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Injection Mold Design

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Plastic injection molding for producing plastic products

Plastic injection molding is the principal process for producing plastic products or parts of products. Plastic is acknowledged to be a very flexible and cost-effective material that is used in many applications. Although the tooling can be expensive, the cost, per part is very low. Intricate geometries are limited only to the abiltiy to create the injection mold. Things you use everyday, such as the case that houses your monitor, the keyboard on which you type or the mouse on your desk were produced with plastic injection molding.

Plastic injection molding involves the transformation of a plastic solid, usually in the form of granules or pellets, and heating the plastic resin to a specific temperature until it melts. The melt is then forced into a mold made up of two or more dies, where it is forced to “cool”, resulting in producing the desired shape. A specific amount of time passes, usually a few seconds, and the mold is then opened and the part is released. This cycle then repeats continuously until the desired quantity is reached.

Considerations of  Injection Mold Design

The design of the part, and therefore the mold, needs to include draft features (angled surfaces) to make possible the removal of the part from the mold. Typical draft angles are about 1 to 2 degrees for part surfaces which do not exceed five inches. Dimensional tolerance specification will dictate the final cost of the part as well as its ability to be manufactured. If there is a small section of the part which needs higher tolerances, such as the location of a critical feature used for alignment,do not specify a tight tolerance, as an alternative, plan and design for post molding processes such as machining to achieve the desired results.

Radii and Corners

It is very important that uniform wall thickness be maintained at the corners. The internal and external radius need to share the same center point. External radii = internal radii + wall thickness. The minimum radii should not be less than ¼ of the minimum wall thickness. Design for radii to be ½ to ¾ of the nominal wall thickness. When a large amount of stress is going to be present, it is very important to design in larger radius as this will distribute the stress much more evenly.

Wall Thickness

The production of thin wall items such as a clamshell for retail packaging are possible with today’s technology. Products with thick walls are also easily produced. However, parts which require uneven wall thickness present a challenge to the plastic molder manufacturer. Creating a part with a uniform wall thickness and cross section will abridge manufacturing and reduce costs. One issue to be aware of is sinking. Wherever an intersection or “tee” occurs, there will be some degree of sinking. This occurs because thicker walls cool at a slower rate and therefore create this problem.

Ribs

Ribbing should be ½ to two thirds of the nominal wall thickness and less than 3 times the thickness in height.A taper of 1° is usual. Note: as mentioned above, excess thickness can result in shrinkage.An excess in rib height combined with a taper will produce thin areas requiring extra fill time at the mold.

Weld (Part) lines

The location of weld lines needs to be considered by designer before a injection mold is created. Weld lines are formed by the joining of the flow fronts of the plastic during molding. One issue of concern is the that the weld line area is more susceptible to cracks and stress failure.

Bosses

  • Diameter = (Outside Diameter) \ (Inside Diameter) = 2 to 3
  • Thickness = 1/2 to 2/3 nominal wall thickness
  • Gusset Height = 2/3 Height
  • Height = Fastener minimum requirements
  • Taper = 1 deg. all around
  • Diameter Ratio should be minimum ratio of 2., this will reduce risk of failure.

Pressure:

Another factor in the design will be the clamping pressure required to produce the part while the plastic is being injected. Smaller cavities can result in high pressures being required to force the plastic or rubber material to fully fill the mold cavity. This will, in turn, determine the thickness of the mold material, usually steel) as well as the type of machine in which can be used.

Summary:

Many factors must be taken into account when designing a mold for the creation of plastic injection molded parts. Factors such as draft angles, wall thickness, ribbing (not the kidding kind), bosses and weld lines and clamping pressure all come into play when designing a mold that will be used in a plastic injection mold machine. Each facet is important in and of itself, but as a whole, each one affects the others. Therefore the design of a mold for plastic molding can be quite involved. When done correctly, the result will be a mold which will yield thousands, hundreds of thousands, or even millions of parts over it’s lifetime.

No matter you are looking for million of shots of plastic molds or a few hunderd of shots of mold, https://www.plasticmold.net/ will support you plastic injection molded parts with one stop service.

Custom Molding Jobs

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Custom Injection Molding Jobs

In the industry of injection molding, things work on a very specific scale. The molds must be right, the specifications must be right. That is true for the molds that are already designed. When a company wants and needs brand new design molds the process must be handled very delicately.

When an plastic molding company gets contracted by a new company to design and fill molds. The company needing the molds must be very accurate and very specific when it comes down to doing a custom job. One slight imperfection and the whole project could be worthless. Time is money and that is not something that either can afford to be wasted.

The injection molding process is a specific one, there are certain stages and certain things that have to be done and if your design has a flaw in it then there are going to be set backs. When a mold comes out after it hardens, it looks great a little rough around the edges, but it looks what it is supposed to.

