Effect of manganese on grain refinement of Mg-Al based alloys

Manganese is a grain refiner for high purity Mg-3%Al, Mg-6%Al, Mg-9%Al, and commercial AZ31 (Mg-3%Al-1%Zn) alloys when introduced in the form of an Al-60%Mn master alloy splatter but the use of pure Mn flakes and ALTAB (TM) Mn75 tablets shows no grain refinement. Long time holding of the melt at 730 degrees C leads to an increase in grain size. The mechanism is attributed to the presence of all epsilon-AlMn phase (hexagonal close-packed) in the master alloy splatter. (c) 2006 Acta Materialia Inc. Published by Elsevier Ltd. All rights reserved.

Understanding the crystallography of the eutectoid microstructure in a Zn-Al alloy using the edge-to-edge matching model

The orientation relationship (OR) between the beta(Zn) phase and the alpha(Al) phase and the corresponding habit planes in a Zn-Al eutectoid alloy were accurately determined using convergent beam Kikuchi line diffraction patterns. In addition to the previously reported OR. [11 (2) over bar0](beta)parallel to[110](alpha), (0002)(beta)parallel to ((1) over bar 11)alpha, two new ORs were observed. They are: [11 (2) over bar0](beta)parallel to [110], ((1) over bar 101)(beta) 0.82 degrees from (002)(alpha) and [(1) over bar 100](beta)parallel to[112](alpha), (0002)(beta) 4.5 degrees from (111)(alpha). These ORs can be explained and understood using the recently developed edge-to-edge matching model. (c) 2006 Acta Materialia Inc. Published by Elsevier Ltd. All rights reserved.

The creep behaviour of pressure diecast zinc-aluminium based alloys

The creep behaviour of three pressure diecast commercial zinc-aluminium based alloys: Mazak 3, corresponding to BS 1004A, and the new alloys ZA.8 and ZA.27 with a series of alloys with compositions ranging from 0% to 30% aluminium was investigated. The total creep elongation of commercial alloys was shown to be well correlated using an empirical equation. Based on this a parametrical relationship was derived which allowed the total creep extension to be related to the applied stress, the temperature and the time of test, so that a quantitative assessment of creep of the alloys could be made under different conditions. Deviation from the normal creep kinetics occurred in alloys ZA.8 and ZA.27 at very low stresses, 150°C, due to structural coarsening combined with partial transformation of ε -phase into T' phase. The extent of primary creep was found to increase with aluminium content, but secondary creep rates decreased in the order Mazak 3, ZA.8 and ZA.27. Thus, based on the above equation, ZA.8 was found to have a substantially better total creep resistance than ZA.27, which in turn was marginally better than Mazak 3 for strains higher than 0.5%, but inferior for smaller strains, due to its higher primary creep extension. The superior creep resistance of ZA.8 was found to be due to the presence of strictly-orientated, thin plate-like precipitates of ε(CuZn4) phase in the zinc matrix of the eutectic and the lamellarly decomposed β phase, in which the precipitation morphology and orientation of ε in the zinc matrix was determined. Over broad ranges of temperature and stresses, the stress exponents and activation energies for creep were found to be consistent with some proposed creep rate mechanisms; i.e. viscous glide for Mazak 3, dislocation climb over second phase particles for ZA.8 and dislocation climb for ZA.27, controlled by diffusion in the zinc-rich phase. The morphology of aluminium and copper-rich precipitates formed from the solid solution of zinc was clearly revealed. The former were found to further increase the creep rate of inherently low creep resistant zinc, but the latter contributed significantly to the creep resistance. Excess copper in the composition, however, was not beneficial in improving the creep resistance. Decomposition of β in copper-containing alloys was found to be through a metastable Zn-Al phase which is strongly stabilised by copper, and the final products of the decomposition had a profound effect on the creep strength of the alloys. The poor creep resistance of alloy ZA.27 was due to the presence of particulate products derived from decomposed β-phase and a large volume of fine, equiaxed products of continuously decomposed α-dendrites.

