Cool Electrochemical Machining pictures

Cool Electrochemical Machining pictures

Verify out these electrochemical machining pictures:

Image from web page 53 of “Electrochemical and metallurgical market” (1905)

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Identifier: electrochemicalm3190unse
Title: Electrochemical and metallurgical industry
Year: 1905 (1900s)
Authors:
Subjects: Electrochemistry Chemistry, Technical Metallurgy
Publisher: New York : [Electrochemical Pub. Co.]

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the wheels arc utilized as drivers, hence securing a max-imum tractive efTort and a duplication of mechanism. TheI- made by the Wcstinghousc Electric Co., their clcc- t- ■ iicy Ixring high. In the Electrical energy Kuilding the comj&gtany was exhibiting ar.i-Kht-linc electric hoist, with each other with photographs ofwhich have been equipped with their coal-handling ma-ry, a line of manufacture in which the business was thepioneer. LIEBIG S LABOUATOKV IN (.KK.MAN (.IIE.MKAL EXIIIHITION. Co., St. Louis Lidgerwood Manufacturing Co., New York,Niles-Bement-Pond Co., New York Robbins Conveying BeltCo., New York Westingliousc Machine Co., Pittsburg, Pa.R. D. Wood &amp Co., Philadelphia, Pa. Henry R. Worthing-ton. New York. Gold Medals.—Buffalo Forge Co., Buflfalo, N. Y. BuildersIron Foundry, Providence, R. I. A. S. Cameron Steam PumpCo.. New York Carbonnidum Co.. Niagara Falls, N. Y.Dearborn Drug &amp Chemical Organization, St. Louis De LavalSteam Turbine Co.. Lombard Governor Co.. Bostcin, Mass.

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EXIIIIIIT OF GOLDSl H.MIDT THERMIT CO. Lunkenheimer Co., Cincinnati Aug. Mietz, New York Mictz&amp Weiss, Nfw York Norton Emery Wheel Co., Worcester,Mass. Otto Gas Engine Co., Philadelphia Weber Gas &ampGasoline Engine Co., Kansas City, Mo. Societc De Laval,Paris, France. .fint-s and Mctallurgy. Grand Prizes.— E. G. Acheson,Niagara Falls, N. Y. Allis-Chalmcrs Co.. Chicago. III.: Amer-ican Coal Items Co., New York Austin ManufacturingCo.. Chicago, III. Baker &amp Co., Newark, N. J.: Bethlehem.Steel Co., South Bethlehem, Pa. Canadian Copper Co., Sud-bury. Ontario: Dubois, Pinard et Cie.. Sougland, par Saint-Michel, Arsne. Goldschmidt Thermit Co., New York Inter- January, 1905.] ELECTROCHEMICAL AND METALLURGICAL Market. national Acheson Graphite Co., Niagara Falls InternationalNickel Co., New York Julian Kennedy, Pittsburg, Pa.Koenigliche Porzellan Manufaktur, Berlin, Germany LanyonZinc Co., St. Louis, Mo. A. Leschen &amp Sons Rope Co., St.Louis, Mo. Mangane

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Image from web page 251 of “Electrochemical and metallurgical business” (1905)

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Identifier: electrochemicalm3190unse
Title: Electrochemical and metallurgical industry
Year: 1905 (1900s)
Authors:
Subjects: Electrochemistry Chemistry, Technical Metallurgy
Publisher: New York : [Electrochemical Pub. Co.]

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erts the plate in the charging opening of the furnace,holding it there in proper position until the repairs arecompleted, when it is withdrawn and detached from theram of the charging machine.The arch-plate serves a double purpose.Very first, it types a shield against the heat from theinterior of the furnace, hence enabling the operate of re-pairing the arch to be carried on without shutting downthe furnace. In the old approach of repairing arches ithas been necessary to build a temporary defending wallor bulkhead of brick, and on account of the heat thismust be carried out with extended-handled tools, creating the pro-cess not only awkward and tedious, but also expensive,as it necessarily delays the furnace. The use of theJohnson arch-plate does away with all this. Second, the Johnson arch-plate serves as a kind onwhich the arch can be expeditiously relaid, supportingit for the duration of construction. The flange serves as a quit forthe brick in laying the arch. Perform which would ordinarilv call for hours in the old way

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JOHN&gto .K( H-IM..TK IN I SE. can. by employing this arch-pfate. be accomplished in a tiny fraction ofthe time, even though the charge of steel is being melted down andwithout anv delav to the furnace. An Improved .Multiple-Rider Carrier. The accompanying illustration shows an improved numerous-nder carrier for button balances, just placed on the market place byWilliam .-Ninsworth &amp Sons, of Denver, Col The weights or riders are each and every carried by an individual arm June, 1905.] ELECTROCHF.^^TC.L AND METALLURGTCAI. Market. 245 and cannot grow to be displaced except by means of gross careless-ness. The arms are numbered in their front surfaces to corre-spond with the weight of the rider carried, and pivoted atthe rear, so as to just swing clear of the comb-shaped barbelow the stirrup, andare operated by asingle rod with athumb piece on theend of it extendingthrough the case.When the arms areup the riders are auto-ried 1) them farenough above thecomb-shaped bar soas not to interferewith the oscillationsof the

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Image from page 429 of “Electrochemical and metallurgical sector” (1905)

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Identifier: electrochemicalm3190unse
Title: Electrochemical and metallurgical sector
Year: 1905 (1900s)
Authors:
Subjects: Electrochemistry Chemistry, Technical Metallurgy
Publisher: New York : [Electrochemical Pub. Co.]

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type. Nevertheless,the general procedure is to vaporize the quantity of waterremaining by a slow heat and leave the briquettes in the hard,bone-dry state in which the greatest efficiency is shown. Should of the niacliuies knead the i)consume as it is taken fromthe bog, taking it up in an elevator or chain of buckets tothe mixer, and then it is forced by way of a mouth piece, whichgives it the shape of the briquette and chops them off at agiven length. This block is referred to as compressed peat (Ger-man prcsstorf). It is wet and soft, and is passed on in thisstate to a drying table or plain. The initial of these machineswas constructed in 1861. by C. Schlickcysen, in Berlin. Themodern machines are all modifications of his design and style. The Schlickcysen method may be described as follows:Raw turf comes up on an endless belt running in the long,sloping trough which leads to the peat bog (for these ma-chines are normally transportable, and set up on the edge of thebog and moved from a single pari to (he f)tlKr as the function of

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SCHLICKEYSEN BRIQUETTE MACHINE. taking the peat out progresses). From the summit of theelevator the raw material drops into the machine, exactly where itis kneaded, cut, torn and compressed into about two-thirds ofits original bulk, and delivered at the mouth of the machinein blocks or bricks of any desired size or shape. These arefirst dried till they drop about two-thirds of their water, andthen the drying is continued by artificial means till they arebone-dry. Jhe principle upon which this machine is operateddepends on the reality that peat is nearly 80 per cent water in its(.riginal state, of which 4-fifths is held in mechanicalsuspension amongst the hairy fibers, and the remaining fifthis contained in the capillary tube running by means of the hairyvegetable fibers of the peat. Nine cubic feet Of raw peat istbus converted by this machine into 6 cubic feet of jireparcdpeat which nevertheless consists of 20 per cent water. This is furtherriried and compressed into i cubic foot of black, fossil-vege-ta

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