Magnetic properties of rare earth superlattices

Wilkins, Caroline Jane Theresa

January 2001

No description available.

530.41

Electrical properties of Si/Si←1←-←xGe←x/Si inverted modulation doped structures

Sadeghzadeh, Mohammad Ali

January 1998

No description available.

541

Advanced electron microscopy of wide band-gap semiconductor materials

Fay, Michael W.

January 2000

No description available.

621.31042

Brillouin Light Scattering studies of magnetic thin films and multilayers

Pugh, Peter Rupert Thomas

January 2000

No description available.

535

The transport properties of two dimensional electron gases in spatially random magnetic fields

Rushforth, Andrew William

January 2000

No description available.

530.41

Spin injection into high temperature superconductor

Severac, Childerick Henri Louis

January 2000

No description available.

530.41

Aspects of spin polarised transport

Allen, William D.

January 1999

No description available.

530.41

Electrical resistivity of thin metal films and multilayers

Fenn, Michael

January 1999

No description available.

530.41

The convective instability of the boundary-layer flow over families of rotating spheroids

Samad, Abdul

January 2011

The majority of this work is concerned with the local-linear convective instability analysis of the incompressible boundary-layer flows over prolate spheroids and oblate spheroids rotating in otherwise still fluid. The laminar boundary layer and the perturbation equations have been formulated by introducing two distinct orthogonal coordinate systems. A cross-sectional eccentricity parameter e is introduced to identify each spheroid within its family. Both systems of equations reduce exactly to those already established for the rotating sphere boundary layer. The effects of viscosity and streamline-curvature are included in each analysis. We predict that for prolate spheroids at low to moderate latitudes, increasing eccentricity has a strong stabilizing effect. However, at high latitudes of ϴ ≥ 60, increasing eccentricity is seen to have a destabilizing effect. For oblate spheroids, increasing eccentricity has a stabilizing effect at all latitudes. Near the pole of both types of spheroids, the critical Reynolds numbers approach that for the rotating disk boundary layer. However, in prolate spheroid case near the pole for very large values of e, the critical Reynolds numbers exceed that for the rotating disk. We show that high curvature near the pole of prolate spheroids is responsible for the increase in critical Reynolds number with increasing eccentricity. For both types of spheroids at moderate eccentricity, we predict that the most amplified modes travel at approximately 76% of the surface speed at all latitudes. This is consistent with the existing studies of boundary-layer flows over the related rotating-disk, -sphere and -cone geometries. However, for large values of eccentricity, the traveling speed of the most amplified modes increases up to approximately 90% of the surface speed of oblate spheroids and up to 100% in the prolate spheroid case.

532.051

The effect of rework on brittle fractures in lead free solder joints : The growth of intermetallic compounds during rework and its effects

Dornerus, Elin

January 2009

Saab Microwave Systems, SMW is a supplier of radar systems. The circuit boards that are operating in their radars have components which solder joints contains lead. However, the EU directive RoHs and WEEE are causing SMW to prepare for a transition to lead free solder joints. The objective of this thesis is to gain deeper knowledge of lead free solder joints. Brittle fractures in solder joints is a type of failure that might increase in a transition to lead free solder joints. The brittle fractures are induced by the creation of the intermetallic phases which are formed during soldering. The amount and composition of the intermetallics affects the mechanical strength of the joint. An intermetallic layer is thickened during heat exposure as during soldering, thermal aging and rework. The focus of this thesis was to investigate how rework affect the brittleness of the lead free solder joint and thereby how the intermetallic layers change depending on chemical composition, design and reflow cycles. Two types of components and two types of solder materials (SnPb and SAC305) were studied. To study the mechanical properties of the joint a shear testing device was used. This is a way of measuring the reliability of the joint when subjected to mechanical shock. The intermetallic layers were examined in a Scanning Electron Microscope and the fracture surfaces were studied in a optical microscope, a scanning electron microscope and a stereomicroscope. The heat spread over the board where examined by soldering thermocouples to the board and plotting the values of time and temperature. The results showed that the rework process did not have any significant impact of the intermetallic growth. The adjecent and distant components were not damaged during rework. A lead free rework process can therefor be preformed successfully at SMW. The intermetallic layers formed at the interface between the a lead free solder and a nickel finish grew faster than an intermetallic layer formed between a leaded solder and a nickel finish. The presence of nickel could therefore have a more negative effect on the intermetallic growth rate for the lead free material compared to the leaded.

Intermetalliska skikt

sprödbrott

lödfogar

blyfritt

Intermetallic layers

Intermetallic growth

brittle fractures

solder joints

lead free

RoHs

Mechanical engineering

Maskinteknik