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50:, such as iron borides, nickel borides, and cobalt borides, As pure materials, these borides have extremely high hardness and wear resistance. Their favorable properties are manifested even when they are a small fraction of the bulk solid. Boronized metal parts are extremely wear resistant and will often last two to five times longer than components treated with conventional
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by acids, reduced coefficient of friction, and increased galling/cold-welding resistance. It is possible to combine boriding with other heat treatments such as carburizing, hardening or induction hardening to create deeper wear layers or high core hardness.
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Helmut Kunst, Brigitte Haase, James C. Malloy, Klaus Wittel, Montia C. Nestler, Andrew R. Nicoll, Ulrich Erning and
Gerhard Rauscher "Metals, Surface Treatment" in Ullmann's Encyclopedia of Industrial Chemistry, 2006, Wiley-VCH, Weinheim.
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such as hardening, carburizing, nitriding, nitrocarburizing or induction hardening. Most borided steel surfaces will have iron boride layer hardnesses ranging from 1200-1600 HV. Nickel-based
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materials. A wide range of materials suitable for treatment including plain carbon steels, alloy steels, tool steels, nickel-based super alloys, cobalt alloys, and stellite.
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Boriding can be achieved in several ways, but commonly the metal piece is packed with a boriding mixture and heating at 900 °C. Typical boriding mixture consists of
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Boriding gives the material the following desirable properties: wear resistance, improved hardness (1300-2000HV is possible), thermal stability, resistance to
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B). Boride layer depths can range from 0.001 - 0.015 inches (25.4 - 38 μm) depending on base material selection and treatment.
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atoms are diffused into the surface of a metal component. The resulting surface contains metal
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powder diluted with other refractory materials. The process converts some of the Fe to
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190:"Ultrafast Boriding in High Temperature Materials Processing Industries"
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289:History of ferrous metallurgy
153:10.1002/14356007.a16_403.pub2
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804:. You can help Knowledge by
532:Argon oxygen decarburization
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693:Differential heat treatment
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221:Matuschka, Alfred (1980).
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26:, is the process by which
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617:Ferritic nitrocarburizing
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165:"Boriding – Bodycote PLC"
708:Post weld heat treatment
16:Surface hardening method
856:Materials science stubs
294:List of steel producers
800:-related article is a
522:Electro-slag remelting
851:Metal heat treatments
732:Production by country
718:Superplastic forming
637:Quench polish quench
527:Vacuum arc remelting
506:Basic oxygen process
501:Electric arc furnace
106:Properties conferred
94:It is often used on
673:Cryogenic treatment
496:Open hearth furnace
484:Primary (Post-1850)
475:Cementation process
362:Direct reduced iron
42:. In this process
38:. It is a type of
444:Primary (Pre-1850)
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171:on 2013-05-23
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806:expanding it
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660:Martempering
655:Austempering
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564:Low hydrogen
382:Finery forge
378:Wrought iron
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200:. Retrieved
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173:. Retrieved
169:the original
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861:Metal stubs
703:Forming gas
607:Carburizing
464:Wootz steel
430:Steelmaking
329:sponge iron
125:Boron steel
80:iron boride
56:superalloys
845:Categories
798:metallurgy
760:Luxembourg
740:Bangladesh
682:Deflashing
592:Ausforming
435:Steel mill
345:Cold blast
337:(produces
327:(produces
279:production
227:. Hanser.
224:Boronizing
175:2012-12-28
131:References
64:Hastalloys
24:boronizing
713:Quenching
687:Hardening
677:Deburring
647:Tempering
627:Nitriding
622:Induction
612:Cryogenic
579:Hardening
556:Annealing
515:Secondary
398:Cast iron
371:Secondary
350:Hot blast
307:Ironworks
112:corrosion
90:Materials
597:Boriding
389:Puddling
339:pig iron
325:Bloomery
317:Smelting
202:15 April
119:See also
58:such as
20:Boriding
765:Nigeria
548:methods
392:Furnace
70:Methods
60:Inconel
48:borides
231:
100:cermet
796:This
755:Italy
750:India
745:China
400:(via
380:(via
277:steel
193:(PDF)
96:steel
44:boron
36:alloy
32:metal
28:boron
802:stub
384:or
275:and
273:Iron
229:ISBN
204:2024
62:and
404:or
149:doi
34:or
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