Influence of Cure Dependency of molding Compound Properties on Warpage and Stress Distribution During and After the Encapsulation of Electronics Components

TC Falat; KMB Jansen; J de Vreugd; S Rzepka

Influence of Cure Dependency of molding Compound Properties on Warpage and Stress Distribution During and After the Encapsulation of Electronics Components

TC Falat, KMB Jansen, J de Vreugd, S Rzepka

Computational Design and Mechanics

Research output: Chapter in Book/Conference proceedings/Edited volume › Conference contribution › Scientific

10 Citations (Scopus)

Abstract

Commercial FEM software codes do not directly support the cure dependency of polymers behavior. In electronics packaging, for example, cure shrinkage of the molding compound is consequently treated as a surplus to thermal contraction and its changes in visco-elastic behavior during curing are usually ignored. This gives rise to inaccurate results and may cause difficulties even in recognizing factors important for further optimization. This work introduces a cure dependent visco-elastic material model being implemented into ANSYS by USERMAT, the user material subroutine. The results obtained when simulating the warpage of bi-material strips during and after curing with the full scale material model were compared to those obtained with simplified material models. Varying the geometric configuration different changes in the deformation results have been found caused by cure dependency anywhere between -10%, 0%, and +20%. Hence, correct results can only be achieved in general case with models accounting for cure dependency directly.

Original language	Undefined/Unknown
Title of host publication	Proceedings of the 10th International Conference on Thermal, Mechanical and Multi-Physics Simulation and Experiments in Micro-Electronics and Micro-Systems, EuroSimE 2009, 27-29 April 2009, Delft, The Netherlands
Editors	Ernst, L.J., Zhang, G.Q., Driel, W.D. van, Rodgers, P., Bailey, C., Saint Leger, O. de
Publisher	IEEE Society
Pages	330-335
Number of pages	6
ISBN (Print)	978-1-4244-4159-4
Publication status	Published - 2009

Publication series

Name
Publisher	IEEE

Keywords

conference contrib. refereed
Conf.proc. > 3 pag

Cite this

Falat, TC., Jansen, KMB., de Vreugd, J., & Rzepka, S. (2009). Influence of Cure Dependency of molding Compound Properties on Warpage and Stress Distribution During and After the Encapsulation of Electronics Components. In Ernst, L.J., Zhang, G.Q., Driel, W.D. van, Rodgers, P., Bailey, C., & Saint Leger, O. de (Eds.), Proceedings of the 10th International Conference on Thermal, Mechanical and Multi-Physics Simulation and Experiments in Micro-Electronics and Micro-Systems, EuroSimE 2009, 27-29 April 2009, Delft, The Netherlands (pp. 330-335). IEEE Society.

Falat, TC ; Jansen, KMB ; de Vreugd, J et al. / Influence of Cure Dependency of molding Compound Properties on Warpage and Stress Distribution During and After the Encapsulation of Electronics Components. Proceedings of the 10th International Conference on Thermal, Mechanical and Multi-Physics Simulation and Experiments in Micro-Electronics and Micro-Systems, EuroSimE 2009, 27-29 April 2009, Delft, The Netherlands. editor / Ernst, L.J. ; Zhang, G.Q. ; Driel, W.D. van ; Rodgers, P. ; Bailey, C. ; Saint Leger, O. de. IEEE Society, 2009. pp. 330-335

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title = "Influence of Cure Dependency of molding Compound Properties on Warpage and Stress Distribution During and After the Encapsulation of Electronics Components",

abstract = "Commercial FEM software codes do not directly support the cure dependency of polymers behavior. In electronics packaging, for example, cure shrinkage of the molding compound is consequently treated as a surplus to thermal contraction and its changes in visco-elastic behavior during curing are usually ignored. This gives rise to inaccurate results and may cause difficulties even in recognizing factors important for further optimization. This work introduces a cure dependent visco-elastic material model being implemented into ANSYS by USERMAT, the user material subroutine. The results obtained when simulating the warpage of bi-material strips during and after curing with the full scale material model were compared to those obtained with simplified material models. Varying the geometric configuration different changes in the deformation results have been found caused by cure dependency anywhere between -10%, 0%, and +20%. Hence, correct results can only be achieved in general case with models accounting for cure dependency directly.",

keywords = "conference contrib. refereed, Conf.proc. > 3 pag",

author = "TC Falat and KMB Jansen and {de Vreugd}, J and S Rzepka",

year = "2009",

language = "Undefined/Unknown",

isbn = "978-1-4244-4159-4",

publisher = "IEEE Society",

pages = "330--335",

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Falat, TC, Jansen, KMB, de Vreugd, J & Rzepka, S 2009, Influence of Cure Dependency of molding Compound Properties on Warpage and Stress Distribution During and After the Encapsulation of Electronics Components. in Ernst, L.J., Zhang, G.Q., Driel, W.D. van, Rodgers, P., Bailey, C. & Saint Leger, O. de (eds), Proceedings of the 10th International Conference on Thermal, Mechanical and Multi-Physics Simulation and Experiments in Micro-Electronics and Micro-Systems, EuroSimE 2009, 27-29 April 2009, Delft, The Netherlands. IEEE Society, pp. 330-335.

