SK91993A3 - High-alloy manganese abrasion resistant steel - Google Patents
High-alloy manganese abrasion resistant steel Download PDFInfo
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Abstract
Description
Vysoko 1egovaná mangánová oteruvzdorujúca oceľHigh-alloy manganese wear-resistant steel
Oblasť technikyTechnical field
Vynález sa dotýka vysoko1egovanej mangánovej (Mn) ocele použiteľnej na oteruvzdorujúce dielce vystavené v pracovnom procese abrazívnemu opotrebovaniu za spolupôsobenia veľkých tlakov a rázov, s výhodou použitej- na hrubostenné dielce.The invention relates to highly alloyed manganese (Mn) steel applicable to wear-resistant parts subjected to abrasive wear in the working process under the influence of high pressures and impacts, preferably used for thick-walled parts.
II
Doterajší stav technikyBACKGROUND OF THE INVENTION
Je známe, že ocele obsahujúce viac ako 1% C a 10% Mn po vhodnom tepelnom spracovaní majú vysokú húževnatosť a schopnosť povrchovo, rázmi a tlakmi sa spevňovať. Výhodné je použiť ocele obsahujúce 15 - 25 % Mn, prípadne legované ďalším karbidotvorným prvkom napr. Cr, Mo a iné.It is known that steels containing more than 1% C and 10% Mn after a suitable heat treatment have a high toughness and a surface, impact and compression strength. It is preferred to use steels containing 15-25% Mn, optionally alloyed with another carbide forming element e.g. Cr, Mo and others.
Spolu so zvýšením % Mn však rastie sklon týchto ocelí ku vzniku dendritickej štruktúry a s tým súvisí zníženie mechanických hodnôt aj oteruvzdorovateľnosti . Tento metalurgický jav je podstatne zosilňovaný zvyšujúcou sa hrúbkou dielca. Vzniknutá dendritická štruktúra sa nedá odstrániť tepelným spracovaním a znamená výrazné nebezpečie lomov oteruvzdorujúci ch dielcov.Along with the increase in% Mn, however, the tendency of these steels to develop a dendritic structure increases, and this is associated with a decrease in mechanical values and wear resistance. This metallurgical phenomenon is substantially amplified by increasing component thickness. The resulting dendritic structure cannot be removed by heat treatment and represents a significant risk of fracture of abrasion-resistant parts.
Podstata vynálezuSUMMARY OF THE INVENTION
Spôsob riešenia tohoto problému je podľa PV v metalurgickej podstate t.j. chemickom zložení ocele. V tomto zmysle bol skúšaný vpiyv · m ikro1 egujúci ch prvkov V, Zr, Tí, Nb, Ca na zjemnenie štruktúry.According to PV, the method of solving this problem is metallurgical in nature. chemical composition of steel. In this sense, it has been tried to influence the elements V, Zr, Ti, Nb, Ca to refine the structure.
Podľa vynálezu je vhodné použiť k základnému zloženiu Mn ocele m ikro1 egujúce prvky V, Ti, B v určitom váhovom množstve tak, aby všetky prvky boli obsiahnuté v oceli v súčtovom hmotnostnom percente do 0,25 %, ostatok Fe.According to the invention, it is suitable to use for the basic composition of Mn steel the cross-over elements V, Ti, B in a certain amount by weight so that all elements are contained in the steel in a total weight percentage up to 0.25%, the rest Fe.
Príklady vyhotovenia vynálezuDETAILED DESCRIPTION OF THE INVENTION
Príkladné vyhotovenie vynálezu bolo overené na 4 uvede ných skúšobných tavbách:The exemplary embodiment of the invention has been verified on the following four test melts:
hmotnostné %weight%
Desoxydácia ocele bola vykonávaná jednak v peci Al pred pridaním FeMn, FeCr, FeV, jednak v pánvi Al súčasne s pridávaním FeTi a FeB. Liaca teplota je čo najnižšia, t.j. 1490 - 1530 °C, avšak musí zodpovedať hrúbke odlievaných odliatkov a ich hmotnosti. Kvalita desoxydácie aj riadenie liacej teploty umožňuje použiť nižšej dávky m ikrolegujúci ch prvkov a umožňuje ich významnejší vplyv na štruktúru ocele.The deoxydation of the steel was carried out in the Al furnace both before the addition of FeMn, FeCr, FeV and in the Al pan simultaneously with the addition of FeTi and FeB. The pouring temperature is as low as possible, i. 1490 - 1530 ° C, but it must correspond to the casting thickness and weight. The quality of the deoxydation as well as the control of the casting temperature make it possible to use lower doses of micro-alloying elements and allow them to have a significant influence on the steel structure.
