[HTML][HTML] Advances in additively manufactured titanium alloys by powder bed fusion and directed energy deposition: Microstructure, defects, and mechanical behavior
Ti and its alloys have been broadly adopted across various industries owing to their
outstanding properties, such as high strength-to-weight ratio, excellent fatigue performance …
outstanding properties, such as high strength-to-weight ratio, excellent fatigue performance …
[HTML][HTML] A review on improving mechanical properties of high entropy alloy: interstitial atom do**
C Zhu, L Xu, M Liu, M Guo, S Wei - Journal of Materials Research and …, 2023 - Elsevier
High entropy alloy breaks through the traditional concept of alloy design and provides a new
way of thinking for alloy composition design. High entropy alloys (HEAs) generally contain …
way of thinking for alloy composition design. High entropy alloys (HEAs) generally contain …
Designing against phase and property heterogeneities in additively manufactured titanium alloys
Additive manufacturing (AM) creates digitally designed parts by successive addition of
material. However, owing to intrinsic thermal cycling, metallic parts produced by AM almost …
material. However, owing to intrinsic thermal cycling, metallic parts produced by AM almost …
Powder metallurgy of titanium–past, present, and future
Powder metallurgy (PM) of titanium is a potentially cost-effective alternative to conventional
wrought titanium. This article examines both traditional and emerging technologies …
wrought titanium. This article examines both traditional and emerging technologies …
Heterogeneous aspects of additive manufactured metallic parts: a review
GM Karthik, HS Kim - Metals and Materials International, 2021 - Springer
Metal additive manufacturing (MAM) is an emerging technology to produce complex end-
use metallic parts. To adopt MAM for manufacturing numerous engineering parts used in …
use metallic parts. To adopt MAM for manufacturing numerous engineering parts used in …
Effect of powder reuse times on additive manufacturing of Ti-6Al-4V by selective electron beam melting
HP Tang, M Qian, N Liu, XZ Zhang, GY Yang, J Wang - Jom, 2015 - Springer
An advantage of the powder-bed-based metal additive manufacturing (AM) processes is that
the powder can be reused. The powder reuse or recycling times directly affect the …
the powder can be reused. The powder reuse or recycling times directly affect the …
Integrating data mining and machine learning to discover high-strength ductile titanium alloys
Based on the growing power of computational capabilities and algorithmic developments,
with the help of data-driven and high-throughput calculations, a new paradigm accelerating …
with the help of data-driven and high-throughput calculations, a new paradigm accelerating …
Selective electron beam manufactured Ti-6Al-4V lattice structures for orthopedic implant applications: Current status and outstanding challenges
Abstract Additively manufactured Ti-6Al-4V lattices display unique mechanical and
biological properties by virtue of their engineered structure. These attributes enable the …
biological properties by virtue of their engineered structure. These attributes enable the …
A review on high‐strength titanium alloys: microstructure, strengthening, and properties
LM Kang, C Yang - Advanced Engineering Materials, 2019 - Wiley Online Library
The authors review the recent advances in the development of high‐strength titanium alloys.
First, they summarize conventional strengthening approaches and their mechanisms …
First, they summarize conventional strengthening approaches and their mechanisms …
Metal alloys for fusion‐based additive manufacturing
Metal additive manufacturing (AM) is an innovative manufacturing technique, which builds
parts incrementally layer by layer. Thus, metal AM has inherent advantages in part …
parts incrementally layer by layer. Thus, metal AM has inherent advantages in part …