Microstructure Analysis of the Intermetallic Diffusion-Induced Alloy Phases in Composite Pd/Ag/Porous Stainless Steel Membranes

Abstract: The surface interactions and associated phase changes of the annealed electroless plated Pd and Ag on porous stainless steel (PSS) supports were investigated in the temperature range of 500-800 °C. The complete miscibility of the Pd and Fe binary solid solutions was verified by the X-ray phase analysis. The Fe segregation into the Pd matrix was as high as 59 wt % upon annealing at 800 °C for 20 h in H 2 . It was further shown that the solid solutions of Fe and Ag were immiscible for the temperature range inves… Show more

“…2 shows the XRD pattern of the membrane indicating a single face-centered cubic (fcc) phase and the formation of a homogeneous alloy. It has been previously suggested that the lattice constant of PdAg membranes varies with alloy composition according to Vegard's law [3,11]. However, no practical relationship between lattice constant and alloy stoichiometry was given there.…”

Impact of support mass flow resistance on low-temperature H2 permeation characteristics of a Pd95Ag5/Al2O3 composite membrane

“…2 shows the XRD pattern of the membrane indicating a single face-centered cubic (fcc) phase and the formation of a homogeneous alloy. It has been previously suggested that the lattice constant of PdAg membranes varies with alloy composition according to Vegard's law [3,11]. However, no practical relationship between lattice constant and alloy stoichiometry was given there.…”

Impact of support mass flow resistance on low-temperature H2 permeation characteristics of a Pd95Ag5/Al2O3 composite membrane

“…The diffractogram obtained after the vacuum-assisted dip coating and short Pd depositions (Fig. 10b) shows the reflection peaks of both the ␥-phase (austenite) and pure palladium (at 39.6 • , 46.2 • , 67.6 • , 81.7 • and 86 • ), suggesting that the metallic deposition is <1 m thick [28].…”

Dry reforming of methane in membrane reactors using Pd and Pd–Ag composite membranes on a NaA zeolite modified porous stainless steel support

“…To address this problem, several groups have developed metal/alloys [15][16][17][18] or microporous ceramic membranes based on silica [19][20][21][22] and zeolites [23][24][25] for H 2 separation at high temperatures. In addition, membrane reactor configurations have been investigated, where WGSR catalysts and membranes are integrated into a single process unit for H 2 separation and the subsequent WGSR shifting, overcoming equilibrium limitations at the same time [25][26][27][28][29].…”

Ultra-microporous membrane separation using toluene to simulate tar-containing gases