Results 201 to 210 of about 32,320 (228)
Some of the next articles are maybe not open access.
Alloy Digest, 2021
Abstract Arcam Ti6Al4V is a titanium-based alloy that is used for the production of additively manufactured components using electron beam melting (EBM). These components are used in applications that demand high levels of reliable performance as in aerospace, automotive, biomedical, chemical, power generation, oil and gas extraction ...
openaire +1 more source
Abstract Arcam Ti6Al4V is a titanium-based alloy that is used for the production of additively manufactured components using electron beam melting (EBM). These components are used in applications that demand high levels of reliable performance as in aerospace, automotive, biomedical, chemical, power generation, oil and gas extraction ...
openaire +1 more source
Low temperature anelasticity in Ti6Al4V alloy and Ti6Al4V–SiCf composite
Materials Science and Engineering: A, 2009Abstract Internal friction and dynamic Young modulus measurements have been performed in the temperature range 80–350 K on the Ti6Al4V alloy and a Ti6Al4V–SiC f composite reinforced by unidirectional SiC fibers (SCS-6). A vibrating reed apparatus operating at low strain amplitude ( −5 ) in the frequency range 10 2 –10 4 Hz was employed.
AMADORI, STEFANO +6 more
openaire +3 more sources
Alloy Digest, 2021
Abstract Arcam Ti6Al4V ELI (Grade 23) is a titanium-based alloy that is used for the production of additively manufactured components using electron beam melting (EBM). This alloy offers the best all-round performance for a variety of weight reduction applications in aerospace, automotive, and marine equipment.
openaire +1 more source
Abstract Arcam Ti6Al4V ELI (Grade 23) is a titanium-based alloy that is used for the production of additively manufactured components using electron beam melting (EBM). This alloy offers the best all-round performance for a variety of weight reduction applications in aerospace, automotive, and marine equipment.
openaire +1 more source
Laser surface structuring of Ti6Al4V substrates for adhesion enhancement in Ti6Al4V-PEEK joints
Materials Science and Engineering: C, 2017PEEK is a promising polymer possessing high mechanical strength and biocompatibility and therefore it can be associated to titanium for biomedical applications. This study aimed at producing Ti6Al4V-PEEK joints with enhanced adhesion through laser-structuring Ti6Al4V treatments.
Bruno Henriques +6 more
openaire +3 more sources
Characterization of LENS-fabricated Ti6Al4V and Ti6Al4V/TiC dual-material transition joints
The International Journal of Advanced Manufacturing Technology, 2012The design of engineering structures with function-specific material members is on the increase. This requires advanced fabrication technologies with capabilities for multi-material processing. A major challenge however is obtaining effective transition from one material to another.
John Obielodan, Brent Stucker
openaire +1 more source
A novel porous Ti6Al4V: Characterization and cell attachment
Journal of Biomedical Materials Research Part A, 2005AbstractFor the first time, a highly porous strong Ti6Al4V was produced by using a “polymeric sponge replication” method. A polymeric sponge, impregnated with a Ti6Al4V slurry prepared from Ti6Al4V powders and binders, was subjected to drying and pyrolyzing to remove the polymeric sponge and binders. After sintering at a high temperature and under high
Li, J.P. +3 more
openaire +3 more sources
Microstructure and hardness of Ti6Al4V/NiAl/Ti6Al4V joints obtained through resistive heating
Journal of Materials Processing Technology, 2018Abstract Resistive heating of Ti6Al4V/NiAl/Ti6Al4V stack resulted in formation of two strips of new phases at the filler/Ti6Al4V interface. The thinner one, growing into filler material, consists of the NiAl(Ti) phase. Parts of thicker strip, being in a contact with α-Ti grains, are filled with the coarse crystalline α2-Ti3Al phase, while those ...
Łukasz Maj +5 more
openaire +1 more source
A comparison of the surface characteristics and ion release of Ti6Al4V and heat-treated Ti6Al4V
Journal of Biomedical Materials Research, 2000This work seeks to investigate the nanosurface characteristics and ion release for a Ti6Al4V alloy prepared by various methods (as received and heat treated at 1300 degrees C for 2 h) with three different passivation treatments (34% nitric acid passivation, 400 degrees C heating in air, and aging in 100 degrees C deionized water).
T M, Lee, E, Chang, C Y, Yang
openaire +2 more sources
TiCp/Ti6Al4V and (TiCp+TiBw)/Ti6Al4V Composites with Network Architecture
2017Except for the above TiBw/Ti, TiBw/Ti6Al4V composites, network-structured TiCp/Ti6Al4V (Huang et al. in Mater Sci Eng A 528(6):2859–2862, (2011) [1]), (TiCp+TiBw)/Ti6Al4V (Huang et al. in Mater Sci Eng A 527(24–25):6723–6727, (2010) [2]), (Ti5Si3+TiC)/Ti (Huang et al. in Compos Sci Technol 82:23–28, (2013) [3]), (TiC+Ti3SiC2+Ti5Si3)/Ti6Al4V (Liu et al.
Lujun Huang, Lin Geng
openaire +1 more source
Hydrogenation Behavior of Ti6Al4V Alloy
Rare Metal Materials and Engineering, 2017Abstract The hydrogenation behavior of Ti6Al4V alloy was investigated at different hydrogenation temperatures, holding time and hydrogen pressures. The distribution of hydrogen in titanium alloy was studied by OM. Results show that the hydrogen content of Ti6Al4V alloy is controlled by hydrogenation temperature, hydrogen pressure and holding time ...
Yuan Baoguo +3 more
openaire +1 more source