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2022 | OriginalPaper | Chapter

Additive Manufacturing Enabling Technologies for Rapid Roboting

Author : Pablo Prieto

Published in: Rapid Roboting

Publisher: Springer International Publishing

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Abstract

This chapter aims to give a general description of the additive manufacturing process and its future trends, focused mainly on the rapid development of robots and has three main parts. The first part briefly describes the seven categories of Additive Manufacturing Technologies. Second is the landscape of active and expired key patents, providing a general picture of the present and future of the different technologies in terms of accessibility for small companies or researcher groups working on robotics. Finally, the impact of Additive Manufacturing and the leading market trends are discussed to shape the near future of its technologies in Rapid Roboting.

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previous chapter Rapid Roboting: The New Approach for Quickly Development of Customized Robots

next chapter Printing 3D Electronics for Robotics

OpenSLS (2021). https://github.com/MillerLabFTW/OpenSLS. Accessed 20 2021

RepRap (2021). https://reprap.org/wiki/RepRap. Accessed 20 2021

What is Arduino? guide introduction (2021). https://www.arduino.cc/en/Guide/Introduction. Accessed 20 2021

on Additive Manufacturing Technologies ACF, on Additive Manufacturing Technologies Subcommittee F42 91 on Terminology ACF (2012) Standard terminology for additive manufacturing technologies. Astm Int

Almquist T, Smalley D (1996) Thermal stereolithography. US Patent 5672312A

Associates W (2021) Wohlers report 2021

Bheda H (2018) Reinforced fused-deposition modeling. US Patent 10011073B2

Bredt J, Anderson T (1999) Method of three dimensional printing. US Patent 5902441A

Choi JW, MacDonald E, Wicker R (2010) Multi-material microstereolithography. Int J Adv Manuf Technol 49(5–8):543–551

10.

Crump SS (1992) Apparatus and method for creating three-dimensional objects. US Patent 5121329A

11.

Davidson T, Phillips R, Hernandes A, Russell D, Roche K, Zengerle W, Berlin A, Kinsley J, Sweet-Block B, Darul K (2006a) Three-dimensional printer. US Patent 20040012112A1

12.

Davidson T, Phillips R, Hernandez A, Russell D, Roche K, Zengerle W, Berlin A, Kinsley J, Sweet-Block B, Darul K (2006b) Three-dimensional printer. US Patent 7037382B2

13.

Deckard C (1997a) Apparatus for producing parts by selective sintering. US Patent 5597589A

14.

Deckard C (1997b) Method for producing parts by selective sintering. US Patent 5639070A

15.

DeSimone J, Ermoshkin A, Samulski E (2015) Method and apparatus for three-dimensional fabrication. US Patent 9211678B2

16.

Feygin M (1988) Apparatus and method for forming an integral object from laminations. US Patent 4752352A

17.

Feygin M, Shkolnik A, Diamond M, Dvorskiy E (1998) Laminated object manufacturing system. US Patent 5730817A

18.

Gothait H (2001) Apparatus and method for three dimensional model printing. US Patent 6259962B1

19.

Huang SJ, Wang CC, Lee SY, Wang CK, Wang CS, Chen CY, Chen CL, Lai WS, Hsieh C, Leu TS, et al (1996) Method for rapid prototyping by using linear light as sources. US Patent 7158849B2

20.

Hull C (1986) Apparatus for production of three-dimensional objects by stereolithography. US Patent 4575330A

21.

Hull CW, Jacobs PF, Schmidt KA, Smalley DR, Vinson WA (1993) Apparatus for building three-dimensional objects with sheets. US Patent 5192559A

22.

Isaac H (1942) Method of forming structures wholly of fusion deposited weld metal. US Patent 2299747A

23.

Iwata H, Norikane Y, Matsumura T, Niimi T, Naito H (2021) Method of manufacturing three-dimensional object, liquid set for manufacturing three-dimensional object, device for manufacturing three-dimensional object, and gel object. US Patent 10882245B2

24.

Larsen TA, Romig E, Mitchell BJ (2019) System and method for additive fabrication using laminated sheets. US Patent 10293589B2

25.

Ma K, Shuck QY, Bader JS (2018) Directed energy deposition with cooling mechanism. US Patent 20160369399A1

26.

Manning GL (2000) End-of-vector laser power control in a selective laser sintering system. US Patent 6085122A

27.

Matthews WT, Denney PE, Peters S (2018) Method and system for additive manufacturing using high energy source and hot-wire. US Patent 20150209905A1

28.

McAlea KP, Forderhase PF, Ganninger ME, Kunig FW, Magistro AJ (1998) Selective laser sintering with composite plastic material. US Patent 5733497A

29.

Meiners W, Wissenbach K, Gasser A (2001) Selective laser sintering at melting temperature. US Patent 6215093B1

30.

Napadensky E (2015) Method of making a composite material by three-dimensional ink-jet printing. US Patent 8932511B2

31.

Rolland J, DeSimone J (2018) Acceleration of stereolithography. US Patent 20160046072A1

32.

Russell D, Anderson T, Bredt J, Vogel M, Seymour M, Bornhorst W, Hatsopoulos M (1999) Method and apparatus for prototyping a three-dimensional object. US Patent 6007318A

33.

Russell D, Hernandez A, Kinsley J, Berlin A (2007) Apparatus and methods for 3D printing. US Patent 7291002B2

34.

Swanson W, Hopkins P (1999) Thin-wall tube liquifier. US Patent 6004124A

35.

Swanson W, Turley P, Leavitt P, Karwoski P, LaBossiere J, Skubic R (2004) High temperature modeling apparatus. US Patent 6722872B1

36.

Swanson W, Turley P, Leavitt P, Karwoski P, LaBossiere J, Skubic R (2007a) High-temperature modeling method. US Patent 7297304B2

37.

Swanson W, Turley P, Leavitt P, Karwoski P, LaBossiere J, Skubic R (2007b) High-temperature modeling method. US Patent 20040104515A1

38.

Zagagi Z, Gothait H, Miller G (2010) Method for building a three dimensional object. US Patent 7685694B2

Title: Additive Manufacturing Enabling Technologies for Rapid Roboting
Author: Pablo Prieto
Publisher: Springer International Publishing
Book: Rapid Roboting
Print ISBN: 978-3-319-40001-3

Electronic ISBN: 978-3-319-40003-7

Copyright Year: 2022
DOI: https://doi.org/10.1007/978-3-319-40003-7_2

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