In this study, a method that can be used to produce larger parts with small printing capacity 3D printers is mentioned. This method; It is based on the principle that the large part planned to be produced can be divided into small parts and produced in pieces, and these parts can be combined with appropriate fitting and gluing methods to obtain a large part. Within the scope of this study, the tensile strengths of samples produced with the dovetail joining technique and applied to two different bonding techniques were compared with the tensile strengths of samples produced as a single piece. In the 1st method, 50% glass fiber reinforced polyester material by mass was used in the bonding process. In the 2nd method, ABS slurry obtained with 50% ABS (Akrilonitril Bütadien Stiren) material by mass and acetone solution was used. In both methods, a weld-shaped gap is left in the upper layers to increase the effect of sample bonding. The samples were produced from ABS granule material with a granule material-fed 3D printer

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Investigation of the Effect of Bonding of Parts Produced from ABS Granular Material with ABS Slurry and Glass Fiber Reinforced Polyester on the Tensile Strength

  • Ahmet Kobeloglu,
  • Kerim Cetinkaya,
  • Suat Altun,
  • Hatice Evlen

摘要

In this study, a method that can be used to produce larger parts with small printing capacity 3D printers is mentioned. This method; It is based on the principle that the large part planned to be produced can be divided into small parts and produced in pieces, and these parts can be combined with appropriate fitting and gluing methods to obtain a large part. Within the scope of this study, the tensile strengths of samples produced with the dovetail joining technique and applied to two different bonding techniques were compared with the tensile strengths of samples produced as a single piece. In the 1st method, 50% glass fiber reinforced polyester material by mass was used in the bonding process. In the 2nd method, ABS slurry obtained with 50% ABS (Akrilonitril Bütadien Stiren) material by mass and acetone solution was used. In both methods, a weld-shaped gap is left in the upper layers to increase the effect of sample bonding. The samples were produced from ABS granule material with a granule material-fed 3D printer