Design, Simulation and Analysis for Injection Moulding of Manual Juice Maker
Alemayehu, Kibrom (2014)
Alemayehu, Kibrom
Arcada - Nylands svenska yrkeshögskola
2014
All rights reserved
Julkaisun pysyvä osoite on
https://urn.fi/URN:NBN:fi:amk-2014101514748
https://urn.fi/URN:NBN:fi:amk-2014101514748
Tiivistelmä
As of the fact that most plastic products are manufactured using injection molding process now a
days, this thesis project brings to the surface the study of the underlying principle and theories of mold designing basics and proceeds along the way with a designing and simulation of a plastic product manual juice maker showing theories, steps, methods, designing, simulation and analysis.
A detail study of product design carried on for an injection molding design and simulation. A basic study of plastics principle and materials of the part design studied in a basic level with a progressing hierarchical building of points of mould designing basics and functions. This thesis study aims on designing, simulation and analysis of an enhanced squeezing mechanism manual juice maker, the part is designed using the software SolidWorks in a successive two phases starting from the Dom then the containing jar with finally incorporating both as a single Manual Juice Maker design after the required criteria and features of the Manual Juice Makers separate components achieved. On top of that keeping its uniqueness and identities from the scratch level of research study on a basic sample fruit dimensions, geometry and way of squeezing focusing with manufacturing a Manual juice Maker with low coast plastic material and saving material coast, most of all meeting the objectives of this product design for enabling maximum squeezing capacity of the Dom with enhanced added designing features on it for the clockwise rotation of the fruit. In addition an easy, handy and elegant designing of the containing jar achieved that incorporated together.
Along with this thesis study, after the required product designed achieved using the software
SolidWorks, then carried on different realistic parameters and assumptions of the part design studied, then applied for simulation analysis of the plastic melt using the software Autodesk Moldflow Synergy and here by, based on the analysis the melt flow is analyzed and optimum results are found. At the final stage these results compared, contrasted and forecasting this values and results for the real world injection molding production of the manual juice maker on the ground level.
days, this thesis project brings to the surface the study of the underlying principle and theories of mold designing basics and proceeds along the way with a designing and simulation of a plastic product manual juice maker showing theories, steps, methods, designing, simulation and analysis.
A detail study of product design carried on for an injection molding design and simulation. A basic study of plastics principle and materials of the part design studied in a basic level with a progressing hierarchical building of points of mould designing basics and functions. This thesis study aims on designing, simulation and analysis of an enhanced squeezing mechanism manual juice maker, the part is designed using the software SolidWorks in a successive two phases starting from the Dom then the containing jar with finally incorporating both as a single Manual Juice Maker design after the required criteria and features of the Manual Juice Makers separate components achieved. On top of that keeping its uniqueness and identities from the scratch level of research study on a basic sample fruit dimensions, geometry and way of squeezing focusing with manufacturing a Manual juice Maker with low coast plastic material and saving material coast, most of all meeting the objectives of this product design for enabling maximum squeezing capacity of the Dom with enhanced added designing features on it for the clockwise rotation of the fruit. In addition an easy, handy and elegant designing of the containing jar achieved that incorporated together.
Along with this thesis study, after the required product designed achieved using the software
SolidWorks, then carried on different realistic parameters and assumptions of the part design studied, then applied for simulation analysis of the plastic melt using the software Autodesk Moldflow Synergy and here by, based on the analysis the melt flow is analyzed and optimum results are found. At the final stage these results compared, contrasted and forecasting this values and results for the real world injection molding production of the manual juice maker on the ground level.