Navid Sohrabi scite author profile

Bulk Metallic Glasses (BMG) are metallic alloys that have the ability to solidify in an amorphous state. BMGs show enhanced properties, for instance, high hardness, strength, and excellent corrosion and wear resistance. BMGs produced by conventional methods are limited in size due to the high cooling rates required to avoid crystallization and the associated detrimental mechanical properties. Additive manufacturing (AM) techniques are a potential solution to this problem as the interaction between the heat source, e.g., laser, and the feedstock, e.g., powder, is short and confined to a small volume. However, producing amorphous parts with AM techniques with mechanical properties comparable to as-cast samples remains a challenge for most BMGs, and a complete understanding of the crystallization mechanisms is missing. This review paper tries to cover recent progress in this field and develop a thorough understanding of the correlation between different aspects of the topic. The following subjects are addressed: (i) AM techniques used for the fabrication of BMGs, (ii) particular BMGs used in AM, (iii) specific challenges in AM of BMGs such as the control of defects and crystallization, (iv) process optimization of mechanical properties, and (v) future trends.

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Laser coating of a Zr-based metallic glass on an aluminum substrate

Sohrabi

Panikar

Jhabvala

et al. 2020

Surface and Coatings Technology

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Healing cracks in selective laser melting by 3D laser shock peening

Kalentics

Sohrabi

Ghasemi-Tabasi

et al. 2019

Additive Manufacturing

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Fatigue Performance of an Additively Manufactured Zr-Based Bulk Metallic Glass and the Effect of Post-Processing

Sohrabi

Nasab

Rouxel

et al. 2021

Metals

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Fatigue is the most common cause of failure of mechanical parts in engineering applications. In the current work, we investigate the fatigue life of a bulk metallic (BMG) glass fabricated via additive manufacturing. Specimens fabricated via laser powder-bed fusion (LPBF) are shown to have a fatigue ratio of 0.20 (fatigue limit of 175 MPa) in a three-point bending fatigue test. Three strategies for improving the fatigue behavior were tested, namely (1) relaxation heat treatment, giving a slight fatigue life improvement at high loading conditions (≥250 MPa), (2) laser shock peening, and (3) changing the build orientation, the latter two of which yielded no significant effects. It was found that the presence of lack of fusion (LoF) had the preponderant effect on fatigue resistance of the specimens manufactured. LoF was observed to be a source of stress localization and initiation of cracks. The fatigue life in BMGs fabricated by LPBF is thus primarily influenced by powder quality and process-induced defects, which cannot be removed by the post-treatments carried out in this study. It is believed that a slight increase in laser power, either in the near-surface regions or in the core of the specimens, could improve the fatigue behavior despite the associated (detrimental) increase of crystallized fraction.

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Sol–gel derived hydroxyapatite coating on TiB₂/TiB/Ti substrate

Esfahani

Dabir

Taheri

et al. 2012

Surface Engineering

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The low erosion resistance of titanium and its alloys has prevented their widespread application as joint implants. In addition, one essential requirement for the implants to bond with the living bone is the formation of a bone-like apatite on their surfaces in the host body. To enhance the erosion resistance of the surface, a diffused layer of TiB 2 was formed at 1000uC on the commercial pure titanium. Hydroxyapatite was then coated on the boronised titanium by means of dip coating in a sol-gel solution. In order to confirm the biocompatibility of the specimens, they were soaked in a simulated body fluid for several days. The surface morphology of the specimens after exposure was studied by scanning electron microscopy, whereas X-ray diffraction patterns clearly revealed the growth of a calcium phosphate phase on top of the surface. Results showed that both wear resistance and biocompatibility of the hydroxyapatite coated samples on boronised films were improved.

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Navid Sohrabi

Characterization, mechanical properties and dimensional accuracy of a Zr-based bulk metallic glass manufactured via laser powder-bed fusion

Additive manufacturing of a precious bulk metallic glass

Critical crystallization properties of an industrial-grade Zr-based metallic glass used in additive manufacturing

Additive Manufacturing of Bulk Metallic Glasses—Process, Challenges and Properties: A Review

Laser coating of a Zr-based metallic glass on an aluminum substrate

Healing cracks in selective laser melting by 3D laser shock peening

Fatigue Performance of an Additively Manufactured Zr-Based Bulk Metallic Glass and the Effect of Post-Processing

Sol–gel derived hydroxyapatite coating on TiB₂/TiB/Ti substrate

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Navid Sohrabi

Characterization, mechanical properties and dimensional accuracy of a Zr-based bulk metallic glass manufactured via laser powder-bed fusion

Additive manufacturing of a precious bulk metallic glass

Critical crystallization properties of an industrial-grade Zr-based metallic glass used in additive manufacturing

Additive Manufacturing of Bulk Metallic Glasses—Process, Challenges and Properties: A Review

Laser coating of a Zr-based metallic glass on an aluminum substrate

Healing cracks in selective laser melting by 3D laser shock peening

Fatigue Performance of an Additively Manufactured Zr-Based Bulk Metallic Glass and the Effect of Post-Processing

Sol–gel derived hydroxyapatite coating on TiB2/TiB/Ti substrate

Contact Info

Product

Resources

About

Sol–gel derived hydroxyapatite coating on TiB₂/TiB/Ti substrate