16 research outputs found
Conditions for the occurrence of acicular ferrite transformation in HSLA steels
For the class of steels collectively known as high strength low alloy (HSLA), an acicular ferrite (AF) microstructure produces an excellent combination of strength and toughness. The conditions for the occurrence of the AF transformation are, however, still unclear, especially the effects of austenite deformation and continuous cooling. In this research, a commercial HSLA steel was used and subjected to deformation via plane strain compression with strains ranging from 0 to 0.5 and continuous cooling at rates between 5 and 50 °C s −1 . Based on the results obtained from optical microscopy, scanning electron microscopy and electron backscattering diffraction mapping, the introduction of intragranular nucleation sites and the suppression of bainitic ferrite (BF) laths lengthening were identified as the two key requirements for the occurrence of AF transformation. Austenite deformation is critical to meet these two conditions as it introduces a high density of dislocations that act as intragranular nucleation sites and deformation substructures, which suppress the lengthening of BF laths through the mechanism of mechanical stabilisation of austenite. However, the suppression effect of austenite deformation is only observed under relatively slow cooling rates or high transformation temperatures, i.e., conditions where the driving force for advancing the transformation interface is not sufficient to overcome the austenite deformation substructures
Minimising treatment-associated risks in systemic cancer therapy
Aim of the review To review the consequences of drug-related problems (DRP) in systemic cancer therapy and identify specific contributions of the pharmacist to minimise treatment-associated risks. Method Searches in PubMed, Embase and the Cochrane Library were conducted. Bibliographies of retrieved articles were examined for additional references. Only papers in English between 1980 and 2007 were included. Results In systemic cancer therapy there is an enormous potential for DRP due to the high toxicity and the complexity of most therapeutic regimens. The most frequently reported DRP can be classified into adverse effects, drug–drug interactions, medication errors, and non-adherence. Pharmacists have enhanced efforts to assure quality and safety in systemic cancer therapy together with other health care providers. In consequence, oncology pharmacy has evolved as a novel specialist discipline. The endeavour to merge and co-ordinate individual activities and services of the pharmacist has led to pharmaceutical care concepts which aim at offering novel solutions to the various DRP. Conclusion Pharmaceutical care for cancer patients should be developed within research projects and integrated into disease management programs in order to ensure broad implementation
Crystallographic reconstruction study of the effects of finish rolling temperature on the variant selection during bainite transformation in C-Mn high-strength steels
The effect of finish rolling temperature (FRT) on the austenite- ()
to-bainite () phase transformation is quantitatively investigated in
high-strength C-Mn steels. In particular, the present study aims to clarify the
respective contributions of the conditioning during the hot rolling and the
variant selection (VS) during the phase transformation to the inherited
texture. To this end, an alternative crystallographic reconstruction procedure,
which can be directly applied to experimental electron backscatter diffraction
(EBSD) mappings, is developed by combining the best features of the existing
models: the orientation relationship (OR) refinement, the local pixel-by-pixel
analysis and the nuclei identification and spreading strategy. The
applicability of this method is demonstrated on both quenching and partitioning
(Q&P) and as-quenched lath-martensite steels. The results obtained on the C-Mn
steels confirm that the sample finish rolled at the lowest temperature
(829{\deg}C) exhibits the sharpest transformation texture. It is shown that
this sharp texture is exclusively due to a strong VS from parent brass
{110}, S {213} and Goss {110} grains, whereas the VS from the
copper {112} grains is insensitive to the FRT. In addition, a
statistical VS analysis proves that the habit planes of the selected variants
do not systematically correspond to the predicted active slip planes using the
Taylor model. In contrast, a correlation between the Bain group to which the
selected variants belong and the FRT is clearly revealed, regardless of the
parent orientation. These results are discussed in terms of polygranular
accommodation mechanisms, especially in view of the observed development in the
hot-rolled samples of high-angle grain boundaries with misorientation axes
between and