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<a href="http://www.nubsplasticsinc.com/mold_making.html">Plastic Injection molding</a> is the manufacturing process for the fabrication of plastic parts. Nubs Plastics Inc. is one of the leading manufacturers of molded plastic products in San Diego, CA with 20 years of experience. Nubsplastics is hands down one of the best industries in the business when it comes to creating quality parts in record time. We have updated machines and they can make your product as you wanted! Unlike any other injection molding company.<br>
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Steps to Optimizing the Injection Molding Process www.nubsplasticsinc.com/
The complexities of engineering an injection molded plastic component or part for a complex application must translate to mold ability. If a molder is inexperienced in tool design and process optimization, there’s a good chance they won’t be familiar with methodologies essential for creating a highly efficient production process such as scientific plastic injection molding and, more specifically Design of Experiments (DOE) within scientific molding. Let's take a look at the key steps that tool and process engineers take to ensure consistent and repeatable manufacturability of flawless molded parts.
1. PRODUCT DESIGN • 2. TOOL DESIGN Determining product objectives such as function, aesthetics, assembly, etc., and the requirements for accomplishing the objectives. A team of engineers specially trained in advanced methodologies such as Design for Manufacturability (DfM) is assembled to identify and possibly improve upon solutions to meet the particular project requirements — including the selection of materials for the final complex injection molded part and the tool. Like product design, a thoughtful approach to tooling proves valuable. In addition to choosing the appropriate material for tool construction — hardened steel, pre-hardened steel, or aluminum — designing for proper gate location, draft, etc., is necessary to prevent costly project missteps.
3. MANUFACTURING • WHY DOES THE PROCESS MATTER? Production is the obvious goal of the step-by-step injection molding process. Achieving successful outcomes brings together the product and tool designs with resins that deliver to project needs (such as strength, heat tolerances, sterility, etc.) and moldability requirements including tight tolerances, uniform wall thickness, heating, cooling, and consistent repeatable cycling. Why are scientific molding and DOE important to your injection molding project? Simply put, they take the injection molding process to a much higher level of precision, helping to lower costs in the long run by allowing for identification and correction of tooling problems prior to production.
1. TOOL FUNCTIONALITY EXAMINATION • 2. SHORT SHOT TESTING STEPS TO PROCESS OPTIMIZATION Every aspect of the tool's mechanical functionality is assessed to make sure everything works as designed, using the material settings provided by the supplier of the material to be molded. Dynamic pressure loss and, in a multiple-cavity tool, cavity imbalance are determined and documented using sample parts. Also, the rheology curve (or viscosity curve) is established to indicate the best fill rate and pattern.
3. GATE SEAL STUDIES • 4. SAMPLE PARTS EVALUATION/DATA RECORDING Both the pressure curve and weight of the sample parts are observed to see if the gates fully seal and at what point sealing occurs. All defects are examined and recorded, along with recommendations for any adjustments in the process or the tool in order to correct the defects. Likewise, data is recorded with regard to melt temperature, fill time, tool temperature, coolant flow, cycle time and pressure curves.
PHONE NUMBER EMAIL ADDRESS WEBSITE www.nubsplasticsinc.com +1 - 760 - 598 - 2525 sales@nubsplastics.com • Contact Us
