Created by: Sanford Cruz
Number of Blossarys: 1
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Following the sucessful introduction of the Bessemer process for producing steel, the Siemens process was devised. It can be regarded as an updated and enlarged version of the puddling process but producing steel rather than wrought Iron. Gas or heavy oil were used as fuel and these and the combustion air were preheated using the exhaust flue gases. The flame is directly above the hearth and is fired from alternative directions in order to make best use of the preheaters. A Siemens furnace can be charged with molten pig iron, solid pigs or scrap steel. Alloying and refining can take place before the Steel is teemed and cast. The majority of the structure of a Siemens open hearth furnace is fire brick. This required total replacement on a regular basis. Although long since replace in the U.K. by BOS and electric arc furnaces, other countries, such as the USA seem to have perpetuated their use.
贝塞麦生产工艺的钢的成功之后,制定了西门子过程。它可以被视为更新和扩大后的版本,炼铁过程但生产钢,而不是熟铁。气体或重油被用作燃料和这些和燃烧空气被预热使用排气烟道气体。火焰炉边的正上方,从供选择的方向发射,使预热器的最佳使用。西门子炉可以被控以熔化的生铁,固体猪或废钢。合金化和精炼可以发生之前钢是地方挤满和强制转换。西门子平炉的结构大部分是火砖。这就要求定期进行置换。虽然很久以来在英国,由 BOS 和电弧炉替换,其他国家,如美国似乎有延续它们的使用。
Process by which high quality steel is produced from molten pig iron. Now superseded by other methods, the process was patented by Henry Bessemer is 1856. The molten iron is poured into the 'Bessemer Converter' which is then tilted while air is blown at high pressure through the bottom of the converter. The process was completely superceded by 1974. The modern equivalent is the 'BOS' process where pure oxygen is bubbled though the iron in a vessel with a solid bottom. A Bessemer converter is preserved at Kelham Island Museum, Sheffield.
过程的高质量钢铁产量从熔化的生铁。现在被其他方法所取代,这一进程是由亨利 · 贝西默的专利是 1856年。铁液倒入然后倾斜而在高压力通过底部的转换器将空气吹 ' 转炉 '。过程是完全取代到 1974 年。现代等值是纯氧气冒泡其虽然中一艘船以坚实的底部的铁的 '蓝海' 过程。吨转炉被保留在凯勒姆岛屿博物馆、 设菲尔德。
Furnace built like a tower for reducing ore into metal. Can be used as part of non ferrus metal reduction, but is normally associated with iron production. Ore (iron ore for iron production), coke (originally charcoal) and a flux (typically limestone) and tipped into the top. Molten pig iron and slag are removed periodically from the base of the furnace. After 350 years, blast furnaces remain the only way to economically produce large quantities of Iron.
像塔为减少成金属矿建炉。可以用作非副官金属还原的一部分,但通常与铁生产相关联。铁矿石 (铁矿石铁生产)、 焦 (原木炭) 和通量 (通常石灰石) 和倒进顶部。熔化的生铁和渣从炉的基地被定期删除。350 年后,高炉仍从事经济生产很大数量的铁的唯一方法。
Very early type of furnace for reducing iron ore directly into wrought iron. Product was of poor quality as it was never molten. Slag was generally removed by hammering, but some was inevitably left behind and trapped within the product. Superseded by finery and Chafery process.
为降低铁矿石直接进入锻铁炉很早类型。产品差是质量的因为它从来没有熔融。渣一般被删除的锤打,但是有些是不可避免地落在后面,产品内被困。由华丽服装和 Chafery 进程所取代。
Most common and generally useful form of steel. Contains 0.3% of carbon.
Iron with a high carbon content (above 2%). Identical, in most cases, to pig iron, it is easily cast to almost any shape and melts at a lower temperature to other type of iron and steel. Traditionally melted in a cupular furnace (a tall cylindrical structure but much smaller than a blast furnace). Cast iron is extremely hard and brittle. Machining is difficult and it is easily shattered, revealing its crystalline structure. Chilled cast iron is even harder and is produced by cooling the castings to increase the speed at which the iron solidifies. Cast iron is still is wide use for numerous casting, from drains covers through to engine blocks and water pipes. Can be grey, white or malleable.