The fatigue properties of pressure diecast zinc-aluminium based alloys

The fatigue behaviour of the cold chamber pressure-die-cast alloys: Mazak3, ZA8, ZA27, M3K, ZA8K, ZA27K, K1, K2 and K3 was investigated at temperature of 20°C. The alloys M3K, ZA8K and ZA27K were also examined at temperatures of 50 and 100°C. The ratio between fatigue strength and tensile strength was established at 20°C at 107 cycles. The fatigue life prediction of the alloys M3K, ZA8K and ZA27K was formulated at 20, 50 and 100°C. The prediction formulae were found to be reasonably accurate. All of the experimental alloys were heterogeneous and contained large but varying amounts of pores. These pores were a major contribution and dominated the alloys fatigue failure. Their effect, however, on tensile failure was negligible. The ZA27K possessed the highest tensile strength but the lowest fatigue strength. The relationship between the fracture topography and the microstructure was also determined by the use of a mixed signal of a secondary electron and a back-scattered electron on the SEM. The tensile strength of the experimental alloys was directly proportional to the aluminium content within the alloys. The effect of copper content was also investigated within the alloys K1, K2, ZA8K and K3 which contained 0%, 0.5%, 1.0% and 2.0% respectively. It was determined that the fatigue and tensile strengths improved with higher copper contents. Upon ageing the alloys Mazak3, ZA8 and ZA27 at an ambient temperature for 5 years, copper was also found to influence and maintain the metastable Zn-Al (αm) phase. The copper free Mazak3 upon ageing lost this metastable phase. The 1.0% copper ZA8 alloy had lost almost 50% of its metastable phase. Finally the 2.0% copper ZA27 had merely lost 10% of its metastable phase. The cph zinc contained a limited number of slip systems, therefore twinning deformation was unavoidable in both fatigue and tensile testing.

Effect of solute segregation on the strength of nanocrystalline alloys:Inverse Hall-Petch relation

We have used a high-energy ball mill to prepare single-phased nanocrystalline Fe, Fe90Ni10, Fe85Al4Si11, Ni99Fe1 and Ni90Fe10 powders. We then increased their grain sizes by annealing. We found that a low-temperature anneal (T < 0.4 Tm) softens the elemental nanocrystalline Fe but hardens both the body-centered cubic iron- and face-centered cubic nickel-based solid solutions, leading in these alloys to an inverse Hall–Petch relationship. We explain this abnormal Hall–Petch effect in terms of solute segregation to the grain boundaries of the nanocrystalline alloys. Our analysis can also explain the inverse Hall–Petch relationship found in previous studies during the thermal anneal of ball-milled nanocrystalline Fe (containing ∼1.5 at.% impurities) and electrodeposited nanocrystalline Ni (containing ∼1.0 at.% impurities).

Comparison of crack growth behaviour between spray-formed and commercial plate Al-Zn-Mg-Cu alloy 7150

This paper compares the crack growth resistance of an experimental spray-formed extrusion with that of a commercial aluminium alloy, the two alloys having similar compositions but markedly different grain structures. Tensile and fracture behaviour is similar in both materials and is influenced by inclusion content. The two materials differ in their crack growth resistance, which is shown to be dependent upon grain size and shape. Environmentally-induced crack growth is favoured by aligned grain boundaries and small grain size.

Assessment of biodegradable magnesium alloys for enhanced mechanical and biocompatible properties

Biomaterials have been used for more than a century in the human body to improve body functions and replace damaged tissues. Currently approved and commonly used metallic biomaterials such as, stainless steel, titanium, cobalt chromium and other alloys have been found to have adverse effects leading in some cases, to mechanical failure and rejection of the implant. The physical or chemical nature of the degradation products of some implants initiates an adverse foreign body reaction in the tissue. Some metallic implants remain as permanent fixtures, whereas others such as plates, screws and pins used to secure serious fractures are removed by a second surgical procedure after the tissue has healed sufficiently. However, repeat surgical procedures increase the cost of health care and the possibility of patient morbidity. This study focuses on the development of magnesium based biodegradable alloys/metal matrix composites (MMCs) for orthopedic and cardiovascular applications. The Mg alloys/MMCs possessed good mechanical properties and biocompatible properties. Nine different compositions of Mg alloys/MMCs were manufactured and surface treated. Their degradation behavior, ion leaching, wettability, morphology, cytotoxicity and mechanical properties were determined. Alloying with Zn, Ca, HA and Gd and surface treatment resulted in improved mechanical properties, corrosion resistance, reduced cytotoxicity, lower pH and hydrogen evolution. Anodization resulted in the formation of a distinct oxide layer (thickness 5-10 μm) as compared with that produced on mechanically polished samples (~20-50 nm) under ambient conditions. It is envisaged that the findings of this research will introduce a new class of Mg based biodegradable alloys/MMCs and the emergence of innovative cardiovascular and orthopedic implant devices.^

