Add to ORKGThis thesis demonstrates the ability to create Ti-Fe alloys using two solid-state, powder-based technologies: the FFC-Cambridge process and field assisted sintering technology (FAST). Together, these technologies have many proposed benefits for Ti alloy production compared to the conventional route, with potential to significantly reduce the cost of Ti, provided they are effectively scaled up. This work assesses these technologies for the production and processing of Ti alloys, whilst focussing on inexpensive Fe as the major alloying element. Ti-Fe diffusion couples produced using FAST highlighted that the Fe diffusion rate into Ti increases dramatically from 800–1000°C. Chemical and microscopic analysis revealed that an intermetallic lay...
The mechanical properties of titanium alloys produced by powder metallurgy (PM) are dependent on the...
A systematic study has been conducted of the sintering, sintered microstructure and tensile properti...
It has been confirmed that micro-alloying is the effective way to refine the grain size and elevate ...
This thesis demonstrates the ability to create Ti-Fe alloys using two solid-state, powder-based tech...
Utilising novel extraction and processing technologies allows for the realisation of an alternative ...
This thesis demonstrates progress towards a step-change in the economics of titanium. Titanium's pro...
Field assisted sintering technology (FAST), also known as spark plasma sintering (SPS), is increasin...
This work studies a set of low cost beta alloys with the composition Ti-7Fe, processed by convention...
Cheap alloying elements and creative processing techniques are a way forward to open up more industr...
The high production costs of titanium in comparison to other structural metals is the main limiting ...
A series of low-cost Ti–10Mo-xFe (x = 1, 5, 9 wt%) alloys were fabricated using conventional press a...
In the present study, the production of Fe-Ti-B based alloys was realized and their structure and pr...
Titanium alloys are desired by aerospace manufacturers such as Safran Landing Systems due to their h...
The development of cost-affordable Ti alloys is key for the application of Ti in other industries li...
The mechanical properties of titanium alloys produced by powder metallurgy (PM) are dependent on the...
A systematic study has been conducted of the sintering, sintered microstructure and tensile properti...
It has been confirmed that micro-alloying is the effective way to refine the grain size and elevate ...
This thesis demonstrates the ability to create Ti-Fe alloys using two solid-state, powder-based tech...
Utilising novel extraction and processing technologies allows for the realisation of an alternative ...
This thesis demonstrates progress towards a step-change in the economics of titanium. Titanium's pro...
Field assisted sintering technology (FAST), also known as spark plasma sintering (SPS), is increasin...
This work studies a set of low cost beta alloys with the composition Ti-7Fe, processed by convention...
Cheap alloying elements and creative processing techniques are a way forward to open up more industr...
The high production costs of titanium in comparison to other structural metals is the main limiting ...
A series of low-cost Ti–10Mo-xFe (x = 1, 5, 9 wt%) alloys were fabricated using conventional press a...
In the present study, the production of Fe-Ti-B based alloys was realized and their structure and pr...
Titanium alloys are desired by aerospace manufacturers such as Safran Landing Systems due to their h...
The development of cost-affordable Ti alloys is key for the application of Ti in other industries li...
The mechanical properties of titanium alloys produced by powder metallurgy (PM) are dependent on the...
A systematic study has been conducted of the sintering, sintered microstructure and tensile properti...
It has been confirmed that micro-alloying is the effective way to refine the grain size and elevate ...