Agglomerating behavior of in-situ TiB2 particles and strength-ductility synergetic improvement of in-situ TiB2p/7075Al composites through ultrasound vibration
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In: Materials characterization, Vol. 208.2024, No. February, 113652, 02.2024.
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TY - JOUR
T1 - Agglomerating behavior of in-situ TiB2 particles and strength-ductility synergetic improvement of in-situ TiB2p/7075Al composites through ultrasound vibration
AU - Wu, Yihong
AU - Li, Linwei
AU - Kang, Huijun
AU - Guo, Enyu
AU - LI, Jiehua
AU - Du, Guohao
AU - Chen, Zongning
AU - Wang, Tongmin
N1 - Publisher Copyright: © 2024
PY - 2024/2
Y1 - 2024/2
N2 - Agglomerates of in-situ particles are the key detrimental defects in particulate reinforced aluminum matrix composites (PRAMCs) by acting as Achilles' heel leading to the premature failure of the materials. Effective methods to disperse/eliminate these agglomerates rely on in-depth understanding of the agglomeration mechanism of the in-situ particles. In this work, the agglomerating behavior of TiB 2 particles in Al-Ti-B system was investigated through the thermit reactions between mixed fluorides and molten aluminum. The results indicate that the morphological patterns of TiB 2 agglomerates are inherited from the preformed Al 3Ti intermedium. The formation of flocculent, shell and flaky TiB 2 agglomerates are the results of the diffusing boron atoms continuously reacting with Al 3Ti. The in-situ Al-TiB 2 was used as a precursor to prepare TiB 2p/7075 Al composites. In particular, ultrasound vibration treatment was applied to explore if a locally forced oscillation can deagglomerate the TiB 2 agglomerates. Microstructural observations strongly support such speculation. Thanks to the deagglomeration and dispersion of TiB 2 particles, both the strength and ductility of the PRAMC have been improved drastically. The fracture surface of the composites was transformed from particle debonding to the dominance of ductile fracture.
AB - Agglomerates of in-situ particles are the key detrimental defects in particulate reinforced aluminum matrix composites (PRAMCs) by acting as Achilles' heel leading to the premature failure of the materials. Effective methods to disperse/eliminate these agglomerates rely on in-depth understanding of the agglomeration mechanism of the in-situ particles. In this work, the agglomerating behavior of TiB 2 particles in Al-Ti-B system was investigated through the thermit reactions between mixed fluorides and molten aluminum. The results indicate that the morphological patterns of TiB 2 agglomerates are inherited from the preformed Al 3Ti intermedium. The formation of flocculent, shell and flaky TiB 2 agglomerates are the results of the diffusing boron atoms continuously reacting with Al 3Ti. The in-situ Al-TiB 2 was used as a precursor to prepare TiB 2p/7075 Al composites. In particular, ultrasound vibration treatment was applied to explore if a locally forced oscillation can deagglomerate the TiB 2 agglomerates. Microstructural observations strongly support such speculation. Thanks to the deagglomeration and dispersion of TiB 2 particles, both the strength and ductility of the PRAMC have been improved drastically. The fracture surface of the composites was transformed from particle debonding to the dominance of ductile fracture.
KW - Al Ti
KW - Aluminum matrix composites
KW - Strength-ductility
KW - TiB agglomerates
KW - Ultrasound vibration
UR - http://www.scopus.com/inward/record.url?scp=85182508870&partnerID=8YFLogxK
U2 - 10.1016/j.matchar.2024.113652
DO - 10.1016/j.matchar.2024.113652
M3 - Article
VL - 208.2024
JO - Materials characterization
JF - Materials characterization
SN - 1044-5803
IS - February
M1 - 113652
ER -