Efecto de la fuente y nivel de zinc en el comportamiento productivo de machos no castrados (40-110 kg) y su relación con el comportamiento sexual

El uso de fuentes de Zn (orgánicas e inorgánicas) en el pienso de cerdos prepúberes se ha mostrado indispensable, ya que este mineral ha evidenciado beneficios relacionados con aspectos reproductivos, respuesta inmunitaria, estado de salud, ganancia de peso, consumo de pienso. Los primeros estudios que identificaron al Zn como componente fundamental en la reproducción fueron en la década de los 40´s, en donde se estableció la importancia de este mineral en el desarrollo de las células de Leydig, a partir de estos descubrimientos se recomienda la utilización del mineral en el pienso de los cerdos. Sin embargo, las recomendaciones que se han hecho para apoyar el efecto del Zn en la reproducción, fueron identificadas hace 30 años, y poco se ha estudiado desde entonces con respecto al nivel de Zn que habría que incluir en el pienso. Por otra parte, la industria alimenticia animal ha desarrollado fuentes minerales con mayor biodisponibilidad, por un lado para que el organismo pueda utilizarlo más rápida y eficientemente (>biodisponibilidad) y por otra parte para evitar que el mineral consumido por el animal, se pierda a través de las deyecciones, asegurando con ello no solo la reducción de las pérdidas económicas, sino la minimización del impacto ambiental que el Zn ejerce negativamente. De esta manera, se decidió realizar una investigación que proporcionara información sobre el efecto de las fuentes y niveles de Zn, en la eficiencia de crecimiento y desarrollo de cerdos prepúberes y verracos jóvenes, en el desarrollo de los testículos y sus estructuras celulares, así como en el comportamiento sexual de los verracos jóvenes. Para lo anterior se utilizaron 50 cerdos de la línea genética York x Landrace, con un peso medio inicial de 35±1.25, estos animales se distribuyeron en siete tratamientos, los cuales correspondieron a dietas formuladas con y sin la adición de fuente de Zn (ZnSO4, ZnO, ZnMet) , y a dos niveles (150ppm y 200ppm de Zn). La dieta base fue formulada utilizando la tabla de necesidades nutritivas del FEDNA (2006). Todos los cerdos fueron colocados en jaulas individuales, con comedero y bebedero individual. Se les dio un periodo de adaptación de 15 días, posteriormente se inició la fase experimental en la que se midió el consumo de pienso (CDP), conversión alimenticia (CA), ganancia de peso (GDP), al finalizar el periodo de crianza (Crecimiento, Desarrollo y Finalización) y los cerdos llegaron a un peso mayor a 100Kg, se sacrificaron tres cerdos, de los cuales se obtuvieron los testículos, epidídimos, bazo, páncreas, hueso (fémur), hígado y riñones, para analizar a través de Espectrofotometría de Absorción Atómica la concentración de Zn...

Dominios magnéticos y respuesta dinámica en aleaciones ferromagnéticas de FePt .

El resumen se encuentra en un archivo pdf.

Dominios magnéticos y respuesta dinámica en aleaciones ferromagnéticas de FePt .

El resumen se encuentra en un archivo pdf.

Utilización conjunta de técnicas de inmovilización y fitoextracción en la descontaminación de suelos

Se estudia la viabilidad de la combinación de dos técnicas (estabilización y fitoextracción) a partir del estudio de los lixiviados y de las tasas de fitoextracción. Como enmienda estabilizante se usó lodo de mármol (~ 97% de CaCO3) y como planta fitoextractora Brassica juncea L. El estudio se llevó a cabo en dos suelos (uno ácido y otro básico) contaminados por As, Pb y Zn. La adición de lodo de mármol disminuyo significativamente la concentración de contaminantes en los lixiviados, al tiempo que la fitoextracción de dichos contaminantes siguió siendo relativamente elevada. Por tanto, la utilización conjunta de ambas técnicas reduce significativamente el lavado y dispersión de contaminantes al tiempo que sigue posibilitando su fitoextracción.