TH2001006736A - Resistance spot welding joints, vehicle frame components supplied with resistance spot welding joints, and methods of resistance spot welding joint manufacturing. - Google Patents

Abstract

This series of welded joints includes a thin tensile steel plate. 1100MPa or higher and hard martensitic structure as main structure, second thin steel plate stacked on first thin steel plate, ingot with diameter D at section The interface between the first and second steel plates and made between the first and second steel plates, and the hardness control region takes up space. In the cross-section of a thin steel plate, one in the direction along the thickness of the thin plate passing through the center of the lump The region of the thin steel plate is one in the direction along the thickness of the thin plate and ranges from 0.5 X D to 1.0 X D from the ingot center in the direction of the thin plate surface and the difference between the highest and lowest values in The local hardness is 80 HV or less, and the local maximum hardness is lower than the maximum hardness of the first thin steel plate. This point includes one thin steel plate with the tensile strength of 1100MPa or higher and hard martensitic structure as the main structure, plate The second thin steel stacked on the first thin steel plate, the ingot of diameter D at the interface between the first and second thin steel plate and formed between the thin steel plates. Thin first and second, and a thickness control region where, in the cross section of the steel plate Somewhere in the direction along the thickness of the thin plate, which passes through the middle of the metal, the plate region A thin steel somewhere in the direction along the plate thickness and is formed 0.5 X D to 1.0 X D from the ingot center in the plate surface direction and where the difference between the maximum and minimum values in hardness in the region is 80 HV or less, and the maximum hardness in the area below The highest hardness of the first thin steel plate

Claims (10)

1. Spot welded joints which include: first thin steel plate with tensile strength of 1100 MPa or above and with hard martensitic structure as the main structure; The second steel plate stacked on top of the first steel plate; A piece of metal passing through center D at the interface between the first and second steel plates and made between the first and second steel plates; and area of hardness control In the cross section of a thin steel plate, one in the direction along the thickness of the thin plate extends through the center of the lump. The region of the whole steel plate in the direction along the plate thickness and is from 0.5 X D to 1.0 X D apart from the center of the ingot in the plate surface direction and where the difference between the maximum value of the thickness and the local hardness minimum value is 80 HV or less, and the local hardness maximum value is lower than the local thin steel plate hardness maximum value. 1, which additionally incorporates: another metal in cross section 3. A spot welded joint according to claims 1 or 2, where the stiffness control region is present in the entire cross section 4. . Spot welded joints according to claims 1 to 3, where the maximum local hardness is 250 HV to 450 HV. Any one of Claims 1 to 4, where the first and second steel plates are plated steel plates. Points according to any one of claims 1 to 5. It consists of: stacking the first thin steel plate with a tensile strength of 1100 MPa or higher and with a hard martensitic structure as the main structure, and the second thin steel plate and which performs spot welding to make a metal ingot between the first and second steel plates, an ingot having a passage through center D at the interface between the first and second steel plates. There is, and tempering all the regions which are, in the cross-section of the thin steel plate in the direction along the thickness of the thin plate, passing through the center of the ingot, all in the direction along The thickness of the thin plate and is from 0.5 X D to 1.0 X D beyond the center of the ingot in the thin plate surface direction. This is done so that the difference between the hardness maximum and the extreme value of the hardness in the transition zone is 80 HV or less, and the maximum value of the hardness in the transition zone is lower than the maximum hardness of the thin steel plate. One 9. Manufacturing method of spot welded joints According to Claim 7 or 8, where the tempering of the operands covers the entire area of the cross-section. 10. Method for manufacturing series welded joints according to claim 8 or 9, where the local maximum hardness is 250 HV to 450 HV ------------ 1. Resistance spot welding joint which is composed of: first thin steel plate with tensile strength of 1100MPa or higher and with Hard martensitic structure is the main structure; The second steel plate stacked on top of the first steel plate; An ingot of diameter D at the interface between the first thin steel plates. and the second slab and formed between the first slab and the second slab; and the thickness control region which is located, in the cross section of the thin steel plate in one of the direction according to the thickness of the thin plate which passes through the middle of the metal mass, the plate area The overall thin steel in the direction along the thickness of the thin plate and is from 0.5 X D to 1.0 X D in addition to the central steam of the ingot in the thin plate surface direction and where the difference between The local hardness maximum and minimum local hardness value are 80HV or less, and the local hardness maximum value is lower than the first thin steel plate hardness maximum value. 2. A spot welded resistance joint according to claim 1, which additionally incorporates: one ingot in cross-section 3. Resistance spot welding joints according to claim 1 or 2, where the thickness control region is present in the entire cross section. 4. Resistance spot welding joints according to claims 1 to 3, where the maximum local hardness is 250 HV to 450 HV. 5. Resistance spot welding joints according to claims 1 to 4, where the first and second steel plates are plated steel plates. 6. Components of a vehicle frame comprising: a spot welded resistance joint pursuant to any of claims 1 to 5. 7. Manufacturing methods of resistance spot welding joints which include: in which one thin steel plate is stacked with a tensile strength of 1100 MPa or higher and with hard martensitic structure as the main structure and secondary thin steel plate and which performs spot welding to form a metal mass between the first thin steel plate and Second thin steel plate, ingot with diameter D at the interface between the plates. The first thin steel and the second thin steel plate are present, and the overall tempering area which is, in the cross section of the first thin steel plate, direction according to the thickness of the thin plate, which passes through the center of the metal mass, the first thin steel plate total in the direction along the plate thickness and is from 0.5 X D to 1.0 X D apart from the center of the ingot in the plate surface direction. 8. Manufacturing method of resistance spot welding joints according to Claim 7, where tempering is carried out so that the difference between the maximum value of hardness and the The minimum of local hardness changed to 80HV or less, and the maximum of local hardness The transition area is lower than the maximum hardness of the first thin steel plate. 9. Method of fabrication of resistance spot welding joints according to Claim 7 or 8, where tempering is performed on the entire area of the cross section. 10. Manufacturing method of resistance spot welding joints according to Claim 8 or 9, where the maximum local hardness is 250 HV to 450 HV.