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    • 1. 发明申请
    • METHOD AND APPARATUS FOR USED ALUMINUM CAN RECYCLING
    • 使用铝可回收的方法和装置
    • WO1996001332A1
    • 1996-01-18
    • PCT/JP1995001338
    • 1995-07-05
    • NIPPON CHUZO KABUSHIKI KAISHAYAMAGISHI, YoshinaoARIKATA, KazuyoshiKUROZUMI, TakaoKONDO, Toshio
    • NIPPON CHUZO KABUSHIKI KAISHA
    • C22B01/00
    • C22B21/0069B02C19/0056C22B7/005C22B21/0007Y02P10/212
    • A method of and an apparatus for recycling aluminum having a very low content of impurities, after removing paint and pigment substantially completely from the surface of a used aluminum can. Pressed blocks of aluminum cans are crushed into small aluminum pieces a by crushing means (1, 2, 3), and the extraneous matter mixed in the aggregate of the crushed aluminum pieces a is removed. The resulting aggregate of small aluminum pieces a is agitated in a paint removing unit (20) utilizing a rotary body (36) which is adapted to be rotated at a high speed to remove the paint and pigment from the surfaces of the small aluminum pieces a by a frictional force and adhesive force occurring due to a speed difference. The small aluminum pieces a from which the paint and pigment have been removed are formed into molded aluminum bodies b on a compression molding machine (40).
    • 在从使用过的铝罐的表面上去除涂料和颜料之后基本上完全除去涂料和颜料后,具有非常低的杂质含量的铝的方法和装置。 将压制的铝罐块通过破碎装置(1,2,3)压碎成小的铝片a,并将混合在破碎的铝片a的骨料中的外来物质 >被删除。 所得到的小铝片a a的聚集体利用旋转体(36)在涂料去除单元(20)中搅动,旋转体(36)适于高速旋转以从涂层和颜料中除去涂料和颜料 通过摩擦力和由于速度差产生的粘合力,小铝片aa的表面。 已经从中除去油漆和颜料的小铝片aa在压缩成型机(40)上形成模制的铝本体b。
    • 2. 发明申请
    • PROCESSING OF SULPHIDES
    • 硫化物的加工
    • WO1996015279A1
    • 1996-05-23
    • PCT/AU1995000744
    • 1995-11-09
    • THE UNIVERSITY OF WESTERN AUSTRALIAMcCORMICK, Paul, Gerard
    • THE UNIVERSITY OF WESTERN AUSTRALIA
    • C22B01/00
    • C01B17/96C22B1/11C22B19/02
    • A process for the conversion of insoluble sulphide minerals into soluble sulphate compounds and other compounds which includes subjecting a mixture of a sulphide mineral and a suitable reagent to mechanical activation with or without thermal treatment to increase the chemical reactivity of the reactants and/or reaction kinetics such that a chemical reaction will occur which produces compounds that can be more readily processed to extract a metal from the sulphide mineral. The process of the invention is based on the discovery that mechanical activation with or without thermal treatment, can induce chemical reactions between sulphide minerals and certain reactants at low temperatures which cause the chemical breakdown of the sulphide grains. Such reactions, while thermodynamically favoured, generally were previously not thought to occur at temperatures less than that required for the formation of sulphur dioxide, because of kinetic limitations. The process provides an improved process for the treatment of sulphide minerals, which is more environmentally acceptable, and was also developed with a view to providing an improved lower cost process for the treatment of refractory gold ores and concentrates, which facilitates maximum recovery of the gold.
    • 将不溶性硫化物矿物转化为可溶性硫酸盐化合物和其它化合物的方法,其包括使硫化物矿物质和合适试剂的混合物经受热处理或不进行热处理以机械活化以增加反应物的化学反应性和/或反应动力学 使得将产生化学反应,其产生可以更容易地加工以从硫化物矿物中提取金属的化合物。 本发明的方法是基于这样的发现:即使用或不用热处理的机械活化可以在低温下引起硫化物矿物与某些反应物之间的化学反应,导致硫化物颗粒的化学破坏。 由于动力学上的限制,这种反应通常以低于二氧化硫形成所需的温度而不被认为是发生在热力学上有利的。 该方法提供了一种改进的处理硫化矿物质的方法,其更环保可接受,并且还开发出来,以提供改进的较低成本的方法来处理难熔金矿和精矿,这有助于金的最大回收 。
    • 4. 发明申请
    • PRODUCTION OF ELEMENTS AND COMPOUNDS BY DESERPENTINIZATION OF ULTRAMAFIC ROCK
    • 通过超声波岩石的生产制造元素和化合物
    • WO1987001731A1
    • 1987-03-26
    • PCT/US1986001877
    • 1986-09-11
    • ULTRAMAFIC TECHNOLOGY, INC.
