Processing method capable of realizing shape stability of thin-walled pipe fitting

A processing method and a stable technology, applied in the field of thin-walled pipe fittings processing, can solve problems such as part deformation, shape failure, grain deformation, etc., and achieve the effect of improving plasticity and ensuring shape

Active Publication Date: 2015-06-03
赵显华
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  • Abstract
  • Description
  • Claims
  • Application Information

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Problems solved by technology

[0002] The ratio of wall thickness to outer diameter of metal thin-walled pipe fittings is usually less than 6%, and some thin-walled pipe fittings have a wall thickness of only tens of microns. Such metal thin-walled pipe fittings are usually stretched, and there is a very large stress, which causes the parts to deform , cannot reach the required shape, and its internal grains are severely deformed and in an unstable state, making the shape of thin-walled pipes unstable
[0003] Ultrasonic vibration can eliminate stress, and it is generally carried out on castings or weldments with a certain strength, but the application on thin-walled pipes has not been reported, and the shape stability of thin-walled pipes is a technical problem that needs to be solved urgently

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  • Processing method capable of realizing shape stability of thin-walled pipe fitting
  • Processing method capable of realizing shape stability of thin-walled pipe fitting

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Embodiment Construction

[0013] Such as figure 1 As shown, the finishing method of the thin-walled pipe fitting 2 in the present invention is to put the thin-walled pipe fitting 2 on the mandrel 1, and the cooperation between the two is clearance fit. The appropriate gap is 0.01mm-0.03mm, or determined according to specific conditions. Then the mandrel 1 is clamped on the chuck 4 of the lathe. If the mandrel 1 is longer, its tail end is supported by the top 5, and the clamping method is adopted, and then the ultrasonic wave is installed on the tool rest of the lathe. Cutter 3, first make the ultrasonic cutter 3 contact with the surface of the thin-walled pipe fitting 2 and apply a pre-stressing force of 5 kg-50 kg, and perform high-frequency (20,000 times per second) on the surface of the thin-walled pipe fitting 2 through the tool head of the ultrasonic cutter 3 above) impact, the impact amplitude of ultrasonic impact can be set at 5μm-25μm, the linear speed of mandrel 1 rotation is 2m / min-100m / min,...

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Abstract

The invention relates to a processing method capable of realizing the shape stability of a thin-walled pipe fitting. The processing method comprises the following steps of: sleeving the thin-walled pipe fitting on a mandrel, so that an ultrasonic cutter is contacted with the surface of the thin-walled pipe fitting; applying a prestressed force; and performing high-frequency impact on the surface of the thin-walled pipe fitting by using the ultrasonic cutter, so that ultrasonic energy is directly input into a material through the ultrasonic cutter to perform ultrahigh frequency small-amplitude micro-forging on a workpiece, metal on the surface layer of the workpiece generates plastic deformation flowing in a micro-forging process, atoms and microstructures of the material on the surface layer of the workpiece are activated under the action of ultrasonic energy, a metal residual stress field of the thin-walled pipe fitting is changed, the unstable state of crystal grains is changed into a stable state, the plasticity of the material is greatly improved, the metal is easily subjected to plastic deformation, and the shape of the thin-walled pipe fitting is stabilized.

Description

technical field [0001] The invention relates to a method for processing a thin-walled pipe fitting to ensure its shape stability, and belongs to the technical field of thin-walled pipe fitting processing. Background technique [0002] The ratio of wall thickness to outer diameter of metal thin-walled pipe fittings is usually less than 6%, and some thin-walled pipe fittings have a wall thickness of only tens of microns. Such metal thin-walled pipe fittings are usually stretched, and there is a very large stress, which causes the parts to deform , can not reach the required shape, and its internal crystal grains are seriously deformed, and it is in an unstable state, making the shape of the thin-walled pipe fittings unstable. [0003] Ultrasonic vibration can eliminate stress, and it is generally carried out on castings or weldments with a certain strength, but the application on thin-walled pipes has not been reported, and the shape stability of thin-walled pipes is a technic...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): C21D10/00
CPCY02P10/20
Inventor 赵显华
Owner 赵显华
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