Boevange-sur-Attert is a small town in central Luxembourg, in the canton of Mersch. It is situated on the river Attert; until 31 December 2017, it was a commune. Media related to Boevange-sur-Attert at Wikimedia Commons
Colmar-Berg is a commune and town in central Luxembourg, in the canton of Mersch. It is situated at the confluence of the rivers Alzette; as of 2005, the town of Colmar-Berg, which lies in the east of the commune, has a population of 1,711. Colmar-Berg is the site of the Grand Duke of Berg Castle, it is the site of a Goodyear tyre factory. The commune was known as simply'Berg' until 25 March 1991; the "Centre de Formation pour Conducteurs" is in Colmar-Berg. Every person has to make an "Obligatory Course" after they got their driving license in order for it to become a definitive license; this has to be done in the timespan after three months and before two years after the person passed their practical driving test. Media related to Colmar-Berg at Wikimedia Commons
Luxembourgish, Letzeburgesch, or Luxembourgian is a West Germanic language, spoken in Luxembourg. About 390,000 people speak Luxembourgish worldwide. A variety of the Moselle Franconian dialect group, Luxembourgish has similarities with other varieties of High German and the wider group of West Germanic languages; the status of Luxembourgish as an official language in Luxembourg and the existence there of a regulatory body, has removed Luxembourgish, at least in part, from the domain of Standard German, its traditional Dachsprache. Luxembourgish belongs to the West Central German group of High German languages and is the primary example of a Moselle Franconian language. Luxembourgish is the national language of Luxembourg and one of three administrative languages, alongside French and German. In Luxembourg, 50.9% of citizens can speak Luxembourgish. Luxembourgish is spoken in the Arelerland region of Belgium and in small parts of Lorraine in France. In the German Eifel and Hunsrück regions, similar local Moselle Franconian dialects of German are spoken.
The language is spoken by a few descendants of Luxembourg immigrants in the United States and Canada. Additionally, in the German Eifel and Hunsrück regions, similar local Moselle Franconian dialects of German are spoken. Other Moselle Franconian dialects are spoken by ethnic Germans long settled in Transylvania, Romania. Moselle Franconian dialects outside the Luxembourg state border tend to have far fewer French loan words, these remain from the French Revolution. There are several distinct dialect forms of Luxembourgish including Areler, Kliärrwer, Stater, Veiner and Weelzer. Further small vocabulary differences may be seen between small villages. Increasing mobility of the population and the dissemination of the language through mass media such as radio and television are leading to a gradual standardisation towards a "Standard Luxembourgish" through the process of koineization. There is no distinct geographic boundary between the use of Luxembourgish and the use of other related High German dialects.
Spoken Luxembourgish is hard to understand for speakers of German who are not familiar with Moselle Franconian dialects. However, they can read the language to some degree. For those Germans familiar with Moselle Franconian dialects, it is easy to understand and speak Luxembourgish as far as the everyday vocabulary is concerned. However, the large number of French loanwords in Luxembourgish may hamper communication about certain topics, or with certain speakers. There is no intelligibility between Luxembourgish and French or any of the Romance dialects spoken in the adjacent parts of Belgium and France. Erna Hennicot-Schoepges, President of the Christian Social People's Party of Luxembourg 1995–2003, was active in promoting the language beyond Luxembourg's borders. A number of proposals for standardising the orthography of Luxembourgish can be documented, going back to the middle of the 19th century. There was no recognised system, until the adoption of the "OLO" on 5 June 1946; this orthography provided a system for speakers of all varieties of Luxembourgish to transcribe words the way they pronounced them, rather than imposing a single, standard spelling for the words of the language.