    • ULTRAMAFIC TECHNOLOGY, INC.MORENCY, Maurice
    • C22B01/00
    • C22B23/0415C01B3/04C01B3/06C22B1/00C22B3/06C22B23/005C22B26/20C22B26/22C22B34/32Y02E60/324Y02E60/364Y02P10/234
    • Ultramafic rock material containing or which is serpentinized so as to contain substantially or completely serpentinized material, or alternatively, clay material containing structural water, is subjected to a temperature and pressure for a period of time and optionally in the presence of added elemental or ferrous iron to cause deserpentinization or dehydroxylation and consequent production of hydrogen and hydrocarbons and formation of a solid residue containing one or more of magnesium, nickel, calcium or other metal values. When the material is deserpentinized or dehydroxylated in the vicinity of 700 C or subsequently heated at between about 700 and 815 C, the mineral content of the residue has a transition lattice structure whereby the magnesium, nickel, calcium and other mineral values can be extracted by trituration with mineral acid, e.g., hydrochloric acid, to form an aqueous solution of the mineral acid salts of such metal values.
    • 含有或被蛇纹石化以便含有基本上或完全蛇纹石化的材料或者可选地,含有结构水的粘土材料的超镁铁质材料经受一段时间的温度和压力,并且任选地在添加的元素或二价铁的存在下 引起脱胶化或脱羟基化,从而产生氢和烃,并形成含有镁,镍,钙或其他金属值中的一种或多种的固体残余物。 当材料在700℃附近被脱胶化或脱羟基化,或随后在约700℃和815℃之间加热时,残余物的矿物质含量具有转变晶格结构,由此镁,镍, 钙和其他矿物质值可以通过用无机酸(例如盐酸)研磨来提取,形成这种金属值的无机酸盐的水溶液。
    • 7. 发明申请
    • IRON-MAKING SINTERED ORE PRODUCED FROM PISOLITIC IRON ORE AND PRODUCTION THEREOF
    • 从铁矿石生产的铁制烧结铁和其生产
    • WO1993016203A1
    • 1993-08-19
    • PCT/JP1993000184
    • 1993-02-12
    • NIPPON STEEL CORPORATION
    • NIPPON STEEL CORPORATIONHIDA, UkihiroOKAZAKI, JunHOSOTANI, Yozo
    • C22B01/00
    • C22B1/16
    • An iron-making sintered ore having a cross section wherein at least 80 % of a solid part except for non fused residues of the sintering materials other than pisolitic iron ore is composed of a densified pisolitic iron ore enclosed by fine calcium ferrite with a width of 10 mu m or less, or of hematite particles and calcium ferrite which bonds the hematite particles together while holding traces of the pisolitic iron ore, or of a mixture thereof. The production process comprises sintering iron-containing starting material such as iron ore, carbonaceous material, water, and the like in a sintering machine by using 40-70 mass % of pisolitic iron ore and a high-grade iron or containing 1.5 mass % or less of SiO2 as the iron-containing starting material other than returns.
    • 一种具有横截面的制铁烧结矿,其中至少80%的固体部分除了非侵入性铁矿石以外的烧结材料的非熔合残余物是由精细铁素体包围的致密的硫化铁矿石组成, 或者赤铁矿颗粒和钙铁氧体,其将赤铁矿颗粒粘合在一起,同时保持硅质铁矿石的痕迹或其混合物。 制造方法包括:在烧结机中,通过使用40-70质量%的异型铁矿石和高品质的铁,或者含有1.5质量%的铁,将含铁原料如铁矿石,碳质材料,水等烧结,或 少于作为含铁起始材料的SiO 2作为回收。