Results 191 to 200 of about 34,395 (242)

Surface Roughness of Interior Fine Flow Channels in Selective Laser Melted Ti-6Al-4V Alloy Components. [PDF]

open access: yesMicromachines (Basel)
Islam SA   +7 more
europepmc   +1 more source

Failure mechanisms data analysis during tension of additively manufactured Ti-6Al-4V alloy reinforced with nano-zirconia particles: Investigations of the crack path. [PDF]

open access: yesData Brief
Guennec B   +10 more
europepmc   +1 more source

Spallation in the Alloy Ti-6Al-4V

AIP Conference Proceedings, 2002
The dynamic tensile (spall) strength of the common engineering titanium alloy Ti‐6Al‐4V has been investigated as a function of impact stress and specimen thickness under conditions of symmetrical impact. Flyer and target plate geometries have been controlled such that release fans from the rear of the flyer and the target meet in the middle of the ...
Bourne, Neil, Church, P D, Andrews, T
openaire   +3 more sources

Oxidation of Ti–6Al–4V alloy

Journal of Alloys and Compounds, 2009
Abstract Air oxidation behaviour of a Ti–6Al–4V alloy was examined over the temperature range of 600–800 °C for different time intervals ranging between 0.5 and 72 h. In addition to the determination of the oxidation kinetics by weight gain measurements, oxygen diffusion zone (ODZ) depth and hardness measurements were conducted on the cross-sections ...
Hasan Guleryuz, Huseyin Cimenoglu
openaire   +1 more source

Grindability of Cast Ti‐6Al‐4V Alloyed with Copper

Journal of Prosthodontics, 2009
Abstract Purpose: This study investigated the grindability of cast Ti‐6Al‐4V alloyed with copper. Materials and Methods: The metals tested were commercially pure titanium (CP Ti), Ti‐6Al‐4V, experimental Ti‐6Al‐4V‐Cu (1, 4, and 10 wt% Cu), and Co‐Cr alloy. Each metal was cast into five blocks (3.0 × 8.0 × 30.0 mm3).
Ikuya, Watanabe   +2 more
openaire   +2 more sources

Superplastic behavior of Ti–6Al–4V–0.1B alloy

Materials Science and Engineering: A, 2012
Abstract The superplastic behavior of Ti–6Al–4V–0.1B sheet was evaluated. The strain rate sensitivity (m) is ≥0.47 in the temperature range 775–900 °C and at strain rate, e ˙ = 10 − 5 to 10 − 3  s − 1 . The material exhibits tensile elongations > 200% in the temperature range 725–950 °C at e ˙ = 3 ×
Sinha, V.   +3 more
openaire   +3 more sources

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