The rules explicitly rejected certain elements of German orthography. New principles were adopted for the spelling of French loanwords. Fiireje, rééjelen, shwèzt, veinejer bültê, âprê, ssistém This proposed orthography, so different from existing "foreign" standards that people were familiar with, did not enjoy widespread approval. A more successful standard emerged from the work of the committee of specialists charged with the task of creating the Luxemburger Wörterbuch, published in 5 volumes between 1950 and 1977; the orthographic conventions adopted in this decades-long project, set out in Bruch, provided the basis of the standard orthography that became official on 10 October 1975. Modifications to this standard were proposed by the Conseil permanent de la langue luxembourgeoise and adopted in the spelling reform of 30 July 1999. A detailed explanation of current practice for Luxembourgish can be found in Lulling; the Luxembourgish alphabet consists of the 26 Latin letters plus three letters with diacritics: "é", "ä", "ë".
In loanwords from French and Standard German, other diacritics are preserved: French: Boîte, Enquête, Piqûre, etc. German: blöd, Bühn, etc. Like many other varieties of Western High German, Luxembourgish has a rule of final n-deletion in certain contexts; the effects of this rule are indicated in writing, therefore must be taken into account when spelling words and morphemes ending in ⟨n⟩ or ⟨nn⟩. For example: wann ech ginn "when I go", but wa mer ginn "when we go" fënnefandrësseg "thirty-five", but fënnefavéierzeg "forty-five"; the consonant inventory of Luxembourgish is quite similar to that of Standard German. /p͡f/ occurs only in loanwords from Standard German. Just as among many native German-speakers, it tends to be simplified to word-initia
Steel is an alloy of iron and carbon, sometimes other elements. Because of its high tensile strength and low cost, it is a major component used in buildings, tools, automobiles, machines and weapons. Iron is the base metal of steel. Iron is able to take on two crystalline forms, body centered cubic and face centered cubic, depending on its temperature. In the body-centered cubic arrangement, there is an iron atom in the center and eight atoms at the vertices of each cubic unit cell, it is the interaction of the allotropes of iron with the alloying elements carbon, that gives steel and cast iron their range of unique properties. In pure iron, the crystal structure has little resistance to the iron atoms slipping past one another, so pure iron is quite ductile, or soft and formed. In steel, small amounts of carbon, other elements, inclusions within the iron act as hardening agents that prevent the movement of dislocations that are common in the crystal lattices of iron atoms; the carbon in typical steel alloys may contribute up to 2.14% of its weight.
Varying the amount of carbon and many other alloying elements, as well as controlling their chemical and physical makeup in the final steel, slows the movement of those dislocations that make pure iron ductile, thus controls and enhances its qualities. These qualities include such things as the hardness, quenching behavior, need for annealing, tempering behavior, yield strength, tensile strength of the resulting steel; the increase in steel's strength compared to pure iron is possible only by reducing iron's ductility. Steel was produced in bloomery furnaces for thousands of years, but its large-scale, industrial use began only after more efficient production methods were devised in the 17th century, with the production of blister steel and crucible steel. With the invention of the Bessemer process in the mid-19th century, a new era of mass-produced steel began; this was followed by the Siemens–Martin process and the Gilchrist–Thomas process that refined the quality of steel. With their introductions, mild steel replaced wrought iron.
Further refinements in the process, such as basic oxygen steelmaking replaced earlier methods by further lowering the cost of production and increasing the quality of the final product. Today, steel is one of the most common manmade materials in the world, with more than 1.6 billion tons produced annually. Modern steel is identified by various grades defined by assorted standards organizations; the noun steel originates from the Proto-Germanic adjective stahliją or stakhlijan, related to stahlaz or stahliją. The carbon content of steel is between 0.002% and 2.14% by weight for plain iron–carbon alloys. These values vary depending on alloying elements such as manganese, nickel, so on. Steel is an iron-carbon alloy that does not undergo eutectic reaction. In contrast, cast iron does undergo eutectic reaction. Too little carbon content leaves iron quite soft and weak. Carbon contents higher than those of steel make a brittle alloy called pig iron. While iron alloyed with carbon is called carbon steel, alloy steel is steel to which other alloying elements have been intentionally added to modify the characteristics of steel.