Skúšky štruktúr boli vykonané na odlievaných hranoloch 100 x 100 x 1 500 mm. V oceli podľa príkladu 4 sa vyskytla dendritická štruktúra až do prostriedku odliatku. Pri skúšobných odliatkov / 40 x 40 x 100 mm bola aj v príklade č. 4 podstatne menej výrazná dendritická štruktúra.Structure tests were performed on 100 x 100 x 1500 mm cast prisms. In the steel of Example 4, a dendritic structure occurred up to the middle of the casting. For the test castings / 40 x 40 x 100 mm, also in Example no. 4 significantly less pronounced dendritic structure.
Pri tepelnom spracovaní ného žíhania na teplotu 1 050 ochladením do vody, boli oteruodo1nosti podľa Bonda. etalónový materiál je oceľ ČSN pozostávajúceho z austeni tizač- 1 130 °C s následným rýchlym odobrané vzorky na zistenie Ako abrasívum slúžil znelec, 12050.In heat treatment annealing to a temperature of 1050 by cooling in water, Bond abrasion resistance was obtained. standard material is steel ČSN consisting of austenizer - 1130 ° C followed by quick samples for detection The abrasive served as the abrasive, 12050.
Výsledky pomernej oteruodo1nosti:Results of relative abrasion resistance:
oceľ podľa pr.1 abr. - 5,06 abr. - 5,38 abr. - 5,70 abr. - 4,65steel according to pr.1 abr. - 5.06 abr. - 5.38 abr. - 5,70 abr. - 4,65
Vysoko 1egovaná Mn oteruvzdorujúca oceľ podľa vynálezu je výhodná na oteruvzdorujúce dielce ako napr.The highly alloyed Mn abrasion-resistant steel according to the invention is advantageous for wear-resistant parts such as e.g.
1išty odrazových drt i čov drven i a.Reflective crushing bars crushed.
pre čeľusťové, kužeľové a*kladivovéfor jaw, cone and hammers
Ďalej na všetky účely použitia drtiče 1. stupňa otervzdoruj úc i ch dielcov v zariadeniach kde dochádza k veľkým rázom, napr. pri rozdrvovaní stavebných demoličných cestných a letiskových plôch a podobne.Furthermore, for all purposes of the use of the 1st stage shredder, the workpieces are resistant to high impact equipment, e.g. crushing construction demolition roads and airfields and the like.
Claims (3)
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CZ931125A CZ283449B6 (en) | 1993-06-10 | 1993-06-10 | High-alloy abrasion-resistant manganese steel |
Publications (2)
Publication Number | Publication Date |
---|---|
SK91993A3 true SK91993A3 (en) | 1996-08-07 |
SK281053B6 SK281053B6 (en) | 2000-11-07 |
Family
ID=5462794
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
SK919-93A SK281053B6 (en) | 1993-06-10 | 1993-08-27 | High-alloy abrasion-resistant manganese steel |
Country Status (2)
Country | Link |
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CZ (1) | CZ283449B6 (en) |
SK (1) | SK281053B6 (en) |
Families Citing this family (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
DE10060948C2 (en) * | 2000-12-06 | 2003-07-31 | Thyssenkrupp Stahl Ag | Process for producing a hot strip from a steel with a high manganese content |
WO2014104706A1 (en) * | 2012-12-26 | 2014-07-03 | 주식회사 포스코 | High strength austenitic-based steel with remarkable toughness of welding heat-affected zone and preparation method therefor |
-
1993
- 1993-06-10 CZ CZ931125A patent/CZ283449B6/en not_active IP Right Cessation
- 1993-08-27 SK SK919-93A patent/SK281053B6/en unknown
Also Published As
Publication number | Publication date |
---|---|
CZ112593A3 (en) | 1995-05-17 |
SK281053B6 (en) | 2000-11-07 |
CZ283449B6 (en) | 1998-04-15 |
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