<h6class="text-uppercase text-body m-0">Molding and Casting</h6>
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<h2>Principles and Practices</h2>
<p>This is My Assignment description<br>Work is in Progress.....</p>
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<p><FONTCOLOR="black">On the Wednesday of fifth week, Mr. Neil sir conducted our twelveth global session. He took the random generator in first 90 minutes. He gave us overall explaination about week-12 which includes Molding and Casting processes.
He tought us different concepts related to Molding - types, vendors, materials, additives, processing, safety, machining, softwares regarding.
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In this assignment, I have made documentation on-<br>
<b>Group Assignment</b><br>
1. Review the safety data sheets for each of your molding and casting materials.<br>
2. Make and compare test casts with each of them. <br>
3. Compare printing vs machining tools.<br>
<b>Individual Assignment</b><br>
1. Design a mold around the process you'll be using.<br>
2. Produce it with a smooth surface finish.<br>
3. Use it to cast parts.<br>
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<p><FONTCOLOR="black"><b>Basic Concepts of Molding and Casting</b><br>
Molding is the process of manufacturing by shaping liquid or pliable raw material using a rigid frame called a mold or matrix. This itself may have been made using a pattern or model of the final object. The liquid hardens or sets inside the mold, adopting its shape. A mold or mould is a hollowed-out block that is filled with a liquid or pliable material such as silcine rubber, plastic, glass, metal, or ceramic raw material. A mold can also be made of wood, MDF carved on a CNC milling machine. A mold is the counterpart to a cast.
Molding is a technique through which a material, often plastic, but also metal, rubber, or powder mixtures is shaped on the outline of a die or mold. There are many different techniques for molding materials, just as there are many different applications for each process. Moulding boxes are special purpose boxes that are designed for use in moulding systems where the demand of high pressure moulding and high production rates (from a fully automated system) require a box designed & machined to exacting tolerances.
<p><FONTCOLOR="black">Casting is a manufacturing process in which a liquid material is usually poured into a mold, which contains a hollow cavity of the desired shape, and then allowed to solidify. The solidified part is also known as a casting, which is ejected or broken out of the mold to complete the process.
Read more-<ahref="https://en.wikipedia.org/wiki/Molding_(process)">Molding</a> and <ahref="https://en.wikipedia.org/wiki/Casting"></a><br>
<b>Sprue, Runners and Gates</b><br>
Sprues and runners are integral components in the manufacturing process, particularly in injection molding, where molten materials like plastic or metal are injected into molds to create various products. Think of them as the highways that guide the flow of the molten material into the mold cavity. The sprue serves as the main entry point, resembling a large funnel through which the material is poured into the mold. Meanwhile, runners are like smaller channels branching out from the sprue, directing the material to different sections of the mold, especially when multiple parts are being produced simultaneously. At the point where the material enters the mold cavity from the runner, it forms what's known as the 'gate.' Once the material cools and solidifies in the mold, the excess material in the form of sprues and runners needs to be removed to reveal the final product. Interestingly, in certain applications such as small plastic models, these leftover bits are repurposed as a packaging method, showcasing a clever utilization of what would otherwise be considered waste material.
Vents play a crucial role in the injection molding process by allowing air to escape from the mold cavity. Before the molten material is injected, there's a lot of air trapped in the flow path and cavity. When the material enters rapidly, it's important to get rid of this air quickly so that the plastic can fill up all the space properly. Additionally, as the material cools and solidifies in the cavity, a vacuum forms between the product and the cavity wall, so air needs to enter the mold to aid in ejection. Without vents, the trapped air would compress as the plastic pushes it out, leading to burning issues. Vents need to be sized just right—large enough to let air out but not so big that the plastic leaks out, causing flashing. They should ideally be located at the end of flow paths or where these paths come together. It's also essential to keep vents clean to prevent clogging, ensuring that air can still escape effectively.
<p><FONTCOLOR="black"><b>Parting lines and Flashing</b><br>
A parting line is where the two halves of a mold meet, creating a separation line on the finished part. This line marks the boundary between the areas of the mold that form the top and bottom of the part. While it can be a simple flat surface on straightforward parts, it often follows the contours of the part's shape, including its outer features. Parting lines can also occur where different parts of the mold meet, such as with side action pins or tool inserts. They're unavoidable and essential in molding processes. When designing a part, it's important to consider that molten material tends to flow toward the parting line because it's the easiest path for air to escape.
Flash, on the other hand, is excess material left on the finished part due to the seam of the mold. When material enters the mold, it can seep slightly into this seam, leaving behind a thin layer of material when the part is removed. While it's generally easy to remove, it's crucial to consider during mold design to ensure it doesn't affect the functionality or appearance of the final product, especially in parts with tight tolerances or areas requiring seals. Experienced mold designers work to minimize and hide seam lines, collaborating with product designers to achieve the desired outcome.
