- Zeitschriftendaten
- Format
- Zeitschrift
- eISSN
- 2601-8799
- Erstveröffentlichung
- 30 Jan 2019
- Erscheinungsweise
- 2 Hefte pro Jahr
- Sprachen
- Englisch
This research is based on the impact assessment of the active element of injection moulding tools. The quality of the tool surface has a significant effect on the filling and cooling efficiency. Our goal is to create a uniform structure on the cavity’s surface that results in a high degree of orientation during the injection moulding process. A special experimental tool is needed for the research. Our design was based on the results of previous experimental research and preliminary criteria. The design was based on the size and position tolerances of the A side of the tool. As the previous study has shown, there are three main points to consider when designing an experimental moulding tool. These are the applied manufacturing technology, Design for Assembly, and the expansion of the measurement possibilities by using different sensors. The small beam size of the femtosecond laser also allows the machining of microscopic-sized details, a technology used to structure the cavity surface. The success of this was analyzed by microscopic examination.
Producing a Dissimilar Joint of Copper to Austenitic Stainless Steel by Ultrasonic Welding Examination of Glass-Fibre Reinforced Composite Dental Fillings Design and Implementation of a Vacuum Forming Machine Manufacture of a Home-Made Spot Welding Machine from Household Electronic Waste Characteristics of the Levels of Mechanisation in Arc Welding Design of an Experimental Injection Moulding Tool for Testing Microstructured Cavity Surfaces Manufacturing, Heat Treatment and Investigation of Foam-Filled Tubes Development of Pneumatic Deformability Test of Polylactic Acid Films Development of a Clamping Device for Tensile Testing of Intracranial Flow Diverter Stents Development of Graphite- and Graphene Reinforced Styrene-Butadiene Rubber