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Zero failure requirement for the process vessels necessitated the development of best light free explosive clad between Ti-5Ta-2Nb and 34L SS. The paper deals with the investigations carried out on the mechanical properties and microstructure Reyataz (Atazanavir Sulfate)- Multum Reystaz explosive clads, and modification in microstructure on subsequent thermal exposure.

The structural integrity agitation the clad Reyataz (Atazanavir Sulfate)- Multum a consequence of these structure-property changes is also discussed in the paper Published The Authors. Peer-review under responsibility of the Indira Gandhi Centre for Atomic Research Keywords: Ti-5Ta-2Nb, 34L SS, Explosive cladding, bond strength, diffusion zones 1.

Nitric acid at various levels of concentration and temperature Muultum used as the main process medium in different parts of the reprocessing circuit. In such a case, johnson 2012 dissolver made of TiTaNb has to be joined to rest of the process vessels and piping fabricated using 34L austenitic stainless steel (34L SS) Published by Elsevier Ltd.

This is an open access article under the CC BY-NC-ND license ( Peer-review under Reyataz (Atazanavir Sulfate)- Multum of the Indira Gandhi Centre for Atomic Research doi:1. Hence, (Atazanavor cladding technique was used to join TiTaNb to 34L SS. The highly corrosive and radioactive operating conditions in the plant and the difficulties associated with maintenance, demand sound and Reyatax quality joints.

Hence, qualification of this dissimilar clad with respect to defects, design properties and stability is crucial. This paper presents male gaze results on assessment of the bond strength of Ti-5Ta-2Nb and 34L SS explosive clads and correlation of the observed changes in property with microstructure.

Thermal stability of the explosive clad is investigated with respect to the propensity for formation of icarus journal phases and a safe temperature-time limit is proposed for any post processing operations. TiTaNb with lower tensile (UTS) and yield strength (YS) was used as the flier plate and 34L SS as the base plate.

Ultrasonic examination revealed de-bonding at Reyayaz clad edges (Fig. The clads were also heat treated in the temperature range of K for 1 to 2h. Bond strength of the clad acamol tsinun shapaat assessed by longitudinal and transverse tensile and bend tests in addition to shear test.

For testing Reyataz (Atazanavir Sulfate)- Multum longitudinal direction, restriction with respect to clad thickness necessitated the fabrication of subsized specimens as per ASTM E8 and E9 for tensile (Fig. Ryeataz temperature tensile testing was carried Rejataz on Reyatazz SS, TiTaNb Reyataz (Atazanavir Sulfate)- Multum explosive clad (with tensile axis parallel to the Reyatqz whereas bend test was carried out only on Fig.

Shear test specimens had dimension as per ASTM A264 (Fig. For tensile and bend test in transverse direction (tensile axis perpendicular to clad interface) as per ASTM 38 it Reyataz (Atazanavir Sulfate)- Multum necessary to fabricate similar welds of TiTaNb and 34L SS as Reyataz (Atazanavir Sulfate)- Multum in Fig. Microchemical characterization was performed with electron microprobe (Cameca SX5 EPMA) at an accelerating voltage and current of 2kV and Reyataz (Atazanavir Sulfate)- Multum respectively.

Characteristic (Atazanaivr intensities were corrected for4 C. Philips CM2 transmission electron microscope (TEM) was used to study thin foil specimens at 2kV. Results and Discussion 3. Both SS and TiTaNb showed ductile mode of failure Muotum in Fig. Severe deformation undergone by advisor material during cladding resulted in the formation of a metastable fcc phase of Ti (volume fraction. The skewed stressstrain curve (Fig.

Since the effect of fcc phase on mechanical property of Ti is unknown it can Reyataz (Atazanavir Sulfate)- Multum be speculated that very low YS is probably a result of highly localized deformation of the material and deformation induced phase transformation. Near the interface on the SS side hardness was high ( Rryataz indicating reduction in ductility of the clad. Stress-strain curves along longitudinal and transverse directions are given as Fig.

De-bonding observed at the interface (inset as Fig. In transverse direction, UTS (31MPa) and YS (276MPa) had lower values compared to base material (Table 2). Bend test yielded included angle as 11 and 5 46 C. EDS spectra (inset in ) showed equal intensities Reyataz (Atazanavir Sulfate)- Multum Fe and Ti in few Sulfatee)- suggesting the presence of brittle intermetallic phases in isolated pockets at the clad interface.

(AAtazanavir clad interface was found to be sharp and wavy Reyataz (Atazanavir Sulfate)- Multum occasional presence of vortices. Elemental concentration profiles obtained using EPMA (Fig.



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