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Let's start to use 3D-Printer for Beginners

Let's start to use 3D-Printer for Beginners

This is English version of the slide (https://speakerdeck.com/noguhiro2002/toriaezushi-meru3dpurinta-xuan-nde-dezainsite-yin-shua-site).

Presentation: Laboratory Automation Community Oct./2020 Meeting.
https://laboratoryautomation.connpass.com/event/191076/

Hiroki Noguchi, Ph.D.
Google Scholar: https://scholar.google.com/citations?user=yFVtJ5oAAAAJ&hl=ja

## Movie links of this slide ##
Page 5
 ・Huge object(House): https://youtu.be/pxrVEfxrwUw
 ・Nano scale device: https://youtu.be/ZpgLGFYoUTc
 ・Food(Meat): https://youtu.be/fLpeeUYtW94
 ・Body-parts(internal organs): https://youtu.be/A8ijIcyndDk
Page 15-24
 ・1. Rough design: https://youtu.be/rrCjoXBtciM
 ・2. Fusion360: https://youtu.be/Oq1mw8vJlkY
 ・3. Slicing with Cura: https://youtu.be/5zPt9JiZSLU
 ・4. Filament Change: https://youtu.be/6L-bgOy90os
 ・5. Clearance Adjustment: https://youtu.be/s9X_MAjmcq4
 ・6. Start 3D-Print: https://youtu.be/Ncx6ocjSE68
 ・7. Finish 3D-Print: https://youtu.be/q5tHyXBRdZs
Page 25
 ・50mL centrifuge tube holder model file: https://www.thingiverse.com/thing:4638616

5dde5b632b4fbd5f9073c86f2e26f897?s=128

noguhiro2002

March 03, 2022
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Transcript

  1. Hiroki Noguchi, Ph.D. Let’s start to use 3D-Printer for Beginners

    - Choosing, Designing, and Printing -
  2. Introduce myself • 2015, Yokohama City University, Ph.D. • ’15

    Indiana State Univ. (US), Post-doc Res. • ’16 KU LEUVEN (Belgium), Post-doc Res. • ‘19 Pharm. Company., Pharm. Technology (JP)
  3. From short talk @LADEC2020 Let’s start bottom-up laboratory automation with

    3D-printer!
  4. Peoples to create something with a 3D printer, and want

    to enhance their research, work and life. Target persons of this presentation J
  5. https://grabcad.com/ https://www.thingiverse.com/ https://youtu.be/pxrVEfxrwUw https://youtu.be/ZpgLGFYoUTc https://youtu.be/fLpeeUYtW94 https://youtu.be/A8ijIcyndDk Huge object(House) Nano scale

    device Food(Meat) Body-parts(internal organs)
  6. 3D-Printers What types are there?

  7. 3D SYSTEMS Stereolithography (SLA) Price Accuracy 出典: Stratasys Co. Ltd.(http://www.Stratasys.co.jp/),

    3D SYSTEMS Co. Ltd. (http://ja.3dsystems.com), Form labs Co. Ltd. (http://formlabs.com/), Comgrow3d (http://comgrow3d.com) Material jetting Stratasys Selective Laser Sintering (SLS) 3D SYSTEMS Binder Jetting 3D SYSTEMS $100 ~ $1 million ~ $10 million ~ 1000 μm 10 μm 100 μm FDM Comgrow Digital Light Processing (DLP) ANYCUBIC
  8. 3D SYSTEMS Stereolithography (SLA) Price Accuracy 出典: Stratasys Co. Ltd.(http://www.Stratasys.co.jp/),

    3D SYSTEMS Co. Ltd. (http://ja.3dsystems.com), Form labs Co. Ltd. (http://formlabs.com/), Comgrow3d (http://comgrow3d.com) Material jetting Stratasys Selective Laser Sintering (SLS) 3D SYSTEMS Binder Jetting 3D SYSTEMS $100 ~ $1 million ~ $10 million ~ 1000 μm 10 μm 100 μm FDM Comgrow Digital Light Processing (DLP) ANYCUBIC Easy to get ( <$1000 )
  9. Ref.: Amazon.co.jp (http://www.amazon.co.jp/)

  10. 出典: Amazon.co.jp (http://www.amazon.co.jp/) Which one is good to buy ?

