Effects of heat treatment on the microstructure and mechanical properties of in situ inhomogeneous TiBw/Ti6Al4V composite fabricated by pre–sintering and canned powder extrusion

Effects of heat treatment on the microstructure and mechanical properties of in situ inhomogeneous TiBw/Ti6Al4V composite fabricated by pre–sintering and canned powder extrusion

Heat treatments with different parameters were performed on the as–extruded 4.5 vol% TiBw/Ti6Al4V composite rods with TiBw columnar reinforced structure fabricated by pre–sintering and canned powder extrusion to pursue further performance optimization for high temperature applications. Microstructur...

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Bibliographic Details
Published in:Journal of alloys and compounds Vol. 693; pp. 1116 - 1123
Main Authors: Zhang, Wencong, Feng, Yangju, Chen, Wenzhen, Yang, Janlei
Format: Journal Article
Language:English
Published: Lausanne Elsevier B.V 05-02-2017
Elsevier BV
Subjects:
Ambient temperature
Beta phase
Columnar structure
Composite materials
Extrusion
Heat treating
Heat treatment
Martensite
Martensitic transformations
Mechanical properties
Mechanical property
Microstructure
Optimization
Particulate composites
Phase transitions
Presintering
Solution strengthening
TiBw columnar reinforced structure
Titanium alloys
Titanium base alloys
Titanium matrix composite
Toughness
Ultimate tensile strength
Water quenching
Titanium matrix composite
Heat treatment
Mechanical property
TiBw columnar reinforced structure
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Summary:Heat treatments with different parameters were performed on the as–extruded 4.5 vol% TiBw/Ti6Al4V composite rods with TiBw columnar reinforced structure fabricated by pre–sintering and canned powder extrusion to pursue further performance optimization for high temperature applications. Microstructure observations reflected that the fraction of martensite α′ phase, which was transformed from high–temperature β phase after water quenching, increased with the rising solution temperature and then stabilized above 1000 °C, resulting in a significant enhancement in hardness/strength of the composite; both the fraction and size of the dispersed (α + β) phases, which were decomposed from martensite α′ phase during aging, increased monotonously with the rising aging temperature, leading to an effective improvement of the toughness with sacrificing strength moderately. Under the treatment of water quenching at 1000 °C and aging at 600 °C for 6 h, a plus 11% increase in ultimate strength could be achieved in the heat–treated TiBw/Ti6Al4V than that in the as–extruded below 600 °C on the premise of good interface bonding between TiBw and Ti matrix, resulting in 1520 MPa at ambient temperature, 1173 MPa at 400 °C and 947 MPa at 500 °C. Optimizing matrix alloys/composition is suggested to retard interface debonding arising from the softening of Ti matrix for further strengthening above 600 °C. •Heat treatments performed on in situ inhomogeneous TiBw/Ti6Al4V composite.•Superior mechanical properties are achieved in the TiBw/Ti6Al4V composite.•Retarding interface debonding is recommended to high-temperature performance.
ISSN:0925-8388
1873-4669
DOI:10.1016/j.jallcom.2016.09.229