Serial sectioning method in the construction of 3-D microstructures for particle-reinforced MMCs

Li, Mingshan<sup>1</sup>; Ghosh, Somnath<sup>1</sup>; Rouns, Thomas N.<sup>2</sup>; Weiland, Hasso<sup>2</sup>; Richmond, Owen<sup>2</sup>; Hunt, Warren<sup>2</sup>

Affiliations

¹Department of Aerospace Engineering, Applied Mechanics and Aviation, The Ohio State University, Columbus, OH 43210, USA

²Alcoa Technical Center, Alcoa Center, PA 15069, USA

Abstract

A serial-sectioning technique is described for obtaining detailed three-dimensional microstructural images from two-dimensional sections of Si-reinforced Al-Si-Mg alloys. Optical micrographs of a series of microstructural sections were generated by the gradual removal of material layers. These micrographs were then enhanced and digitized in a quantitative image analysis system. Three-dimensional microstructure models were then computationally constructed by assembling the digitally acquired two-dimensional micrographs. Serial sectioning was found to be an inexpensive and effective means of accurately depicting heterogeneous microstructures at high resolution. A few relevant observations on material properties also were made during sectioning. Particle cracking was found to occur in larger particles that are located in clustered areas and have their longest dimension aligned with the tensile axis.

Links

DOI: 10.1016/S1044-5803(98)00023-0

WoS: 000076521400003

History

Received: 1997-05-1

Accepted: 1998-01-1

Online: 1998-12-7

Cited Works (1)

Year	Entry
1992	Hunt WH Jr. Microstructural Damage Processes in an Aluminum Matrix-Silicon Particle Composite Model System Carnegie Mellon University; October 1992.

Cited By (6)

Year	Entry
1999	Li M, Ghosh S, Richmond O. An experimental–computational approach to the investigation of damage evolution in discontinuously reinforced aluminum matrix composite. Acta Mater. 1999;47(12):3515-3532.
2004	Sidhu RS, Chawla N. Three-dimensional microstructure characterization of Ag₃Sn intermetallics in Sn-rich solder by serial sectioning. Mater Charact. March 2004;52(3):225-230.
1999	Li M, Ghosh S, Richmond O, Weiland H, Rouns TN. Three dimensional characterization and modeling of particle reinforced metal matrix composites, I: quantitative description of microstructural morphology. Mater Sci Eng. June 15, 1999;A265(1-2):153-173.
2005	Basanta D, Miodownik MA, Holm EA, Bentley PJ. Using genetic algorithms to evolve three-dimensional microstructures from two-dimensional micrographs. Metall Mater Trans. July 2005;A36(7):1643-1652.
2009	Lievers WB, Pilkey AK. Matrix-erosion tessellation: comparing particle clustering measures extracted from three-dimensional vs two-dimensional images. Metall Mater Trans. 2009;A40(1):36-45.
2007	Weck AG. The Role of Coalescence on Ductile Fracture [PhD thesis]. Hamilton, ON: McMaster University; March 2007.