A hardfacing process includes depositing a clad layer having a thickness greater than about 1 mm (0.04 in) on a surface of the component by arc welding, and creating a heat affected zone directly below the clad layer due to the depositing. The heat affected zone may be a region of the component wher
A hardfacing process includes depositing a clad layer having a thickness greater than about 1 mm (0.04 in) on a surface of the component by arc welding, and creating a heat affected zone directly below the clad layer due to the depositing. The heat affected zone may be a region of the component where a lowest hardness is more than 40% lower than a base hardness of the component below the heat affected zone. The method may also include heat treating the component after the deposition such that the lowest hardness in the heat affected zone is restored to within about 15% of the base hardness of the component.
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1. A hardfacing process for a component subject to wear, comprising: depositing a clad layer having a thickness greater than about 1 mm (0.04 in) on a steel body of the component using an arc welding process, the steel body having a hardness between about 43 HRC and 60 HRC; andheat treating the comp
1. A hardfacing process for a component subject to wear, comprising: depositing a clad layer having a thickness greater than about 1 mm (0.04 in) on a steel body of the component using an arc welding process, the steel body having a hardness between about 43 HRC and 60 HRC; andheat treating the component after the cladding, the heat treating including; austenizing the component;quenching the component in a liquid bath; andtempering the component after removing,wherein quenching the component includes: dropping the component which is at a temperature between about 875° C. (1607° F.) and 900° C. (1652° F.) into a water bath maintained at a temperature between about 35° C. (95° F.) and about 41° C. (106° F.), andremoving the component from the liquid bath such that a residual temperature of the component is between about 100° C. (212° F.) and 300° C. (572° F.), andwherein tempering the component includes: transferring the component at the residual temperature into a temper furnace maintained at a tempering temperature, andmaintaining a temperature of the component between about 143.3° C. (290° F.) and about 154° C. (309° F.) for a predetermined period of time,wherein depositing a clad layer includes creating a heat affected zone directly below the clad layer due to the depositing, the heat affected zone being a region of the body where a lowest hardness is more than 40% lower than a base hardness of the steel below the heat affected zone, and the heat treating includes heat treating the component such that the lowest hardness of the heat affected zone is restored to within about 15% of the base hardness. 2. The hardfacing process of claim 1, wherein depositing the clad layer includes depositing a clad layer having thickness of about 5 mm (0.2 in) on a wear component. 3. The hardfacing process of claim 1, wherein the lowest hardness of the heat affected zone is more than about 50% lower than the base hardness of the steel and the heat treating restores the lowest hardness to within about 5% of the base hardness. 4. The hardfacing process of claim 1, wherein austenizing the component includes maintaining a temperature of the component between about 875° C. (1607° F.) and 900° C. (1652° F.) for greater than or equal to about 60 minutes. 5. The hardfacing process of claim 1, wherein removing the component includes removing the component after a time of about 40 to 60 seconds. 6. The hardfacing process of claim 1, wherein the predetermined period of time is about 85 to about 90 minutes. 7. A method of hardfacing a track shoe having a grouser, comprising: depositing, by arc welding, molten cladding material on a surface of the grouser to form a clad layer having a thickness greater than about 1 mm (0.04 in);steering the cladding material such that the clad layer substantially conforms to a shape of the grouser;creating a heat affected zone directly below the clad layer due to the depositing, the heat affected zone being a region of the component where a lowest hardness is more than 40% lower than a base hardness of the component below the heat affected zone; andheat treating the component after the depositing such that the lowest hardness in the heat affected zone is restored to within about 15% of the base hardness of the component, wherein the heat treating includes: austenizing the component;quenching the component in a liquid bath by: dropping the component which is at a temperature between about 875° C. (1607° F.) and 900° C. (1652° F.) into a water bath maintained at a temperature between about 35° C. (95° F.) and about 41° C. (106° F.), andremoving the component from the liquid bath such that a residual temperature of the component is between about 100° C. (212° F.) and 300° C. (572° F.); andtempering the component after removing by: transferring the component at the residual temperature into a temper furnace maintained at a tempering temperature, andmaintaining a temperature of the component between about 143.3° C. (290° F.) and about 154° C. (309° F.) for a predetermined period of time. 8. The method of claim 7, wherein the austenizing includes maintaining a temperature of the component between about 875° C. (1607° F.) and 900° C. (1652° F.) for greater than or equal to about 60 minutes. 9. The method of claim 7, wherein the quenching includes immersing the component in the liquid bath for a time period between about 40 to 60 seconds. 10. The method of claim 7, wherein the residual temperature of the component is between about 115° C. (239° F.) and about 150° C. (302° F.). 11. The method of claim 7, wherein the predetermined time period is about 85 to about 90 minutes. 12. The method of claim 7, wherein the component has a hardness above about 43 HRC, and the depositing includes depositing a clad layer having a thickness of about 5 mm (0.20 in) on the surface of the component by a submerged arc welding process. 13. The method of claim 7, wherein the cladding material is deposited on a worn grouser of a used track shoe.
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이 특허에 인용된 특허 (8)
Pircher Hans (Mulheim an der Ruhr DEX) Bentz Werner (Hattingen DEX) Tegethoff Alfred (Ratingen DEX), Armour-plate and process for its manufacture.
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