Difference between revisions of "Toolbox for Opto-Mechanical Components"
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|projectimage=TUB.198.1.png | |projectimage=TUB.198.1.png | ||
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|projectimage=TUB.198.5.png | |projectimage=TUB.198.5.png | ||
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|subcat=Business, industry | |||
|projectname=Toolbox for Opto-Mechanical Components | |||
|projectnameES=Caja de herramientas para componentes opto-mecánicos | |||
|projectnameDE=Werkzeugkasten für optomechanische Komponenten | |||
|kewords=Construction elevator | |||
|firstin=https://journals.plos.org/plosone/article?id=10.1371/journal.pone.0169832 | |firstin=https://journals.plos.org/plosone/article?id=10.1371/journal.pone.0169832 | ||
|desc=In this article we present the development of a set of opto-mechanical components (a kinematic mount, a translation stage and an integrating sphere) that can be easily built using a 3D printer based on Fused Filament Fabrication (FFF) and parts that can be found in any hardware store. Here we provide a brief description of the 3D models used and some details on the fabrication process. Moreover, with the help of three simple experimental setups, we evaluate the performance of the opto-mechanical components developed by doing a quantitative comparison with its commercial counterparts. Our results indicate that the components fabricated are highly customizable, low-cost, require a short time to be fabricated and surprisingly, offer a performance that compares favorably with respect to low-end commercial alternatives. | |desc=In this article we present the development of a set of opto-mechanical components (a kinematic mount, a translation stage and an integrating sphere) that can be easily built using a 3D printer based on Fused Filament Fabrication (FFF) and parts that can be found in any hardware store. Here we provide a brief description of the 3D models used and some details on the fabrication process. Moreover, with the help of three simple experimental setups, we evaluate the performance of the opto-mechanical components developed by doing a quantitative comparison with its commercial counterparts. Our results indicate that the components fabricated are highly customizable, low-cost, require a short time to be fabricated and surprisingly, offer a performance that compares favorably with respect to low-end commercial alternatives. | ||
|licence=CCBY40 | |||
|typeproject=TUBerlin | |typeproject=TUBerlin | ||
|project_status=active | |project_status=active | ||
|maturity=PTT | |maturity=PTT | ||
| | |design_files_pub=no | ||
|mechanical_licence=CCBY40 | |mechanical_licence=CCBY40 | ||
|assembly_inst_pub=no | |assembly_inst_pub=no | ||
|bill_materials_pub=yes | |bill_materials_pub=yes | ||
|bill_materials_editable=no | |bill_materials_editable=no | ||
|contributing_guide_pub=no | |contributing_guide_pub=no | ||
|issue_management_system=no | |||
|versioning_system=no | |||
|certificate_requested=No | |||
|product_category=Business & Industrial | |||
}} | }} |
Latest revision as of 08:19, 10 November 2021
Toolbox for Opto-Mechanical Components Basic Data Category: Business, industry URL (first publication): https://journals.plos.org/plosone/article?id=10.1371/journal.pone.0169832 Keywords: Construction elevator License: CC BY 4.0 Project status: Active
Technical documentation Maturity of the project: prototype
Assembly instructions are published: No Bill of materials is published: Yes
no no
Project management
Open-o-meter: 2 Product category: Business & Industrial
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Description
In this article we present the development of a set of opto-mechanical components (a kinematic mount, a translation stage and an integrating sphere) that can be easily built using a 3D printer based on Fused Filament Fabrication (FFF) and parts that can be found in any hardware store. Here we provide a brief description of the 3D models used and some details on the fabrication process. Moreover, with the help of three simple experimental setups, we evaluate the performance of the opto-mechanical components developed by doing a quantitative comparison with its commercial counterparts. Our results indicate that the components fabricated are highly customizable, low-cost, require a short time to be fabricated and surprisingly, offer a performance that compares favorably with respect to low-end commercial alternatives.
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