Online nondestructive detection system and method of quality of manufacturing members of metal additional materials

A metal additive and non-destructive testing technology, applied in the direction of measuring devices, instruments, etc., can solve the problems of inability to comprehensively detect the quality information of formed components, lack of scalability, versatility and universality, and limited online signal acquisition of single detection objects , to achieve the effect of promoting practical application, ensuring high quality and high reliability, and eliminating doubts about quality

Active Publication Date: 2017-11-28
HUAZHONG UNIV OF SCI & TECH
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

However, these methods are limited to the online signal acquisition of a single detection object, and cannot comprehensively detect and reflect the quality information of the formed component. Moreover, these methods are only applicable to a specific metal additive manufacturing equipment, and do not have scalability, versatility, and universality.
[0006] Therefore, t

Method used

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  • Online nondestructive detection system and method of quality of manufacturing members of metal additional materials
  • Online nondestructive detection system and method of quality of manufacturing members of metal additional materials
  • Online nondestructive detection system and method of quality of manufacturing members of metal additional materials

Examples

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Embodiment 1

[0066] A system and method suitable for online non-destructive testing of the quality of wire-feeding metal additive manufacturing components, including the following devices and steps.

[0067] Such as Figure 7 As shown, the example of the present invention includes a mobile inspection vehicle 1, a guide rail 2, a control system 4, an optical fiber 5, a mobile probe interface 7, a fixed probe 8, a mobile probe 14, a wire feeding 3D printing head 9, a probe fixture 10, a forming Part 11, energy source 12, substrate 13.

[0068] This example includes two types of fixed probes 8 and movable probes 14 , and the number of the two types of probes is determined according to actual testing needs. The fixed probe 8 moves horizontally or circularly on the guide rail 2, the mobile probe 14 is installed in the mobile probe interface 7, the mobile probe interface 7 moves horizontally or circularly on the guide rail 2, and the guide rail 2 moves vertically on the mobile inspection vehicl...

Embodiment 2

[0079] A system and method suitable for online non-destructive testing of the quality of powder-feeding metal additive manufacturing components, including the following devices and steps.

[0080] Such as Figure 10 As shown, the example of the present invention includes a mobile inspection vehicle 1, a guide rail 2, a control system 4, an optical fiber 5, a mobile probe interface 7, a fixed probe 8, a mobile probe 14, a powder feeding 3D printing head 17, a powder nozzle 16, a forming Part 11, energy source 12 and substrate 13.

[0081] This example includes two types of fixed probes 8 and movable probes 14 , and the number of the two types of probes is determined according to actual testing needs. The fixed probe 8 moves horizontally or circularly on the guide rail 2, the movable probe 14 is installed in the movable probe interface 7, and the movable probe interface 7 moves on the fixed probe 8 and the second fixed probe 8′ or in a circle, and the guide rail 2 is in the Th...

Embodiment 3

[0092] A system and method suitable for online non-destructive testing of the quality of powder-feeding metal additive manufacturing components, including the following devices and steps.

[0093] Such as Figure 12 As shown, the example of the present invention includes a mobile testing vehicle 1, a guide rail 2, a control system 4, an optical fiber 5, a mobile probe interface 7, a mobile probe 14, a powder feeding 3D printing head 17, a powder nozzle 16, a molded part 11, and an energy source 12 and substrate 13.

[0094] In this example, only one type of movable probe 14 is included, and the number of movable probes 14 is determined according to actual detection requirements. The mobile probe 14 is installed in the mobile probe interface 7 , the mobile probe interface 7 moves horizontally or circularly on the guide rail 2 , and the guide rail 2 moves vertically on the mobile testing vehicle 1 . The powder-feeding 3D printing head 17 is located above the substrate 13, and ...

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Abstract

The invention discloses an online nondestructive detection system and method of quality of manufacturing members of metal additional materials and belongs to the field of online nondestructive detection. The system comprises a moving detection vehicle, a guidance rail, an online signal detection module and a control system. A column is arranged on the vehicle body of the moving detection vehicle. The guidance rail is movably connected to the column. The online signal detection module is movably connected to the guidance rail. Multiple probes are integrated into the online signal detection module and comprise probes used for detecting compositions, defects, deformation, stress, size precision and surface coarseness. During detection, the probes can be embedded into a 3D printing head of a feeding type additional material manufacturing device or be fixed on the moving detection vehicle. The probes are in signal connection with the control system. The invention also provides a method for carrying out online nondestructive detection of the system. According to the invention, the system and the method are widely applicable, highly expandable and capable of achieving onsite or remote online detection of manufacturing processes of feeding type metal additional materials.

Description

technical field [0001] The invention relates to a system and method suitable for online non-destructive testing of component quality in feeding-type metal additive manufacturing, specifically related to online non-destructive testing of component components, defects, deformation, stress, dimensional accuracy and surface roughness, etc., belonging to online non-destructive testing field. Background technique [0002] Additive manufacturing technology (Additive manufacturing), also known as 3D printing technology, is a high-end digital manufacturing technology based on the principle of layered manufacturing and layer-by-layer superposition forming, which is processed by "additive" processing from three-dimensional CAD data of parts. This technology breaks through the limitations of the existing manufacturing technology on the shape of components, and can realize the integration of function-structure-manufacturing, greatly simplify the manufacturing process of complex and preci...

Claims

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Application Information

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IPC IPC(8): G01D21/02
CPCG01D21/02
Inventor 王泽敏杨晶晶杨慧慧喻寒琛黄文普曾晓雁
Owner HUAZHONG UNIV OF SCI & TECH
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