stereolithography
Manufacturing of high quality micro prototypes by injection molding using hybrid mold technology
A. Frick (a), C. Stern (a), U. Berger (b)
a Polymer Sciences and Processing, Aalen University of Applied Sciences AAUAS, Aalen 73430, Germany
b Department of Mechatronics, Aalen University of Applied Sciences AAUAS, Aalen 73430, Germany
Abstract
A larger number of polymeric prototypes with special material properties are often demanded for research and development. Thereby, it is most essential that the prototypes are made from the target material and the related processing technique. A sophisticated and fast possibility to obtain a mold for replicating parts (prototypes) by injection molding is making inserts for hybrid molds, using a rapid prototyping (RP) technique. RP technique (e.g. stereolithography) allows shaping complex mold cavity geometries as well as curved cooling conducts, what is not possible by conventional manufacturing.
The manufacturing of high quality micro parts by injection molding requires a plasticizing unit with small screw channel volume to reduce the residence time of the polymeric melt. Nowadays, the minimal commercially available screw diameter is 14 mm. A newly developed plasticizing unit with a screw diameter of 12mm, which was done at AAUAS in collaboration with ARBURG, permits a gentle processing of polymers, spending only half of the residence time. This is an advantage when micro prototypes are manufactured in a single-cavity mold.
The present work points out, how the combination of the benefits of stereolithography and micro injection molding can be successfully used for producing micro prototypes. By means of some examples, it is shown that the performance of small plastic products (part mass in the milligram range) can be optimized by choosing the right material and processing technique. Thus the spectrum of application of micro parts can be extended.
categories
hybrid mold technology | injection molding | Injection moulding | micro parts | polymer processing | polymers | stereolithography | stereolithographyBayerisches Laserzentrum
Various laser systems for ablation, soldering, welding, marking, adjustment, sintering, stereolithography, LOM.
Stephan Roth
categories
actuators | Assembly & packaging | Automotive | beam deflectors | ceramics | Communications | consultancy | design for manufacture | diffractive optical elements | drilling | general | glass | Laser ablation | Manipulation / handling | Markets | Measurement / Metrology | Mechanical machining | Medical | metals | Micro-optics | Micro-sensors & actuators | microreflective optical components | new materials | polymers | positioning / fixing | relays | small scale production | stereolithography | surface finishing | switches | tooling | waveguides and photonic structuresKU Leuven
K.U.Leuven is one of the three divisions of the department of Mechanical Engineering. PMA is active in the following areas: manufacturing processes, machine and instrument design, structural dynamics, acoustics, CAD/CAM/CIM, robotics, assembly automation, mechatronics, micro- and precision engineering, and metrology. The PMA division work includes original fundamental work as well as successful industry-oriented projects carried out in collaboration with small, medium and large companies and with international organisations like the European Space Agency. An important role of the research activities of the PMA division is based on international collaboration as shown by the participation of the division in more than 40 EC funded projects. The PMA division has also been nominated as Centre of Excellence by the Belgian Government.
dominiek reynaerts
categories
acceleration | actuators | Aerospace | Applications | Assembly & packaging | Automotive | blanking/punching | ceramics | coining | diamond turning | drilling | drug delivery systems | Electrical discharge machining (EDM) | Electrochemical machining (ECM) | Electroplating | Focussed Ion Beam (FIB) | force | general | grinding | heat exchangers | Hot/UV embossing | Injection moulding | Laser ablation | LIGA | Manipulation / handling | Markets | Measurement / Metrology | Mechanical machining | Medical | metals | Micro-fabrication | Micro-fluidics | Micro-optics | micro-pump actuators | Micro-sensors & actuators | micro-valve actuators | microreflective optical components | milling | motors | new materials | polishing | polymers | positioning / fixing | pressure | Products | Scientific / Academic Community | sensors | Space science | stereolithography | stress | surface finishing | turningFraunhofer IZM
All kinds of Assembly and Packaging Technologies and Equipment suitable for the microsystem implementation
Erik Jung
categories
Aerospace | Agriculture | Assembly & packaging | Automotive | Communications | consultancy | design for manufacture | dies | Focussed Ion Beam (FIB) | general | Hot/UV embossing | Injection moulding | Medical | moulds | positioning / fixing | Scientific / Academic Community | small scale production | Space science | stereolithographyResearch Centre Karlsruhe (FZK)
The Institute of Material Research III, as one of about 20 scientific institutes of the Forschungszentrum (Research Center) Karlsruhe, works alongside other scientific work on the development of manufacturing processes for polymer and ceramic micro-components.
langbein
categories
ceramics | Electroplating | general | Hot/UV embossing | Injection moulding | LIGA | masks | Measurement / Metrology | metals | moulds | polymers | small scale production | stereolithography | uv & x-ray lithography
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