Influence of Cure Dependency of molding Compound Properties on Warpage and Stress Distribution During and After the Encapsulation of Electronics Components. / Falat, TC; Jansen, KMB; de Vreugd, J et al.
Proceedings of the 10th International Conference on Thermal, Mechanical and Multi-Physics Simulation and Experiments in Micro-Electronics and Micro-Systems, EuroSimE 2009, 27-29 April 2009, Delft, The Netherlands. ed. / Ernst, L.J.; Zhang, G.Q.; Driel, W.D. van; Rodgers, P.; Bailey, C.; Saint Leger, O. de. IEEE Society, 2009. p. 330-335.

Research output: Chapter in Book/Conference proceedings/Edited volume › Conference contribution › Scientific

TY - GEN

T1 - Influence of Cure Dependency of molding Compound Properties on Warpage and Stress Distribution During and After the Encapsulation of Electronics Components

AU - Falat, TC

AU - Jansen, KMB

AU - de Vreugd, J

AU - Rzepka, S

PY - 2009

Y1 - 2009

N2 - Commercial FEM software codes do not directly support the cure dependency of polymers behavior. In electronics packaging, for example, cure shrinkage of the molding compound is consequently treated as a surplus to thermal contraction and its changes in visco-elastic behavior during curing are usually ignored. This gives rise to inaccurate results and may cause difficulties even in recognizing factors important for further optimization. This work introduces a cure dependent visco-elastic material model being implemented into ANSYS by USERMAT, the user material subroutine. The results obtained when simulating the warpage of bi-material strips during and after curing with the full scale material model were compared to those obtained with simplified material models. Varying the geometric configuration different changes in the deformation results have been found caused by cure dependency anywhere between -10%, 0%, and +20%. Hence, correct results can only be achieved in general case with models accounting for cure dependency directly.

AB - Commercial FEM software codes do not directly support the cure dependency of polymers behavior. In electronics packaging, for example, cure shrinkage of the molding compound is consequently treated as a surplus to thermal contraction and its changes in visco-elastic behavior during curing are usually ignored. This gives rise to inaccurate results and may cause difficulties even in recognizing factors important for further optimization. This work introduces a cure dependent visco-elastic material model being implemented into ANSYS by USERMAT, the user material subroutine. The results obtained when simulating the warpage of bi-material strips during and after curing with the full scale material model were compared to those obtained with simplified material models. Varying the geometric configuration different changes in the deformation results have been found caused by cure dependency anywhere between -10%, 0%, and +20%. Hence, correct results can only be achieved in general case with models accounting for cure dependency directly.

KW - conference contrib. refereed

KW - Conf.proc. > 3 pag

M3 - Conference contribution

SN - 978-1-4244-4159-4

SP - 330

EP - 335

BT - Proceedings of the 10th International Conference on Thermal, Mechanical and Multi-Physics Simulation and Experiments in Micro-Electronics and Micro-Systems, EuroSimE 2009, 27-29 April 2009, Delft, The Netherlands

A2 - Ernst, L.J., null

A2 - Zhang, G.Q., null

A2 - Driel, W.D. van, null

A2 - Rodgers, P., null

A2 - Bailey, C., null

A2 - Saint Leger, O. de, null

PB - IEEE Society

ER -

Falat TC, Jansen KMB, de Vreugd J, Rzepka S. Influence of Cure Dependency of molding Compound Properties on Warpage and Stress Distribution During and After the Encapsulation of Electronics Components. In Ernst, L.J., Zhang, G.Q., Driel, W.D. van, Rodgers, P., Bailey, C., Saint Leger, O. de, editors, Proceedings of the 10th International Conference on Thermal, Mechanical and Multi-Physics Simulation and Experiments in Micro-Electronics and Micro-Systems, EuroSimE 2009, 27-29 April 2009, Delft, The Netherlands. IEEE Society. 2009. p. 330-335