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Preparation method for manufacturing graphite anode plate based on 3D printing technology
The invention relates to a method for manufacturing a graphite anode plate based on a 3D printing technology. A 3D model of a graphite anode plate is designed by using computer-aided design (CAD) software or other modeling software, then a graphite material is ground into powder, and the powder is mixed with a proper amount of an adhesive to form the conductive paste capable of being used for a 3D printer. And the conductive slurry is loaded into a printing spray head of a 3D printer, and the 3D printer prints a structural body of the graphite anode plate layer by layer according to the designed 3D model requirement. And after 3D printing is completed, the graphite anode plate needs to be taken down from the printing bed, and the supporting structure and the material shell are removed. And finally, the graphite anode plate is put into a high-temperature oven to be sintered, so that the hardness and density of the graphite anode plate are improved. The invention has the advantages of high precision, high production efficiency, adaptation to various different production requirements, reduction of manufacturing cost, improvement of production efficiency and quality and the like.
本发明涉及一种基于3D打印技术制作石墨阳极板的方法。通过使用计算机辅助设计(CAD)软件或其他建模软件设计出石墨阳极板的3D模型,然后将石墨材料磨成粉末,并将其与适量粘合剂混合在一起,形成可用于3D打印机的导电浆料。将导电浆料装进3D打印机的打印喷头中,根据设计的3D模型需求,使3D打印机逐层打印出石墨阳极板的结构体。在完成3D打印后,需要将石墨阳极板从打印床上取下,并移除支撑结构和材料外壳。最后,将石墨阳极板放入高温烤箱中进行烧结,以提高石墨阳极板的硬度和密度。本发明具有精度高、生产效率高、适应多种不同的生产需求、降低制造成本、提升生产效率和质量等优点。
Preparation method for manufacturing graphite anode plate based on 3D printing technology
The invention relates to a method for manufacturing a graphite anode plate based on a 3D printing technology. A 3D model of a graphite anode plate is designed by using computer-aided design (CAD) software or other modeling software, then a graphite material is ground into powder, and the powder is mixed with a proper amount of an adhesive to form the conductive paste capable of being used for a 3D printer. And the conductive slurry is loaded into a printing spray head of a 3D printer, and the 3D printer prints a structural body of the graphite anode plate layer by layer according to the designed 3D model requirement. And after 3D printing is completed, the graphite anode plate needs to be taken down from the printing bed, and the supporting structure and the material shell are removed. And finally, the graphite anode plate is put into a high-temperature oven to be sintered, so that the hardness and density of the graphite anode plate are improved. The invention has the advantages of high precision, high production efficiency, adaptation to various different production requirements, reduction of manufacturing cost, improvement of production efficiency and quality and the like.
本发明涉及一种基于3D打印技术制作石墨阳极板的方法。通过使用计算机辅助设计(CAD)软件或其他建模软件设计出石墨阳极板的3D模型,然后将石墨材料磨成粉末,并将其与适量粘合剂混合在一起,形成可用于3D打印机的导电浆料。将导电浆料装进3D打印机的打印喷头中,根据设计的3D模型需求,使3D打印机逐层打印出石墨阳极板的结构体。在完成3D打印后,需要将石墨阳极板从打印床上取下,并移除支撑结构和材料外壳。最后,将石墨阳极板放入高温烤箱中进行烧结,以提高石墨阳极板的硬度和密度。本发明具有精度高、生产效率高、适应多种不同的生产需求、降低制造成本、提升生产效率和质量等优点。
Preparation method for manufacturing graphite anode plate based on 3D printing technology
一种基于3D打印技术制作石墨阳极板的制备方法
SUN XUN (author) / LI CHUNYONG (author) / LIAO PENG (author)
2023-10-24
Patent
Electronic Resource
Chinese
IPC:
C04B
Kalk
,
LIME
/
B33Y
ADDITIVE MANUFACTURING, i.e. MANUFACTURING OF THREE-DIMENSIONAL [3D] OBJECTS BY ADDITIVE DEPOSITION, ADDITIVE AGGLOMERATION OR ADDITIVE LAYERING, e.g. BY 3D PRINTING, STEREOLITHOGRAPHY OR SELECTIVE LASER SINTERING
,
Additive (generative) Fertigung, d. h. die Herstellung von dreidimensionalen [3D] Bauteilen durch additive Abscheidung, additive Agglomeration oder additive Schichtung, z. B. durch 3D- Drucken, Stereolithografie oder selektives Lasersintern
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