Titanium alloys have proved to be important lightweight structural materials since 1960's,
due to their excellent intermediate temperature mechanical properties, corrosion resistance …

There is an increasing need to develop lower cost titanium alloys. In this investigation, Ti-Al-
Mn ternary alloy system was experimentally and computationally investigated using …

The application of titanium components is generally limited by their high raw material and
manufacturing costs. In this paper, a lower cost cast titanium alloy based on the Ti-Al-Fe …

Abstract Calculation of Phase Diagram (CALPHAD) method was used to develop an
additive manufacturing (AM) titanium alloy design strategy for new alloys in the Ti-Al-Fe …

The Ti–Al–Cr–Mn system is a potentially useful system for lower cost titanium alloy
development; however, there are few reports about the experimental phase diagrams and …

As the manufacturing phase that yields the lowest cost per unit for lowvolume production,
machining is a crucial stage in the production process because it is almost always required …

The restricted number of materials available for additive manufacturing (AM) technologies is
a determining impediment to AM growing into sectors and providing supply chain relief. AM …

In recent years, the intersection of additive manufacturing (AM) technology and the nuanced
properties of titanium and its alloys has emerged as a promising frontier in the realm of …

TiAl-based intermetallic alloys have come to the fore as the preferred alloys for high-
temperature applications. Conventional methods (casting, forging, sheet forming, extrusion …

It is easy to understand why industry and, especially, aerospace engineers love titanium.
Titanium parts weigh roughly half as much as steel parts, but its strength is far greater than …