Perusoikeuskirja - nyt : Euroopan yhteisöjen tuomioistuimen tuomio 27.6.2006 (suuri jaosto) asiassa C-540/03, Euroopan parlamentti vastaan Euroopan unionin neuvosto

Käsittelee Euroopan yhteisöjen tuomioistuimen tuomiota C-540/03

Uutta ja vanhaa tulkintaa kansalaisuudesta ja sukupuolesta : vuosikokousesitelmä Suomen Kansantietouden Tutkijain Seuran vuosikokouksessa 27.3.2007 Joensuussa.

Ajankohtaista

Nd:YAG Laser Welding of 5083 Aluminium Alloy using Filler Wire

High reflectivity and high thermal conductivity, high vapour pressure of alloyingelements as well as low liquid surface tension and low ionisation potential, make laser welding of aluminium and its alloys a demanding task.Problems that occur during welding are mainly process instabilities of the keyhole and the melt pool, increased plasma formation above the melt pool and loss of alloying elements. These problems lead to unwanted metallurgical defects like hot cracks and porosity in the weld bead andother problems concerning the shape and appearance of the weld bead. In order to minimise the defects and improve the weld quality, the process and beam parameters need to be carefully adjusted along with a consideration concerning the use of filler wire for the welding process. In this work the welding of 3,0 mm thick grade 5083 aluminium alloy plates using a 3,0 kW Nd:YAG laser with grade 5183 filler wire addition is investigated. The plates were welded as butt joints with air gap sizes 0,5 mm, 0,7mm and 1,0 mm. The analysis of the weld beads obtained from the weldedsamples showed that the least imperfections were produced with 0,7 mm air gaps at moderate welding speeds. The analysis also covered the calculation of the melting efficiency and the study of the shape of the weld bead. The melting efficiency was on average around 20 % for the melting process of the welded plates. The weld beads showed the characteristic V-shape of a laser weld and retained this shape during the whole series of experiments.

Effect of Shielding Gases in Laser Welding of Aluminium Alloys

High reflectivity to laser light, alloying element evaporation during high power laser welding makes aluminium alloys highly susceptibility to weld defects such as porosity, cracking and undercutting. The dynamic behaviour of the keyhole, due to fluctuating plasma above the keyhole and the vaporization ofthe alloying elements with in the keyhole, is the key problem to be solved for the improvement of the weld quality and stabilization of the keyhole dynamics isperhaps the single most important development that can broaden the application of laser welding of aluminium alloys. In laser welding, the shielding gas is commonly used to stabilize the welding process, to improve the welded joint features and to protect the welded seam from oxidation. The chemicalcomposition of the shielding gas is a key factor in achieving the final qualityof the welded joints. Wide range of shielding gases varying from the pure gasesto complex mixtures based on helium, argon, nitrogen and carbon dioxide are commercially available. These gas mixtures should be considered in terms of their suitability during laser welding of aluminium alloys to produce quality welds. The main objective of the present work is to study the effect of the shielding gascomposition during laser welding of aluminium alloys. Aluminium alloy A15754 was welded using 3kW Nd-YAG laser (continuous wave mode). The alloy samples were butt welded with different shielding gases (pure and mixture of gases) so that high quality welds with high joint efficiencies could be produced. It was observed that the chemical composition of the gases influenced the final weld quality and properties. In general, the mixture gases, in correct proportions, enabled better utilisation of the properties of the mixing gases, stabilized the welding process and produced better weld quality compared to the pure shielding gases.

Hans Kejserliga Majestäts Nådiga Försäkran till samtelige Finlands Inbyggare; Gifwen Borgå, den 15/27 Martii 1809 - [Titelsidan]

Åbo 1809, Frenckell

Me Alexander I... Suuri Ruhtinas Suomen maasa... Wakutus-Kirja... Annettu Borgåsa sinä 15/27 päiwänä Maaliskuusa 1809

Turku 1809, Frenckell

Ruokalista 1875-11-27 - [Menu]

Helsingfors 1875, F. Tilgmann

Identifying Critical Business Success Factors of Paperboard Tray

Työn tavoitteena oli kartonkivuoan kriittisten menestystekijöiden ja kilpailuaseman selvittäminen jäähdytettyjen ruokatuotteiden markkinoilla Euroopassa. Kilpailija- ja tavoiteanalyysi suoritettiin kahden suomalaisen pakkaajan kesken. Pakkaajien haastattelut toteutettiin joko henkilökohtaisena tai sähköpostihaastatteluna. Muovi on yleisimmin käytetty jäähdytettyjen ruokatuotteiden pakkausmateriaali. Alumiinivuokien osuus on merkittävä erityisesti laatikkoruokien pakkauksena. Kartonkivuoille on kuitenkin havaittavissa selvää menestyspotentiaalia jäähdytettyjen ruokien pakkauksena. Kartonkivuokien hyvä imago ja edistyksellinen tuotekehitystyö mahdollistavat pakkaajien erityisvaatimuksien täyttämisen ja menestymisen markkinoilla. Kartonkivuoilla on useita ainutlaatuisia kilpailuetu- ja menestystekijöitä, kuten hyvä ulkonäkö ja painojälki. Suurin haaste on saada ruokatuotteiden pakkaajat tietoisiksi kartonkivuokien tuomista pakkausmahdollisuuksista.

Aluminium fouling and its impact on activated carbon based dioxin and furan removal in a wet scrubber at a co-incineration plant

Dioxins and furans, PCDD/Fs, are highly toxic substances formed in post combustion zones in furnaces. PCDD/F emissions are regulated by a waste incineration directive which relates also to co-incineration plants. Several observations of dioxin and furan enhancements in wet scrub- bers have been reported previously. This is thought to be due to the so-called "memory effect" which occurs when dioxins and furans absorb into plastic material in scrubbers and desorb when ambient circumstances alter significantly. At the co-incineration plant involved, dioxins and furans are controlled with a wet scrubber, the tower packing of which is made of plastic in which activated carbon particles are dispersed. This should avoid the memory effect and act as a dioxin and furan sink since dioxins and furans are absorbed irreversibly into the packing ma- terial. In this case, the tower packing in the scrubber is covered with a white layer that has been found to be mainly aluminium. The aim of this thesis was to determine the aluminium balance and the dioxin and furan behaviour in the scrubber and, thus, the impacts that the foul- ing has on dioxin and furan removal. The source of aluminium, reasons for fouling and further actions to minimize its impacts on dioxin and furan removal were also to be discovered. Measurements in various media around the scrubber and in fuels were made and a profile analysis of PCDD/F and mass balance calculations were carried out. PCDD/F content de- creased in the scrubber. The reduced PCDD/F was not discharged into scrubbing water. The removal mechanism seems to work in spite of the fouling, at least with low PCDD/F loads. Most of the PCDD/F in excess water originates from the Kymijoki River which is used as feeding water in the scrubber. Fouling turned out to consist mainly of aluminium hydroxides. Sludge combusted in the furnace was found to be a significant source of aluminium. Ways to minimize the fouling would be adjustment of pH to a proper lever, installation of a mechanical filter to catch the loose material from the scrubbing water and affecting the aluminium content of the sludge.