2012925 · The Ti-rich side of this phase diagram below 1350 °C was reinvestigated by [] by means of diffusion couple experiments and DSC measurements on
contact200561 · Fig. 2 shows the DSC curves of the Ti–Nb–Pd alloy after solution treatment at 1173 K for 1 h and quenching into water.The scanning rate was kept at about 10
contactTi−Pd alloys were investigated as heterogeneous catalysts for hydrogen autotransfer reactions. This is the first reported study of alloys as catalysts for hydrogen-borrowing
contact202291 · After the calibration of the PD parameters of the fatigue model for SLM and EBM Ti6Al4V alloys tested in the air, the PD CFCG model showed good predictability of
contact2016428 · The relatively good mechanical properties of the as-cast α-Ti-type Ti94Ag3Pd3 alloy (tensile strength up to 850 MPa and elongation of ~10%) can be
contacttype Ti 94Ag3Pd3 alloy (tensile strength up to 850 MPa and elongation of ~10%) can be explained by its severely deformed, fine crystalline structure. The high biocompatibility of
contact2016428 · The Ti94Ag3Pd3 alloy shows a good potential to be applied as a biomedical implant alloy and can be explained by the Ag–Pd interaction, which inhibits
contactTi-Pd Grade 7. Grade 7 contains 0.12 to 0.25% palladium. This grade is similar to Grade 2. ... Ti-Pd Grade 11. This alloy has mechanical properties similar to commercially pure
contact201331 · DOI: 10.1016/S1003-6326(13)62541-8 Corpus ID:; Corrosion resistance of Ti and Ti–Pd alloy in phosphate buffered saline solutions with and without
contact2012925 · The Ti-rich side of this phase diagram below 1350 °C was reinvestigated by [] by means of diffusion couple experiments and DSC measurements on transformation temperature of quenched and aged specimens.Figure 1 shows the updated Pd-Ti phase diagram. The new phase diagram differs most significantly in the presence of the second
contactXiao et al.'s work offered compelling evidence that the surface strain in Pd-based alloyed nanoparticles can be readily tuned by adding Co and Fe elements to achieve optimal electrocatalytic performance. 107 Moreover, Ham et al. showed that the electrochemical activity of Pd 3 Co alloy catalysts towards the ORR can be enhanced by adding a small ...
contact2016428 · The relatively good mechanical properties of the as-cast α-Ti-type Ti94Ag3Pd3 alloy (tensile strength up to 850 MPa and elongation of ~10%) can be explained by its severely deformed, fine crystalline structure. The high biocompatibility of Ti94Ag3Pd3 can be explained by the Ag-Pd interaction, which inhibits the release of Ag ions from the
contact2018313 · The ANN models are a powerful tool to optimize the composition to design the high temperature virtual Ti–Ni–Pd SMAs. 3. The Ti–rich Ti 51.4 Ni 19.2 Pd 29.4 thin film aging for 1 h significantly decreases the transformation temperatures due to the presence of Ti 2 Ni(Pd) precipitation, which leads to changes in the composition of the ...
contact2017418 · turn can embrittle the alloy. Amorphous alloys of titanium are better in this respect, since they do form hydrides and yet reversibly accom-modate large quantitities of hydrogen by an expansion of the nearest– neighbour distance. Zr–Ti Laves phase Ti0.24Zr0.76(Ni0.55Mn0.3V0.065Fe0.085)2.1 has
contact2002130 · Titanium alloys classified by metallurgical structure. Alloy. Example. Alpha Alloys. Commercially Pure – ASTM grades 1,2,3 and 4. Ti/Pd Alloys – ASTM grades 7 and 11. Alpha + Compound. Ti-2.5%Cu – IMI 230. Near Alpha Alloys.
contact2023315 · 1.Introduction. Binary Ti-xNi shape memory alloys (SMAs) have found many successful applications in various fields, such as medicine and aerospace engineering owing to their unique combination of superelasticity and biocompatibility characteristics in addition to their physical and mechanical properties [1], [2], [3].However, innovations in
contact2023323 · Nearly ~ 108 types of High entropy alloys (HEAs) can be developed from about 64 elements in the periodic table. A major challenge for materials scientists and metallurgists at this stage is to ...
contact2017102 · In this report, we investigated how Cr and Ti adhesion layers influence the nanostructure of 2–20 nm thin Au films by means of high-resolution electron microscopy, complemented with atomic force microscopy and X-ray photoelectron spectroscopy. Pure Au films were compared to Ti/Au and Cr/Au bilayer systems. Both Ti and Cr had a striking
contact2018919 · The shape memory properties and microstructure of the as-received and aged polycrystalline Ni 45,3 Ti 29,7 Hf 20 Pd 5 shape memory alloys were investigated. It was revealed that their functional properties such as transformation temperatures, thermal hysteresis, dissipation energies strongly depend on thermal cycling, aging treatments
contact2012925 · The Ti-rich side of this phase diagram below 1350 °C was reinvestigated by [] by means of diffusion couple experiments and DSC measurements on transformation temperature of quenched and aged specimens.Figure 1 shows the updated Pd-Ti phase diagram. The new phase diagram differs most significantly in the presence of the second
contact202151 · Corrosion behavior of high-level waste container materials Ti and Ti–Pd alloy under long-term gamma irradiation in Beishan groundwater * Qianglin Wei ... (450 R⋅h −1, 4.50 Gy⋅h −1), irradiation does not affect the excellent pitting resistance of Ti alloys and even promotes the crevice re-passivation. Different from 304L stainless ...