Common alloying elements include: manganese, chromium, boron, vanadium, tungsten and niobium. Additional elements, most considered undesirable, are important in steel: phosphorus, sulfur and traces of oxygen and copper. Plain carbon-iron alloys with a higher than 2.1% carbon content are known as cast iron. With modern steelmaking techniques such as powder metal forming, it is possible to make high-carbon steels, but such are not common. Cast iron is not malleable when hot, but it can be formed by casting as it has a lower melting point than steel and good castability properties. Certain compositions of cast iron, while retaining the economies of melting and casting, can be heat treated after casting to make malleable iron or ductile iron objects. Steel is distinguishable from wrought iron, which may contain a small amount of carbon but large amounts of slag. Iron is found in the Earth's crust in the form of an ore an iron oxide, such as magnetite or hematite. Iron is extracted from iron ore by removing the oxygen through its combination with a preferred chemical partner such as carbon, lost to the atmosphere as carbon dioxide.
This process, known as smelting, was first applied to metals with lower melting points, such as tin, which melts at about 250 °C, copper, which melts at about 1,100 °C, the combination, which has a melting point lower than 1,083 °C. In comparison, cast iron melts at about 1,375 °C. Small quantities of iron were smelted in ancient times, in the solid state, by heating the ore in a charcoal fire and welding the clumps together with a hammer and in the process squeezing out the impurities. With care, the carbon content could be controlled by moving it around in the fire. Unlike copper and tin, liquid or solid iron dissolves carbon quite readily. All of these temperatures could be reached with ancient methods used since the Bronze Age. Since the oxidation rate of iron increases beyond 800 °C, it is important that smelting take place in a low-oxygen environment. Smelting, using carbon to reduce iro
Virtual International Authority File
The Virtual International Authority File is an international authority file. It is a joint project of several national libraries and operated by the Online Computer Library Center. Discussion about having a common international authority started in the late 1990s. After a series of failed attempts to come up with a unique common authority file, the new idea was to link existing national authorities; this would present all the benefits of a common file without requiring a large investment of time and expense in the process. The project was initiated by the US Library of Congress, the German National Library and the OCLC on August 6, 2003; the Bibliothèque nationale de France joined the project on October 5, 2007. The project transitioned to being a service of the OCLC on April 4, 2012; the aim is to link the national authority files to a single virtual authority file. In this file, identical records from the different data sets are linked together. A VIAF record receives a standard data number, contains the primary "see" and "see also" records from the original records, refers to the original authority records.
The data are available for research and data exchange and sharing. Reciprocal updating uses the Open Archives Initiative Protocol for Metadata Harvesting protocol; the file numbers are being added to Wikipedia biographical articles and are incorporated into Wikidata. VIAF's clustering algorithm is run every month; as more data are added from participating libraries, clusters of authority records may coalesce or split, leading to some fluctuation in the VIAF identifier of certain authority records. Authority control Faceted Application of Subject Terminology Integrated Authority File International Standard Authority Data Number International Standard Name Identifier Wikipedia's authority control template for articles Official website VIAF at OCLC
Larochette is a commune and town in central Luxembourg, in the canton of Mersch. It is situated on the White Ernz river; the town is dominated by the ruined Larochette Castle. As of 2005, the town of Larochette, which lies in the north-east of the commune, has a population of 1,359. Other towns within the commune include Ernzen. Meysembourg Castle, located some 2 kilometres south-west of Larochette, has a history dating back to the 12th century. Today's castle was built in 1880 in Neo-Renaissance style and is owned. Media related to Larochette at Wikimedia Commons
The Attert is a river flowing through Belgium and Luxembourg, left tributary of the Alzette. Its length is 6 kilometres in Belgium, its source is in north-west of Arlon, in the Belgian province Luxembourg. It flows into the river Alzette at Colmar-Berg, it flows through the village of Attert in Belgium, the towns of Redange, Boevange-sur-Attert, Bissen in Luxembourg