Arrangement and scanning strategy for multiple same-cabin parts of selective laser melting strip-shaped structure

A selective laser melting and strip-shaped technology, which is applied in the field of additive manufacturing, can solve the problems of poor roughness and other problems, and achieve the effects of reducing loss, reducing the cost of additive forming, and improving efficiency

Pending Publication Date: 2022-05-27
NANJING CHENGUANG GRP +1
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Problems solved by technology

For increasing the layer thickness, the currently used 60um layer thickness is the limit under

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  • Arrangement and scanning strategy for multiple same-cabin parts of selective laser melting strip-shaped structure
  • Arrangement and scanning strategy for multiple same-cabin parts of selective laser melting strip-shaped structure

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Embodiment Construction

[0022] The present invention will be further introduced below with reference to the accompanying drawings and specific embodiments.

[0023] The arrangement and scanning strategy of multiple parts in the same cabin for a selective laser melting strip structure in this embodiment satisfies the following design steps:

[0024] Step 1: Arrangement of multiple workpieces: The size of the cabin of the selective laser melting equipment remains unchanged, with a length of 700mm-1000mm and a width of 400mm-600mm. The number of strip parts is not less than 4, and the strip parts 4 are arranged in parallel and at equal intervals along the length direction. The distance between the parts and the edge of the substrate 6 is not less than 20mm, and the distance between parts is not less than 10mm.

[0025] Step 2: Substrate selection: The thickness of the substrate 6 is determined according to the part, generally not less than the width of the part, and the material of the substrate 6 can b...

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Abstract

The invention provides an arrangement and scanning strategy for multiple same-cabin parts of a selective laser melting strip-shaped structure. The arrangement and scanning strategy comprises a multi-laser arrangement strategy, a part placement strategy and a laser cooperative scanning strategy of selective melting additive manufacturing equipment involved in the method. When the number of the cabins is not less than four, the utilization rate of equipment space is improved through the strategy that the same cabins are arranged at equal intervals; the number of the lasers is determined according to the number of the parts, the number of the lasers is 2-4 times that of the parts, the number of effective lap joint areas is minimum, the debugging time is shortened, and the additive forming efficiency is improved; in order to solve the problem of splashing interference of printing of multiple pieces in the same cabin, the invention provides a full headwind, multi-laser same-direction and asynchronous scanning strategy, the problem of mutual connection of splashing of the multiple pieces in the same cabin is solved, and the forming quality is ensured. By means of the method, manufacturing of more than four strip-shaped products in the same cabin and the same strategy can be achieved while the product quality is guaranteed, the manufacturing efficiency is improved to 400% or above, and the additive forming cost is reduced by 60%.

Description

technical field [0001] The invention belongs to the technical field of additive manufacturing, and relates to a strategy for arranging and scanning multiple parts in the same cabin of a strip-shaped structure by selective laser melting. Background technique [0002] Selective laser melting is currently the most widely used metal additive manufacturing technology. The powder bed melting method can realize the layer-by-layer processing and manufacturing of metal parts, so the forming structure is complex and the manufacturing efficiency is high. Since the selective laser melting additive manufacturing technology can realize the rapid manufacturing of integrated, lightweight and functional structures, it has been gradually applied in aerospace, military, medical, abrasive tool manufacturing and other fields, especially in the aerospace field. The biggest users of melting additive manufacturing technology are China Aerospace Science and Industry Corporation, China Aerospace Scie...

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Application Information

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IPC IPC(8): B22F10/28B22F10/366B22F10/322B33Y10/00
CPCB22F10/28B22F10/366B22F10/322B33Y10/00Y02P10/25
Inventor 柏久阳王曌凯胡伟叶孙海赟黄耀辉陈宁仇皓亮
Owner NANJING CHENGUANG GRP
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