 3D Printers
  • 27. Price of 3D Printers  Low End 3D Printers  Mid Range 3D Printers  High End 3D Printers Low End 3D Printers  Maximum part size: 12.7 x 12.7 x 12.7 cm (5 x 5 x 5 in)  Price is above 60000  Just for printing small objects
  • 28. Price of 3D Printers  Low End 3D Printers  Mid Range 3D Printers  High End 3D Printers Mid Range 3D Printers  Maximum part size: 340×340×200 mm (13.4 × 13.4 × 7.9 in)  Price is above 1 Crore  For Making Object Up to 100 inches and above dimensions
  • 29. Price of 3D Printers  Low End 3D Printers  Mid Range 3D Printers  High End 3D Printers High End 3D Printers  Maximum part size: 340×340×200 mm (13.4 × 13.4 × 7.9 in)  Price is above 5Crore  For Making Small to Big Parts
  • 30. Advantages of 3D Printing
  • 31. Advantage of 3D Printers  Rapid Prototyping  Clean Process  Complex Shape  Easy To Use  Reduce Design Complexity  Portable Rapid Prototyping  3D printing gives designers the ability to quickly turn concepts into 3D models or prototypes (a.k.a., rapid prototyping).
  • 32. Advantage of 3D Printers  Rapid Prototyping  Clean Process  Complex Shape  Easy To Use  Reduce Design Complexity  Portable Clean Process  Wastage of material is negligible.
  • 33. Advantage of 3D Printers  Rapid Prototyping  Clean Process  Complex Shape  Easy To Use  Reduce Design Complexity  Portable Low Complexity  Complex shape can be produced
  • 34. Advantage of 3D Printers  Rapid Prototyping  Clean Process  Complex Shape  Easy To Use  Reduce Design Complexity  Portable Easy To Use  No skilled person needed
  • 35. Advantage of 3D Printers  Rapid Prototyping  Clean Process  Complex Shape  Easy To Use  Reduce Design Complexity  Portable Reduce Design Complexity  We can Create 3D model easily and more efficient than ordinary methods
  • 36. Advantage of 3D Printers  Rapid Prototyping  Clean Process  Complex Shape  Easy To Use  Reduce Design Complexity  Portable Portable  3D Printers Is Very Portable as checked to ordinary molding methods
  • 38. Disadvantage of 3D Printers  Slowness  Strength.  Cost  Expensive  Misuse Slowness  Process is slow but comparatively faster than ordinary methods
  • 39. Disadvantage of 3D Printers  Slowness  Strength.  Cost  Expensive  Misuse Strength  Components do not have enough strength.
  • 40. Disadvantage of 3D Printers  Slowness  Strength.  Cost  Expensive  Misuse Cost  Cost Of Input Is Higher
  • 41. Disadvantage of 3D Printers  Slowness  Strength.  Cost  Expensive  Misuse Expense  3D Printer Is Highly Expensive
  • 42. Disadvantage of 3D Printers  Slowness  Strength.  Cost  Expensive  Misuse Misuse  Although 3-D printers have the potential of creating many jobs and opportunities, they might also put certain jobs at risk
  • 44. Conclusion 3D Printing  Relatively New Technology.  No restrictions on industry.  Significant decrease in product development cycle and costs. Conclusion  3D Printing is a new technology which has many opportunities in real world in many fields.it is use full in many industries which reduce time ,wastage,cost during development
  • 46. It Was A Presentation About 3D Printing Thanks for being here
  • 47. Time for your QuestionsNow,

Editor's Notes

  1. The most basic, differentiating principle behind 3D printing is that it is an additive manufacturing process. And this is indeed key because 3D printing is a radically different manufacturing method based on advanced technology that builds up parts, additively, in layers at the sub mm scale. This is fundamentally different from any other existing traditional manufacturing techniques.
  2. 1).Draw The 3D Model In Any 3D Software 2).Save/Convert it to .stl file which is supported by 3D printers Open the file on the slicing software which means the software provided by manufacturer of printer 3).Start Layer Slicing Which means printer start to slice each layer