2,294 research outputs found
Microstructure: Property correlation
Strain controlled torsional and biaxial (tension-torsion) low cycle fatigue behavior of Waspaloy was studied at room temperature as a function of heat treatment. Biaxial tests were conducted under proportional (when the axial and torsional strain cycles are in-phase) and non-proportional (when the axial and torsional strain cycles are 90 deg out-of-phase) cyclic conditions. The deformation behavior under these different cyclic conditions were evaluated by slip trace analysis. For this, a Schmidt-type factor was defined for multiaxial loading conditions and it was shown that when the slip deformation is predominant, non-proportional cycles are more damaging than proportional or pure axial or torsional cycles. This was attributed to the fact that under non-proportional cyclic conditions, deformation was through multiple slip as opposed single slip for other loading conditions, which gave rise to increased hardening. The total life for a given test condition was found to be independent of heat treatment. This was interpreted as being due to the differences in the cycles to initiation and propagation of cracks
Low cycle fatigue of MAR-M 200 single crystals at 760 and 870 deg C
Fully reversed low cycle fatigue tests were conducted on single crystals of the nickel-base superalloys Mar-M 200 at 760 C and 870 C. At 760 C, planar slip (octahedral) lead to orientation-dependent strain hardening and cyclic lives. Multiple slip crystals strain hardened the most, resulting in relatively high stress ranges and low lives. Single slip crystals strain hardened the least, resulting in relatively low stress ranges and higher lives. A preferential crack initiation site which was related to slip plane geometry was observed in single slip orientated crystals. At 870 C, the trends were quite different, and the slip character was much more homogeneous. As the tensile axis orientation deviated from 001 , the stress ranges increased and the cyclic lives decreased. Two possible mechanisms were proposed to explain the behavior: one is based on Takeuchi and Kuramoto's cube cross-slip model, and the other is based on orientation-dependent creep rates
Microstructures in rapidly solidified Ni-Mo alloys
Ni-Mo alloys of compositions ranging from pure Ni to Ni-40 at % Mo were rapidly solidified by Chill Block Melt Spinning in vacuum and were examined by optical metallography, X-ray diffraction and transmission electron microscopy. Rapid solidification resulted in an extension of molybdenum solubility in nickel from 28 to 37.5 at %. A number of different phases and microstructures were seen at different depths (solidification conditions) from the quenched surface of the melt spun ribbons
Anisotropic constitutive modeling for nickel base single crystal superalloy Rene N4 at 982 C
A back stress/drag stress constitutive model based on a crystallographic approach to model single crystal anisotropy is presented. Experimental results demonstrated the need for the back stress variable in the inelastic flow equations. Experimental findings suggested that back stress is orientation dependent and controls both strain hardening and recovery characteristics. Due to the observed stable fatigue loops at 1800 F, drag stress is considered constant for this temperature. The constitutive model operated with constraints determined only from tensile data was extensively tested from simple tensile and fatigue to complicated strain hold tests. The model predicted very well under those conditions
Some aspects of productivity in relation to fisheries of Indian neritic waters
It is generally accepted that tropical seas are less productive than
the temperate waters to the north and south of the Equator. Large
concentrations of nutrients are characteristic of Polar waters and areas
influenced by these waters are rich in anima~ and plant life. In rem•
perate waters ule nutrients accumulated during the \",inter months
support the burst of phytoplanktonic growth which reaches its peak
with increasing sunligh
Molecular cloning, characterization and expression of a nitrofuran reductase gene ofescherichia coli
Mini-mu derivatives carrying plasmid replicons can be used to clone genesin vivo. This method was adopted to generate phasmid clones which were later screened for their ability of restore nitrofurantoin sensitivity of a nitrofuran-resistant host by eliciting nitroreductase activity. One phasmid-derived clone (pAJ101) resulted in considerable increase in nitroreductase activity when introduced into a nitrofurantoin-resistant mutant ofEscherichia coli with reduced nitroreductase activity. Subsequently, a 1.8 kb fragment obtained from pAJ101 by partial digestion with 5au3A, was subcloned into pUC18 to yield pAJ102. The nitroreductase activity attributable to pAJ102 was capable of reducing both nitrofurantoin and nitrofurazone. The polypeptides encoded by pAJ102 were identified by the minicell method. A large, well-defined band corresponding to 37 kDa and a smaller, less-defined band corresponding to 35 kDa were detected. Tnl000 mutagenesis was used to delineate the coding segment of the 1.8 kb insert of pAJ102. A 0.8 kb stretch of DNA was shown to be part of the nitroreductase gene. The gene was mapped at 19 min on theEscherichia coli linkage map
High temperature low-cycle fatigue mechanisms in single crystals of nickel-based superalloy Mar-M 200
Twenty three high temperature low-cycle fatigue tests were conducted on single crystals of the nickel-based superalloy Mar-M 200. Tests were conducted at 760 and 870 C. SEM fractography and transmission electron microscopy were used to determine mechanisms responsible for the observed orientation dependent fatigue behavior. It has been concluded that the plastic characteristics of the alloy lead to orientation-dependent strain hardening and fatigue lives at 760 C. At 870 C, the elastic characteristics of the alloy dominated the behavior, even though the plastic strain ranges were about the same as they were at 760 C. This led to orientation-dependent fatigue lives, but the trends were not the same as they were at 760 C
Holistic approach in the management of PCOS: a pilot study of an online PCOS-reversal program
Background: Polycystic ovary syndrome (PCOS) is a complex disorder that can be managed but not permanently cured. Each woman has her own PCOS symptoms and its own root causes. A number of medications are prescribed to women with PCOS. However, a holistic approach could be the best way forward in managing a disease as complex as PCOS. Authors conducted this pilot study called the Sepalika 5-petal PCOS reversal program which consisted of individualized diet plans, magnet acutherapy, fitness regimens, dietary supplements and herbal products to evaluate whether these interventions improve PCOS symptoms, insulin resistance and hyperandrogenism.Methods: A total of 30 patients were recruited online from all parts of India using the PCOS symptom quiz. Various baseline investigations were performed at recruitment. They were suggested personalized diet plans, followed by exercise videos, magnetic acutherapy and herbal and micronutrient supplements. The program spanned over a period of 90 days and patients outlook and quality of life were also assessed at the end of the program.Results: The main goal of most participants was improvement in weight and energy issues, and regularization of periods. Each of these goals were achieved in all participants of the program. Patient-reported outcomes showed a definite improvement in the quality of life of the participants at the end of 90 days.Conclusions: PCOS is a physical - sexual, psychological and social syndrome; therefore, it is necessary to taking a more holistic approach to patient care beyond treating physical symptoms. Larger studies with more objective and subjective endpoints is the way forward
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