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Effect of build orientation on FDM parts: a case study for validation of deformation behaviour by FEA

Research output: Contribution in Book/Report/Proceedings - With ISBN/ISSNConference contribution/Paperpeer-review

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Effect of build orientation on FDM parts: a case study for validation of deformation behaviour by FEA. / Hambali, Ruzy Haryati; Celik, Kursat; Smith, Paul et al.
International Conference on Design and Concurrent Engineering (iDECON 2010): Manufacturing Challenges Towards Global Sustainability. Penerbit Universiti (UTeM), 2010. p. 224-228.

Research output: Contribution in Book/Report/Proceedings - With ISBN/ISSNConference contribution/Paperpeer-review

Harvard

Hambali, RH, Celik, K, Smith, P, Rennie, A & Ucar, M 2010, Effect of build orientation on FDM parts: a case study for validation of deformation behaviour by FEA. in International Conference on Design and Concurrent Engineering (iDECON 2010): Manufacturing Challenges Towards Global Sustainability. Penerbit Universiti (UTeM), pp. 224-228.

APA

Hambali, R. H., Celik, K., Smith, P., Rennie, A., & Ucar, M. (2010). Effect of build orientation on FDM parts: a case study for validation of deformation behaviour by FEA. In International Conference on Design and Concurrent Engineering (iDECON 2010): Manufacturing Challenges Towards Global Sustainability (pp. 224-228). Penerbit Universiti (UTeM).

Vancouver

Hambali RH, Celik K, Smith P, Rennie A, Ucar M. Effect of build orientation on FDM parts: a case study for validation of deformation behaviour by FEA. In International Conference on Design and Concurrent Engineering (iDECON 2010): Manufacturing Challenges Towards Global Sustainability. Penerbit Universiti (UTeM). 2010. p. 224-228

Author

Hambali, Ruzy Haryati ; Celik, Kursat ; Smith, Paul et al. / Effect of build orientation on FDM parts : a case study for validation of deformation behaviour by FEA. International Conference on Design and Concurrent Engineering (iDECON 2010): Manufacturing Challenges Towards Global Sustainability. Penerbit Universiti (UTeM), 2010. pp. 224-228

Bibtex

@inproceedings{eb553c916c4242e09c881fe02d992a43,
title = "Effect of build orientation on FDM parts: a case study for validation of deformation behaviour by FEA",
abstract = "Some parts produced using additive layer technologies (ALT) show non-regular material properties when a force is applied to the part. This difference in properties can be attributed to the orientation in which the part is built. The research in this paper presents a comparison of material property data taken from physical tests performed on fused deposition modelling (FDM) parts built in different orientations, against simulated testing using finite element analysis (FEA). The research uses the design of a simple specimen as a test model for the study for which both a digital and physical model are produced and tested. The test is conducted to investigate deformation behaviour of sample FDM parts manufactured in different orientations and verify that FEA analysis can be utilised for design verification of FDM parts. This work contributes to further research into development of rapid manufacturing (RM) computer aided design (CAD) tools, specifically design analysis and verification tools for RM materials.",
keywords = "Additive Layer Technologies, FDM, Rapid Manufacturing, FEA",
author = "Hambali, {Ruzy Haryati} and Kursat Celik and Paul Smith and Allan Rennie and M Ucar",
year = "2010",
month = sep,
language = "English",
isbn = "983-2948-84-1",
pages = "224--228",
booktitle = "International Conference on Design and Concurrent Engineering (iDECON 2010)",
publisher = "Penerbit Universiti (UTeM)",

}

RIS

TY - GEN

T1 - Effect of build orientation on FDM parts

T2 - a case study for validation of deformation behaviour by FEA

AU - Hambali, Ruzy Haryati

AU - Celik, Kursat

AU - Smith, Paul

AU - Rennie, Allan

AU - Ucar, M

PY - 2010/9

Y1 - 2010/9

N2 - Some parts produced using additive layer technologies (ALT) show non-regular material properties when a force is applied to the part. This difference in properties can be attributed to the orientation in which the part is built. The research in this paper presents a comparison of material property data taken from physical tests performed on fused deposition modelling (FDM) parts built in different orientations, against simulated testing using finite element analysis (FEA). The research uses the design of a simple specimen as a test model for the study for which both a digital and physical model are produced and tested. The test is conducted to investigate deformation behaviour of sample FDM parts manufactured in different orientations and verify that FEA analysis can be utilised for design verification of FDM parts. This work contributes to further research into development of rapid manufacturing (RM) computer aided design (CAD) tools, specifically design analysis and verification tools for RM materials.

AB - Some parts produced using additive layer technologies (ALT) show non-regular material properties when a force is applied to the part. This difference in properties can be attributed to the orientation in which the part is built. The research in this paper presents a comparison of material property data taken from physical tests performed on fused deposition modelling (FDM) parts built in different orientations, against simulated testing using finite element analysis (FEA). The research uses the design of a simple specimen as a test model for the study for which both a digital and physical model are produced and tested. The test is conducted to investigate deformation behaviour of sample FDM parts manufactured in different orientations and verify that FEA analysis can be utilised for design verification of FDM parts. This work contributes to further research into development of rapid manufacturing (RM) computer aided design (CAD) tools, specifically design analysis and verification tools for RM materials.

KW - Additive Layer Technologies

KW - FDM

KW - Rapid Manufacturing

KW - FEA

M3 - Conference contribution/Paper

SN - 983-2948-84-1

SP - 224

EP - 228

BT - International Conference on Design and Concurrent Engineering (iDECON 2010)

PB - Penerbit Universiti (UTeM)

ER -