铁与碳含量高 (2%以上)。相同的在大多数情况下,对生铁,它轻松地强制转换为几乎任何形状,融化在一个较低的温度到其他类型的铁和钢。传统上在 (但比高炉炉小得多高大圆柱结构) cupular 炉中熔化了。铸铁是非常硬而脆。加工很难,它极易破碎,揭示其晶体结构。冷硬的铸铁,更是和由冷却铸件来增加铁变硬的速度生产。铸铁仍然是许多铸造,从排水渠盖通过引擎块及水管的广泛使用。可以是灰色、 白色或延展性。
A furnace (more of a kiln) in which wrought iron bars and charcoal were heated for up to two weeks, until the carbon had been absorbed into the surface of the iron. The resulting blister steel could be further processed into shear steel or crucible steel.
一炉 (更多的窑) 在哪个锻铁酒吧和木炭在加热达两个星期,直到碳已被吸收入铁的表面。由此产生的水泡钢可以进一步加工成剪钢或坩埚钢。
High quality steel created by melting blister steel in a covered crucible using a coal fire. After the slag was removed, the resulting steel had consistent properties throughout. Process was superseded by Bessemer process but crucible melting did not stop until after World War II.
高质量的钢由熔化水泡钢在使用煤炭火盖坩埚中的创建。渣被删除后,由此产生钢有一致属性在整个。进程被取代贝西默进程但坩埚熔化在二次世界大战后没有停止。
A forging hammer that drops vertically onto the work piece. Usually relying on a powered cylinder to lift the hammer head and then adding to the force of the downward stroke. Originally steam powered but most now using compressed air. Steam hammers converted to air are generally not as good following conversion as the air does not expand in the same way as steam leading them bouncing off the work piece where a hit the work piece and continue to be forced down by the expanding steam.
垂直下降到工件锻锤。通常依靠动力缸举起锤子头,然后添加对向下的冲程的力量。最初的蒸汽动力但最现在使用压缩空气。蒸汽锤改为空气,一般不一样好之后转换空气不会在蒸汽导致他们相同的方式展开反弹工作件凡命中工作片断,并继续扩大蒸汽压低。
Since the second World War, this has been the standard furnace for melting steel in large quantities. Typical Capacities are 80 to 120 Tonnes. They were generally used as direct replacements for Siemens open hearth furnaces. Low voltage, high current electricity arcs between three large electrodes hung from the lid of the furnace and the metal on the furnace hearth. This produces very intense heating in the center of the furnace, in a similar way to arc welding. The heating can be very accurately controlled and as there are no 'products of combustion' (smoke and flame) within the furnace high quality steels are easily produced.
自第二次世界大战以来这一直熔炼钢大量标准炉。典型的能力是 80 到 120 吨。他们通常被用作直接更换为西门子打开炉炉。低电压、 高电流电力弧形三个大型电极之间挂炉的金属炉缸的盖子。这将产生非常强烈的方式类似于弧焊在中心的炉中加热。可以非常准确地控制加热和作为有没有 '燃烧产品' (烟气和火焰) 内炉优质钢轻松制作。
Two stage process that was developed from the Bloomery process
First type of steel that was commercially produced. Process took place in a cementation furnace and produced a bar that had a high carbon content on the surface and a low carbon content in the center. Process resulted in a blistered appearance to the bars, thus the name. Not much use in this form until processed into crucible steel or shear steel.
第一类商业生产的钢。进程发生了在渗碳炉中,并产生一个栏,在中心有表面上高的碳含量和低的碳含量。进程导致水泡外观到酒吧,因此该名称。不多在直到入坩埚钢或剪钢处理此窗体中使用。
Name given to the heavier types of water powered forging hammer. The helve is the main beam of the hammer pivoted at the tail end, with the hammer head or tup at the nose. Helve hammers can be 'belly helve' where the hammer is lifted at the mid point of the helve beam, while a 'nose helve' is lifted from in front of the tup. Both wortley top forge hammer and the surviving Low forge hammers are 'belly helve' type. Lighter hammers tended to be 'tail helve' being lifted by a cam pushing down behind the pivot.