  11. MEGA-S (ANYCUBIC) $212 (Amazon.com) Ender-3X (Comgrow) $189 (Amazon.com) Photon Mono-X

    (ANYCUBIC) $590 (Amazon.com) FDM DLP 2022/03/02 出典: Amazon.co.jp (http://www.amazon.co.jp/), Anycubic (http://www.anycubic.com/), Comgrow3d (http://comgrow3d.com) Which 3D-printer is good to buy? (my opinion)
  12. Ref: Form Labs Co. Ltd. (http://formlabs.com) Form 3 (FormLabs) $

    6,000 Great SLA Printers if you are rich J Form 3L (FormLabs) $ 19,000 2020/10/27 Low Force Stereolithography
  13. Do you decide which 3D-Printer to buy?

  14. OK. Let’s create your original 3D-Printing objects ! In this

    time, with FDM !
  15. Creating 50 mL Tube Folder. Everyone have

  16. Reference: SD-CARD illustrate (Nikita Golubev, https://www.flaticon.com/free-icon/sd-card_287465), other illustrates (Freepik,https://www.flaticon.com/) .STL

    Rough design Idea Create print model .gcode SD-Card Print preparation Filament change Clearance adjustment Print Print
  17. .gcode .STL Rough design Idea SD-Card Filament change Clearance adjustment

    Print Reference: SD-CARD illustrate (Nikita Golubev, https://www.flaticon.com/free-icon/sd-card_287465), other illustrates (Freepik,https://www.flaticon.com/)
  18. • Cheap but high performance (Free for person or university)

    • Powerful knowledge in Internet • A lot of tutorial movies @ You Tube • 2D à 3D model .gcode .STL Rough design Idea SD-Card Filament change Clearance adjustment Print Reference: SD-CARD illustrate (Nikita Golubev, https://www.flaticon.com/free-icon/sd-card_287465), other illustrates (Freepik,https://www.flaticon.com/), Autodesk. Fusion360 (http://www.Autodesk.co.jp)
  19. Ultimaker Cura .gcode .STL Rough design Idea SD-Card Filament change

    Clearance adjustment Print • Splicing for FDM 3D-Printer • Generate G-code to control motors of 3D-printer from 3D polygon (STL) • Famous Free Software Reference: SD-CARD illustrate (Nikita Golubev, https://www.flaticon.com/free-icon/sd-card_287465), other illustrates (Freepik,https://www.flaticon.com/)
  20. • Filaments - PLA (Standard, hard) - ABS (Standard, normal)

    - PETG (Standard, Chem. Resist.) - TPU (Soft) - PC (Engineering plastic) etc… • Selecting filaments depends on hot-end temperature and base-plate temperature. .gcode .STL Rough design Idea SD-Card Filament change Reference: SD-CARD illustrate (Nikita Golubev, https://www.flaticon.com/free-icon/sd-card_287465), other illustrates (Freepik,https://www.flaticon.com/)
  21. • MOST IMPORTANT POINT To Successful Printing !! • Accurate

    Adjust (+- 0.1mm) is needed. • Not need re-adjustment several months after one-time accurate adjustment. .gcode .STL Rough design Idea SD-Card Clearance adjustment Reference: SD-CARD illustrate (Nikita Golubev, https://www.flaticon.com/free-icon/sd-card_287465), other illustrates (Freepik,https://www.flaticon.com/)
  22. • Insert SD-CARD and Push Start. • If initial layer

    is not on base, it is caused by distance between hot-end and base. • You will be able to get perfect object if initial layer is success. .gcode .STL Rough design Idea SD-Card Print Reference: SD-CARD illustrate (Nikita Golubev, https://www.flaticon.com/free-icon/sd-card_287465), other illustrates (Freepik,https://www.flaticon.com/)
  23. 1.5 hours later… Reference: SD-CARD illustrate (Nikita Golubev, https://www.flaticon.com/free-icon/sd-card_287465), other

    illustrates (Freepik,https://www.flaticon.com/) .gcode .STL Rough design Idea SD-Card Print
  24. • Easy pick-up printed objects after cooled base. • Remove

    support materials. • High performance FDM 3D- printers have two extruder, one is normal, one is for use water-soluble material. Reference: SD-CARD illustrate (Nikita Golubev, https://www.flaticon.com/free-icon/sd-card_287465), other illustrates (Freepik,https://www.flaticon.com/) .gcode .STL Rough design Idea SD-Card Print
  25. Printed ! https://www.thingiverse.com/thing:4638616 You can download the STL file.

  26. Acknowledgements • All developers of Open Source Software and Open

    Source Hardware. • All authors who wrote technical articles on the internet.
  27. Fin.