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A laser-excited ultrasonic energy field assisted plasma arc-loaded powder additive manufacturing method

A plasma arc and additive manufacturing technology, which is applied in the field of high-efficiency additive manufacturing, can solve the problems of inability to stimulate the impact molten pool, low structural density of formed components, and unobvious effect of grain refinement, etc., to achieve improved Effect of heterogeneous nucleation rate, promotion of uniform nucleation, and grain growth refinement

Active Publication Date: 2021-04-20
武汉奇造科技有限公司
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  • Application Information

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Problems solved by technology

However, in this technology, the pulsed laser is used as an auxiliary heat source, and its frequency is set low, which cannot stimulate the ultrasonic energy field generated by impacting the molten pool. The structure of the formed component is low in density, and the effect of grain refinement is not obvious.

Method used

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  • A laser-excited ultrasonic energy field assisted plasma arc-loaded powder additive manufacturing method
  • A laser-excited ultrasonic energy field assisted plasma arc-loaded powder additive manufacturing method
  • A laser-excited ultrasonic energy field assisted plasma arc-loaded powder additive manufacturing method

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Embodiment 1

[0029] Embodiment 1, a laser-excited ultrasonic energy field assisted plasma arc-borne powder additive manufacturing method, which includes the following steps:

[0030] 1. The substrate 7 is made of 304 stainless steel plate with a thickness of 4 mm. The powder material in the powder feeder 4 has a particle size of 200-300 mesh austenitic stainless steel powder. The protective gas and ion gas used in the forming process are pure argon. The substrate 7 is horizontally fixed on the additive manufacturing platform, and the substrate 7 is connected to the positive pole of the plasma arc power supply 3 , and the plasma arc welding torch 2 is connected to the negative pole of the plasma arc power supply 3 . Adjust the plasma arc welding torch 2 so that the direction of the powder flow emitted by the plasma arc welding torch forms an included angle of 25° with the vertical plane, and adjust the laser 1 so that it is perpendicular to the surface of the substrate 7 . Then calibrate th...

Embodiment 2

[0035] Embodiment 2, a laser-excited ultrasonic energy field assisted plasma arc-borne powder additive manufacturing method, which includes the following steps:

[0036] 1. The substrate 7 is made of 304 stainless steel plate with a thickness of 4 mm. The powder material in the powder feeder 4 has a particle size of 200-300 mesh austenitic stainless steel powder. The protective gas and ion gas used in the forming process are all pure argon; The substrate 7 is horizontally fixed on the additive manufacturing platform, and the substrate 7 is connected to the positive pole of the plasma arc power supply 3 , and the plasma arc welding torch 2 is connected to the negative pole of the plasma arc power supply 3 . Adjust the plasma arc welding torch 2 so that the direction of the powder flow from the plasma arc welding torch forms an angle of 15° with the vertical plane, and adjust the laser 1 so that it is perpendicular to the surface of the substrate 7 . Then calibrate the relative ...

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Abstract

The invention discloses a laser-excited ultrasonic energy field-assisted plasma arc-loaded powder additive manufacturing method. The method adopts the method of coaxial powder feeding of metal powder and plasma arc, and uses the plasma arc heat source as a melting metal powder to deposit and shape it. The main heat source, with the help of high-frequency pulsed laser energy, impacts the plasma arc molten pool, excites and generates the ultrasonic energy field of the molten pool, so that the melting process of the molten pool forms a dense and fine-grained deposit layer fused structure, which includes the following steps: 1) Adjust the relative position of the plasma arc torch and the laser output head so that the laser energy acts on the tail area of ​​the plasma arc molten pool; 2) Set the cooperative working mode of the plasma arc current pulse and the laser pulse; 3) Set the laser beam action mode; 4 ) from the beginning of the forming manufacturing process to the completion of the manufacturing process. It can improve the density of the fused structure of the material, increase the heterogeneous nucleation rate in the molten pool, promote uniform nucleation, and significantly refine the grain growth during the solidification process of the molten pool.

Description

technical field [0001] The invention relates to high-efficiency additive manufacturing, in particular to a laser-excited ultrasonic energy field-assisted plasma arc-loaded powder additive manufacturing method. Background technique [0002] Modern additive manufacturing (3D printing) technology is an advanced manufacturing technology that integrates and develops information technology, new material technology and manufacturing technology. It is known as a representative technology that is expected to produce the "third industrial revolution". The leading technology for the development of individualized manufacturing models. After just over 20 years, this technology has achieved rapid development, and has broad application prospects in many fields such as aerospace, micro-nano manufacturing, and biomedical engineering. The technical basis of additive manufacturing of metal components is welding / connection. In the past 20 years, two major breakthroughs have been achieved in ad...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): B22F3/105
CPCB22F10/00B22F10/32B22F12/43B22F10/25B22F10/31B22F10/36B22F10/366Y02P10/25
Inventor 罗怡许洁汤帆顺罗成玲杨晨林王黎明段晨杰杨海林
Owner 武汉奇造科技有限公司
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