给予较重的水动力锻锤类型的名称。斧子是透视尾结束时,用锤子头或在鼻子锤锤的主梁。斧子锤子可以 '肚子斧子' 哪里锤子斧子梁、 中期点时抬起 '鼻子斧子' 解除从托普。Wortley 顶锻锤和幸存的低锻锤是 '肚子斧子类型。轻锤倾向于 '尾巴斧子' 正在解除由凸轮在枢轴后面往下推。
The first process by which separate pieces of iron were joined together into a single piece. The process is still used by blacksmiths to join wrought iron and mild steel. Unlike gas or electric welding the work pieces are heated in a fire or furnace until they are the correct temperature (1300°c for wrought iron). The joint is then hammered together until the pieces have been merged. Several heating may be needed to complete the process.
第一个进程的单独铁片变成一块单一起被加入。铁匠仍使用过程加入锻铁和低碳钢。与不同的气体或电焊接工作片断火或炉中加热,直到他们是正确的温度 (锻铁 1300 ° c)。直到片断已合并,是一起用锤子联合。可能需要几个加热,以完成该过程。
Form in which iron occurs naturally. Ores are primarily iron and oxygen but may include phosphorous and other elemens. Before the development of the basic Bessemer process, only high quality ores (typically Swedish) could be used for the production of iron, as high phosphorous caused numerous problems.
窗体中的铁自然地发生。矿石主要是铁和氧,但可能包括磷和其他 elemens。在转炉炼钢法基本的发展之前, 只高品质矿石 (通常瑞典语) 可用于生产的铁,作为高磷引起的许多问题。
Metallic Element - Symbol = Fe; Atomic Number = 26; Atomic Weight = 55.847; Specific Gravity (Solid) = 7.85; Melting Point = 1533°C; Boiling Point = 2840°C
Metallic Element - Symbol = Fe; Atomic Number = 26; Atomic Weight = 55.847; Specific Gravity (Solid) = 7.85; Melting Point = 1533°C; Boiling Point = 2840°C
The name used for the iron directly produced from a blast furnace. Originally cast into 'pigs' around the base of the furnace, lasted casting machines were developed to produce pigs but iron is now generally transported while still molten and converted into steel on the same site. The name is derived from the impression given of piglets feeding from the sow by the iron being run off the furnace into the original style of sand moulds. Pigs were traditionally sized to be manhandleble. Pig iron changes its name to cast iron when remelted, although no actual processing takes place. Iron casings can be created directly from the blast furnace.
直接从高炉生产的铁使用的名称。最初铸造成 '猪' 在炉的基地附近,历时的压铸机被开发生产猪但铁现在一般运输虽然仍然熔融并转换为钢在同一站点上。名称取自正在逃跑,炉入砂模的原始风格的铁的从母猪饲喂仔猪的印象。猪是传统上的大小是 manhandleble。生铁更改其名称,以铸铁时重熔,虽然没有实际的处理发生。可以直接从高炉炉创建铁弹壳。
Type of coal fired furnace in which the flame and gases passes across the top of the enclosed hearth, heat being reflected down onto the hearth proper. The principle advantage of this type of furnace was that poor quality fuel could be used without the risk of contamination of the work piece. Puddling was one of the major process that required a reverberatory furnace.
类型的煤炒的炉中的火焰和气体的刀路,横跨顶部的封闭壁炉的地方,热正在向下拖到适当的壁炉上反映。这种类型的原则优势是炉的可以用劣质燃料无污染的工作片断的风险。炼铁是过程的一个主要,需要反射炉。
Last and most widespread of the ways to produce wrought Iron from pig Iron. First devised by Henry Cort in 1784, but later revised by Joseph Hall in 1816. Solid iron, be it fresh pig iron or scrap cast iron, was first melted and then refined. Once the iron was molten in the bottom of the hearth, it was stirred with a long pole. This brought the carbon in contact with the air where it burn off. However as the carbon content reduced, the melting point increased and the iron became a lump of sticky wrought Iron. The process was sometime known as 'pig boiling' as the iron tended to bubble as the carbon was removed. Hammering and rolling followed puddling in order firstly drive out the slag, weld the iron into a homogeneous lump and lastly produce a saleable product. Puddling had to take place in a reverberatory furnace in order to avoid contamination of the Iron.
