Three dimensional analytical and finite element methods for simulating a moving melt pool with mass addition

Andrew J. Pinkerton; Alhaji M. Kamara; Kamran Shah; Shakeel Safdar; Lin Li

Three dimensional analytical and finite element methods for simulating a moving melt pool with mass addition

Andrew J. Pinkerton, Alhaji M. Kamara, Kamran Shah, Shakeel Safdar, Lin Li

Mechanical and Aerospace Engineering

Research output: Chapter in Book/Conference proceeding › Conference contribution

Abstract

Laser Direct Metal Deposition, alloying and similar additive processes are recognised as difficult to model because of the complicated mass and heat flow. This paper compares analytical and finite element approaches via a case study of the coaxial laser direct metal deposition of Inconel 718. The analytical models used are based on superposition of the quasi-stationary temperature fields of multiple moving heat sources, modified to account for the incoming mass. The finite element models used are based on element birth methods and utilize the anisotropic enhanced thermal conductivity method. The simulations are compared with experimentally results and results show that both methods can predict depth more accurately than width. The analytical method generally underestimates width and the finite element method overestimates it. The model inaccuracies can be explained in part by considering the increased effective conductivity within the melt pool.

Original language	English
Title of host publication	3rd Pacific International Conference on Applications of Lasers and Optics, PICALO 2008 - Conference Proceedings\|Pac. Int. Conf. Appl. Lasers Opt., PICALO - Conf. Proc.
Pages	369-374
Number of pages	5
Publication status	Published - 2008
Event	3rd Pacific International Conference on Applications of Lasers and Optics, PICALO 2008 - Beijing, China Duration: 16 Apr 2008 → 18 Apr 2008

Conference

Conference	3rd Pacific International Conference on Applications of Lasers and Optics, PICALO 2008
Country/Territory	China
City	Beijing
Period	16/04/08 → 18/04/08

Cite this

@inproceedings{bee08f7ee7034021a0f3f025b03176b6,

title = "Three dimensional analytical and finite element methods for simulating a moving melt pool with mass addition",

abstract = "Laser Direct Metal Deposition, alloying and similar additive processes are recognised as difficult to model because of the complicated mass and heat flow. This paper compares analytical and finite element approaches via a case study of the coaxial laser direct metal deposition of Inconel 718. The analytical models used are based on superposition of the quasi-stationary temperature fields of multiple moving heat sources, modified to account for the incoming mass. The finite element models used are based on element birth methods and utilize the anisotropic enhanced thermal conductivity method. The simulations are compared with experimentally results and results show that both methods can predict depth more accurately than width. The analytical method generally underestimates width and the finite element method overestimates it. The model inaccuracies can be explained in part by considering the increased effective conductivity within the melt pool.",

author = "Pinkerton, {Andrew J.} and Kamara, {Alhaji M.} and Kamran Shah and Shakeel Safdar and Lin Li",

year = "2008",

language = "English",

isbn = "9780912035895",

pages = "369--374",

booktitle = "3rd Pacific International Conference on Applications of Lasers and Optics, PICALO 2008 - Conference Proceedings|Pac. Int. Conf. Appl. Lasers Opt., PICALO - Conf. Proc.",

note = "3rd Pacific International Conference on Applications of Lasers and Optics, PICALO 2008 ; Conference date: 16-04-2008 Through 18-04-2008",

}

Pinkerton, AJ, Kamara, AM, Shah, K, Safdar, S & Li, L 2008, Three dimensional analytical and finite element methods for simulating a moving melt pool with mass addition. in 3rd Pacific International Conference on Applications of Lasers and Optics, PICALO 2008 - Conference Proceedings|Pac. Int. Conf. Appl. Lasers Opt., PICALO - Conf. Proc.. pp. 369-374, 3rd Pacific International Conference on Applications of Lasers and Optics, PICALO 2008, Beijing, China, 16/04/08.

Three dimensional analytical and finite element methods for simulating a moving melt pool with mass addition. / Pinkerton, Andrew J.; Kamara, Alhaji M.; Shah, Kamran et al.
3rd Pacific International Conference on Applications of Lasers and Optics, PICALO 2008 - Conference Proceedings|Pac. Int. Conf. Appl. Lasers Opt., PICALO - Conf. Proc.. 2008. p. 369-374.

Research output: Chapter in Book/Conference proceeding › Conference contribution

TY - GEN

T1 - Three dimensional analytical and finite element methods for simulating a moving melt pool with mass addition

AU - Pinkerton, Andrew J.

AU - Kamara, Alhaji M.

AU - Shah, Kamran

AU - Safdar, Shakeel

AU - Li, Lin

PY - 2008

Y1 - 2008

N2 - Laser Direct Metal Deposition, alloying and similar additive processes are recognised as difficult to model because of the complicated mass and heat flow. This paper compares analytical and finite element approaches via a case study of the coaxial laser direct metal deposition of Inconel 718. The analytical models used are based on superposition of the quasi-stationary temperature fields of multiple moving heat sources, modified to account for the incoming mass. The finite element models used are based on element birth methods and utilize the anisotropic enhanced thermal conductivity method. The simulations are compared with experimentally results and results show that both methods can predict depth more accurately than width. The analytical method generally underestimates width and the finite element method overestimates it. The model inaccuracies can be explained in part by considering the increased effective conductivity within the melt pool.

AB - Laser Direct Metal Deposition, alloying and similar additive processes are recognised as difficult to model because of the complicated mass and heat flow. This paper compares analytical and finite element approaches via a case study of the coaxial laser direct metal deposition of Inconel 718. The analytical models used are based on superposition of the quasi-stationary temperature fields of multiple moving heat sources, modified to account for the incoming mass. The finite element models used are based on element birth methods and utilize the anisotropic enhanced thermal conductivity method. The simulations are compared with experimentally results and results show that both methods can predict depth more accurately than width. The analytical method generally underestimates width and the finite element method overestimates it. The model inaccuracies can be explained in part by considering the increased effective conductivity within the melt pool.

M3 - Conference contribution

SN - 9780912035895

SP - 369

EP - 374

BT - 3rd Pacific International Conference on Applications of Lasers and Optics, PICALO 2008 - Conference Proceedings|Pac. Int. Conf. Appl. Lasers Opt., PICALO - Conf. Proc.

T2 - 3rd Pacific International Conference on Applications of Lasers and Optics, PICALO 2008

Y2 - 16 April 2008 through 18 April 2008

ER -

Three dimensional analytical and finite element methods for simulating a moving melt pool with mass addition

Abstract

Conference

Fingerprint

Cite this