Vacuum Sintering0 pages
!3druk_SECO-002.cdr table.main {} tr.row {} td.cell {} div.block {} div.paragraph {} .font0 { font:9.00pt "Arial", sans-serif; } .font1 { font:7.00pt "Lucida Sans Unicode", sans-serif; } .font2 { font:13.00pt "Lucida Sans Unicode", sans-serif; } .font3 { font:15.00pt "Lucida Sans Unicode", sans-serif; } .font4 { font:37.00pt "Lucida Sans Unicode", sans-serif; } .font5 { font:82.00pt "Lucida Sans Unicode", sans-serif; } .font6 { font:148.00pt "Tahoma", sans-serif; } .font7 { font:4.00pt "Verdana", sans-serif; } V I zsecoiwarwick i Wɏm Applications ■ Vacuum sintering of hard metals,cermets, rare earth (RE) magnets ■ Sintering of oxide and non-oxide ceramics ■ Overpressure vacuum sintering of hard metals ■ Sintering in Mϩtal Injection Moldingechnology (MIM) □ Dewaxing(PEG,Paraffinoil,etc.) Furnace Features ■ Temprature uniformity ■ Wide temp響rature range ■ Industrialcomputer/PLC control ■ Compact design Process Advantages Wide range of applications Short cycle time Lowoperatingcost Environmentallyfriendly Technology Sintering of hard alloys with densification pressures upto 60 bar Powder metallurgy of tool steels, such as HSS cutting tools and trimming dies Sintering of corrosion rsistant steels for chemical and mdical industry Sintering of AINiCo materials for manufacturing of soft magnetic products Sintering ofrear earth metals, such as Samarium/Cobalt alloys, Neodymium/Iron/Boron for production of permanent magnets Sintering of high alloyed materials fortheaerospace industry Sintering of ceramics components Sintering at the temp驩ratures up to 2200°C Control of carbon content in sintered components madefrom Tungstencarbide Outgassing of mtal powder Dewaxing/MIM Process MIM Process 900x800x1800mm www.secowarwick.com.pl
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