最后,最普遍的方法生产生铁熟铁。第一次在 1784 年,但后来修订的约瑟夫 · 大厅 1816 年制订的亨利 Cort。固体铁,它新鲜猪铁或废铸铁,是首先熔化,然后提炼。一旦铁熔化在炉边的底部,它是用长杆搅拌。这带来了碳接触空气哪里它烧掉。然而作为减少的碳含量、 熔点增加和铁成为了一块粘锻铁。过程有时被称为 '沸腾的猪',作为倾向于泡沫作为碳被去除的铁。锤击和轧制跟随首先按顺序炼铁炉渣,逐出铁焊接成一个均匀的肿块,最后产生一个实用的产品。炼铁不得不采取在反射炉的地方,以避免铁的污染。
machine tool for forming forgings but relies on a slow powered push rather than the series of heavy blows from a Drop Hammer. Hydraulic presses can easily have a capacity to produce several thousand tons of force.
Before the development of crucible steel, blister steel was forged by repeated folding and forge welding to mix the areas of high and low carbon steel. Shear steel was the lowest quality generally created and further folding and welding created double shear steel. Long regarded as ideal for blades and cutting edges, primarily because the slag trapped within the steel lead to a serrated edge without it being purposely formed.
坩埚钢的发展之前, 水泡钢伪造的反复折叠和伪造焊接混合高和低炭钢等领域。剪钢是最低质量一般创建并创建双剪钢进一步折叠和焊接。长期视为理想的叶片和切削刃,主要因为渣被困在一个锯齿形边缘钢导致没有它故意正在形成。
By-product of heating / melting iron and steel. Consists of oxides and other impurities that are not generally wanted. The process of forming a slag is essential to remove impurities at almost every stage of iron and steel production. A flux such as lime, limestone or fluorspar is added to the furnace and this attracts many of the impurities from the metal. Types of slag are currently used in road surfacing.
加热 / 熔化的铁和钢的副产品。由组成的氧化物和其他杂质,一般不想要。形成炉渣的进程至关重要,几乎每个阶段的钢铁生产除去杂质。石灰、 石灰石或萤石等助熔剂添加到炉内,这就吸引了很多从金属杂质。类型的渣目前使用的路面。
Compound of Iron containing between 0.15 & 1.35% of carbon. Modern alloys include chromium, lead, manganese, molybenum, nickel vanadium & tungsten to give varying properties. Can generally be hardened and welded with ease. Produced from pig Iron by the Bessemer or Siemens process since 1856, now replaced by BOS process. Before that time, shear steel and crucible steel were produced in very small quantities
Compound of Iron containing between 0.15 & 1.35% of carbon. Modern alloys include chromium, lead, manganese, molybenum, nickel vanadium & tungsten to give varying properties. Can generally be hardened and welded with ease. Produced from pig Iron by the Bessemer or Siemens process since 1856, now replaced by BOS process. Before that time, shear steel and crucible steel were produced in very small quantities
Iron that is almost pure (less than 0.15% carbon). Can be shaped and forge welded with ease, but is soft and does not harden in the same way as steel. Wrought iron is rarely seen in molten from as it has a high melting point and there is no advantage in melting it as part of a process. Part of the properties of wrought iron are attributed to the slag inclusions that result from puddling and forge welding. Widely used in bridges, axles and ships plates before the development of Bessemer and Siemens Steel. The last commercial production of wrought Iron in the U.K. ceased in 1976
是几乎纯 (小于 0.15%的碳) 的铁。可以塑造和锻造焊接与易用性,但柔软和不硬化钢的方式相同。锻铁少见在钢水从作为它具有高熔点和熔化它作为进程的一部分中并无优势可言。锻铁属性的一部分归因于渣夹杂物,导致从炼铁和伪造焊接。广泛应用于桥梁、 轨和船板前贝西默和西门子钢的发展。最后商业生产的锻铁中停止了 1976 年,英国