Journal ArticleDOI
Interface formation and bonding control in high-volume-fraction (TiC+TiB2)/Al composites and their roles in enhancing properties
TLDR
In this paper, a 50-60% (TiC+TiB2)/Al composites were fabricated in Al-Ti-B4C system via a one-step method of reaction and densification, and their interface bonding and mechanical properties were compared with those of in-situ TiC/Al composite.Abstract:
As interfaces play a more important role in high-volume-fraction ceramic/metal composites because of containing more hetero-phase interfaces, it is a great challenge to control the interfaces in such composites to balance their strength and plasticity and to obtain high performances. In this work, 50–60 vol% (TiC + TiB2)/Al composites were fabricated in Al–Ti–B4C system via a one-step method of reaction and densification, and their interface bonding and mechanical properties were compared with those of in-situ TiC/Al composites. Apparently, the defects, such as interfacial discontinuity, macro-pores, coarsening and agglomeration of particles, caused by increased ceramic content in the TiC/Al composites, are eliminated in the (TiC + TiB2)/Al composites using Al–Ti–B4C system. The 60 vol% (TiC + TiB2)/Al composite exhibits significantly enhanced mechanical properties, i.e. 70.5%, 60.7% and 69.8% respectively higher yield strength, ultimate compressive strength and plastic strain than 60 vol% TiC/Al composite. Such enhanced mechanical properties are attributed to the improvement in interface bonding strength and therefore the increase in the energy dissipation of crack propagation. The formation of enhanced interface in the (TiC + TiB2)/Al composites results from the reduction in the reaction heat in the Al–Ti–B4C system, improved crystallographic match and improved adhesion work between ceramic particles and matrix. This work may provide a new idea for the design and control of interfaces in high-volume-fraction ceramic-metal composites.read more
Citations
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Additive manufacturing of metallic lattice structures: Unconstrained design, accurate fabrication, fascinated performances, and challenges
TL;DR: An overview of conventional manufacturing methods and novel additive manufacturing technologies for metallic lattice structures is presented in this article, where the design, optimization, a variety of properties, and applications of metallic-lattice structures produced by additive manufacturing are elaborated.
Journal ArticleDOI
Enhancing strength-ductility synergy and mechanisms of Al-based composites by size-tunable in-situ TiB2 particles with specific spatial distribution
Dong Baixin,Qiang Li,Zhi-Fa Wang,Tian-Shu Liu,Hong-Yu Yang,Hong-Yu Yang,Shili Shu,Liang-Yu Chen,Feng Qiu,Qi-Chuan Jiang,Lai-Chang Zhang +10 more
TL;DR: In this paper, a strategy of design and synthesis of in-situ TiB2 particles to effectively tailor the microstructures and to enhance the mechanical performance of Al-Si-based composites was proposed.
Journal ArticleDOI
Corrosion behavior and characteristics of passive films of laser powder bed fusion produced Ti–6Al–4V in dynamic Hank’s solution
Liang-Yu Chen,Hong-Yue Zhang,Chuanbo Zheng,Hong-Yu Yang,Peng Qin,Cuihua Zhao,Sheng Lu,Shun-Xing Liang,Linjiang Chai,Lai-Chang Zhang +9 more
TL;DR: In this article, the authors investigated in vitro corrosion behavior and the characteristics of passive films formed on L-PBF-produced Ti-6Al-4V in both static and dynamic Hank's solutions.
Journal ArticleDOI
Role of trace nanoparticles in establishing fully optimized microstructure configuration of cold-rolled Al alloy
Tian-Shu Liu,Feng Qiu,Dong Baixin,Run Geng,Min Zha,Hong-Yu Yang,Hong-Yu Yang,Shili Shu,Qi-Chuan Jiang +8 more
TL;DR: In this paper, the role of trace in-situ nanoparticles in solid-liquid and solid-state transformations of cold-rolled Al-Cu5.0-Mg0.5-Si 0.5 alloy was investigated and compared.
Journal ArticleDOI
Unprecedented enhancement in strength-plasticity synergy of (TiC+Al6MoTi+Mo)/Al cermet by multiple length-scale microstructure stimulated synergistic deformation
Hong-Yu Yang,Hong-Yu Yang,Yi-Fan Yan,Tian-Shu Liu,Dong Baixin,Liang-Yu Chen,Shili Shu,Feng Qiu,Qi-Chuan Jiang,Lai-Chang Zhang +9 more
TL;DR: In this paper, a microstructure design concept using refractory metals and intermetallics to offer compromises between soft phase and hard phase is proposed, resulting in unprecedentedly enhanced strength-plasticity synergy.
References
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Aluminium matrix hybrid composites: a review of reinforcement philosophies; mechanical, corrosion and tribological characteristics
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The theory of metal - ceramic interfaces
TL;DR: The theory of metal-ceramic interfaces is a collection of approaches which are complementary as mentioned in this paper, ranging from thermodynamic modelling based on empirical correlations, through the image model of adhesion, semi-empirical tight-binding calculations, to first-principles calculations based on applying the density functional theory or Hartree - Fock theory.
Journal ArticleDOI
Crystallographic study of grain refinement in aluminum alloys using the edge-to-edge matching model
TL;DR: The edge-to-edge matching model for describing the interfacial crystallographic characteristics between two phases that are related by reproducible orientation relationships has been applied to the typical grain refiners in aluminum alloys as mentioned in this paper.