Research on 3D printed fixture components

Fixtures are used for orientation, positioning and tightening of the workpiece during machining, control and assembly. The main fixture requirements are: orientation, positioning and tightening precision in accordance with the machining requirements. The materials used for fixture components, especi...

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Bibliographic Details
Main Authors: Chitariu, Dragoş-Florin, Munteanu, Adriana
Format: Conference Proceeding
Language:English
Subjects:
Alloy steels
Assembly
Dimensional analysis
Fixtures
Fused deposition modeling
Inspection
Machining
Orientation effects
Rapid prototyping
Stiffness
Surface roughness
Three dimensional models
Three dimensional printing
Tightening
V-blocks
Weight reduction
Workpieces
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Summary:Fixtures are used for orientation, positioning and tightening of the workpiece during machining, control and assembly. The main fixture requirements are: orientation, positioning and tightening precision in accordance with the machining requirements. The materials used for fixture components, especially, supports and clamping mechanism are, usually, alloy steel with HRC hardness up to 55-60 HRC. These components are machined to high level of precision thus assuring the overall precision of the fixture. In order to achieve high stiffness and a good dampening capacity the fixture become, usually, very heavy. In the case of manually operated fixtures light weight is an advantage; also there are operations such as inspection, assembly where the operating forces are low. In this case lightweight materials can be used for fixture construction. In this paper the FDM (Fused Deposition Modeling) 3D printing technology is used. Support buttons and v-block fixture components were selected and 3D printed. The effect of printing orientation of active surfaces of support was analysed. The dimensional accuracy and surface roughness on the active surface were measured. Experimental results indicate that surface roughness is dependent on the orientation of the printed workpiece.
ISSN:2261-236X
2274-7214
2261-236X
DOI:10.1051/matecconf/201817802008