contact202047 · High stability Pd/ceramic/Ti-Al alloy composite membranes were prepared by electroless plating. Ceramic membranes fabricated by an in situ oxidation method were used as an inter-diffusion barrier between the Pd layer and the Ti-Al alloy support of the membranes to prevent intermetallic diffusion. The stabilities of the ceramic membranes
contact2016428 · The relatively good mechanical properties of the as-cast α-Ti-type Ti94Ag3Pd3 alloy (tensile strength up to 850 MPa and elongation of ~10%) can be explained by its severely deformed, fine crystalline structure. The high biocompatibility of Ti94Ag3Pd3 can be explained by the Ag-Pd interaction, which inhibits the release of Ag ions from the
contact2016830 · These peaks are fitted as Ti 4+ 2p 1/2 at 464.4 eV, Ti 4+ 2p 3/2 at 458.6 eV and Ti 3+ 2p 3/2 at 460.2 eV. The line separation between Ti2p1/2 and Ti2p3/2 is 5.8 eV, which is consistent with the ...
contact2023315 · 1.Introduction. Binary Ti-xNi shape memory alloys (SMAs) have found many successful applications in various fields, such as medicine and aerospace engineering owing to their unique combination of superelasticity and biocompatibility characteristics in addition to their physical and mechanical properties [1], [2], [3].However, innovations in
contact2021831 · Quaternary Ni-Ti-Cu-Pd formulations were cast by vacuum induction melting (VIM) with the aim of preparing low-hysteresis shape memory alloys and verifying the applicability of the Co-Factor theory in conventional industrial manufacturing processes. The cast alloys showed lower transformation hysteresis width in DSC measurements
contact2023323 · Nearly ~ 108 types of High entropy alloys (HEAs) can be developed from about 64 elements in the periodic table. A major challenge for materials scientists and metallurgists at this stage is to ...
contact2023325 · The structural, elastic, electronic, magnetic, and thermodynamic properties of the all-Heusler Pd 2 CrGe alloy are investigated using the full-potential linearized augmented plane wave method based on density functional theory. The results show that the Pd 2 CrGe compound is more stable in the Cu 2 MnAl type structure compared to the
contact2023323 · The development of efficient and stable catalysts is of great importance for the elimination of volatile organic pollutants (VOCs). In this work, AuPdx nanoparticles (NPs) were loaded on TiO2 through the electrostatic adsorption approach to generate the yAuPdx/TiO2 (i.e., 0.35AuPd0.46/TiO2, 0.34AuPd2.09/TiO2, and 0.37AuPd2.72/TiO2; x
contact202047 · High stability Pd/ceramic/Ti-Al alloy composite membranes were prepared by electroless plating. Ceramic membranes fabricated by an in situ oxidation method were used as an inter-diffusion barrier between the Pd layer and the Ti-Al alloy support of the membranes to prevent intermetallic diffusion. The stabilities of the ceramic membranes
contactTi–Pd alloy catalysts were developed for the cross β-arylmethylation between arylmethylalcohols and different primary alcohols via a hydrogen autotransfer mechanism. The alloy catalysts could be reused multiple times without the need for pre-activation. Analysis of the reaction solution by inductively couple
contactConcentration of xmol%Pd in Ti-Pd alloys Fig. 2 Cube root of ¡-Ti lattice volume with Pd concentration in TiPd alloys. 468 465 462 459 456 453 Counting rate (Arb. unit) Binding energy, Eb / eV 2p3/2 2p1/2 Ti 2p 1.0Pd Ti Ti4+ Ti3+ Ti2+ Ti 0 Fig. 3 Ti 2p spectra from mirror-polished Ti and 1.0Pd. 1912 R. Kondo et al.
contact2022118 · Nonetheless, in the hydrogen separation temperature range, the V–Ti–Pd alloy has the largest thermal expansion coefficient (α = 2.048×10 –5 K –1), which indicates its poor thermal characteristics. Altogether, the superior mechanical properties of the V–Ti–Ni alloy indicate that it will be resistant to deformation and have a long ...
contact202151 · Corrosion behavior of high-level waste container materials Ti and Ti–Pd alloy under long-term gamma irradiation in Beishan groundwater * Qianglin Wei ... (450 R⋅h −1, 4.50 Gy⋅h −1), irradiation does not affect the excellent pitting resistance of Ti alloys and even promotes the crevice re-passivation. Different from 304L stainless ...
contact20191021 · Based on the crystalline structure of reinforcing media, TRIP-reinforced Ti-based BMGCs can be categorized into two groups, i.e. β-type and B2-type. ... The fracture strength for Ta0.2 and Ta0.3 alloys is 1619 ± 8 and 1662 ± 20 MPa, respectively, while the tensile ductility is 0.9 ± 0.2% and 1.0 ± 0.2%, respectively. Moreover, the tensile ...
contactYang et al. investigated the effect of Nb addition on the GFA of Ti 40 Zr 10 Cu 33 Pd 14 Sn 3 and found the precipitation of β-Ti and Ti 2 Cu phases (Yang et al., 2017a). Wu et al. (2019) also observed decreased GFA in Ti 40 Zr 10 Cu 33 Pd 14 Sn 3 MG with the addition of Nb. It is seen that the addition of Nb is detrimental to the GFA, and the ...
contact2002823 · Ti-0.05Pd – Grade 17. Grade 17 is identical to grade 11, with the exception that the palladium added to improve corrosion resistance is less then with grade 11. Mechanical and physical properties, specifications and forms are all identical to grade 11. The alloy composition differs by the reduction of Pd to 0.04-0.08%.
contactTi-Pd Grade 7. Grade 7 contains 0.12 to 0.25% palladium. This grade is similar to Grade 2. ... Ti-Pd Grade 11. This alloy has mechanical properties similar to commercially pure titanium grade 1, but with palladium added to enhance corrosion resistance in crevices and reducing acid chloride environments. As with grade 1, grade 11 has optimum ...
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