Molding produces great products and there is a science to the skill in making the molds and producing the injection molds. If you are a company who is looking for a custom design, make sure the specs and designs are not flawed and you will get an unbelievable product.

Injection Molding Materials

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Injection Molding Materials

Plastics are used as molted liquid to form the main ingredient in injection molding; the plastics that are used are polymerization, which basically means molecules that have had a chemical reaction and the properties change as a result. Plastics were first on the rise after World War I including new types of plastics called PVC and PS.

PS or polystyrene is a brittle but tough type of cheap plastic that is used to make airplane and car model kits and other little toys like that. They are used in plastic molding because the plastic can break down easily.

PVC has a great and respected reputation as a strong and sturdy plastic; you can do many things with it because of the strength of the material. PVC is used on fencing, pipes and pipe covering. PVC is molded and used in injection molding because when it solidifies it becomes a durable solid materials.

One of the best materials used in molding is nylon. Nylon is also called polyamide. This is the strongest and most flexible material you will ever find. Dupont began manufacturing nylon based products in 1939 and have a great and powerful fiber ever since. Injection molding is only as good as it’s materials.

So these are the materials used in injection molding. want to know more information about injection molding process? Go to https://www.hao-mold.com/

Injection Molding Machines

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Injection Molding Machines

One type of injection molding machine is the Milacron LIM, Liquid Injection Molding; there are many benefits in having this machine over the traditional LIM. This machine has its own controls and especially made soft ware for this product only. It has a low pressure set up for injection setup and it has a closed loop control.

Unlike the traditional LIM this machine has an increased power ejector force, so it can inject the mold quicker. It has a standard injection screw, a cooling plate on both sides, eight new pneumatic valves, and two heat zones on each paten, a 3-stage air ejector. The improvements from the standard LIM also include a revised rear seal on the injector screw and also a revised seal that is on the nozzle.

These machines have a thermo set process that uses a silicone rubber material that is used to be injected into the heat plastic molds. The best part about these Milacron machines is that no other machine can use their software is designed just for their machines and no one else’s. The Milacron also has a complete design line of Fluid Auto meter mixers.

Milacron is one of the best in the business of injection molding and if your company needs to replace a machine, consider this one, it is one of the best.

Injection Molding Companies

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Injection Molding Companies

These are some of the top companies in the United States in the injection molding field. If you are looking for a great company with great reputations, check out these companies.

MOCAP, Inc, located in St. Louis, MO. They are a full service company; they are a manufacturer of standard and custom injection molding designs. They use all grades of plastic and they do a lot of volume and can handle as little or as much volume as needed.

Precision Tool & Die located in Derry, New Hampshire. They are an all purpose company, they provide custom manufacturing, service and a general manufacturer. They provide on site molding with perfect injection molds, they also do insert molds, transfer molds and they also do complete designs.

World Class Plastics located in Russell Point, Ohio, this company is also a custom manufacturer, a service and a manufacture company. Their company profile says they are QS9000 registered, they do custom thermoplastic injections, and they fabricate molds and tool design.

The G&F Industries located in Sturbridge, MA, they are a service and manufacture company. They are listed as an ISO 9000 certified company; they have a great reputation in the fabrication of injection Plastic Molding and plastic fabrications that use the injection molding process. They also use a robotic system and a real time production team.

Do you know any other injection molding companies that deserve to be mentioned here?

Injection Molding Glossary

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Injection Molding Glossary

Injection Molding: this is a technique used to fabricate parts made from thermoplastic materials.

Thermoplastic materials: are materials made out of plastic that are able to melt into a liquid when heated at a high enough heat and when it freezes it will be in a glassy state when it is cooled.

Polystyrene is a polymer that is a liquid hydrocarbon that is commercially made from petroleum.

Polypropylene is a very hard plastic that is used for many different uses such as food packaging, reusable containers and textiles. It is a very durable and rugged unusually.

Resin is comes from many plants especially from the Coniferous tree that is used for its chemicals. You can use resin for adhesives and incense and some perfumes.

Solidify is to become hard or firm.

Pellet is a small compressed piece of material or a substance.

Nylon is a chemically resistant, it is also heat resistant, but it is tough and very flexible.

Injection Molding Questions and Answers

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Here are some frequently asked questions when there are problems in the process of injection molding, here some of the most popular ones and their solutions.

What happens when the molds are brittle and delaminate? The cause may be an improper injection screw. The screw that is used for molding at a low-pressure ratio fro the amount of resin being used; causes the plastic’s molecules to form incorrectly. Basically, a weak molecular structure can cause brittle parts. When this happens de lamination can occur as well. The result will be a to take a pressure reading and record the ratio. This should be performed once every six months.

Another problem may be discoloration; the possible cause for this may be excessive dwell time or what they call residence time. When a part has been discolored or changed the problem is usually found in the residence time. The material stays in the barrel too long, the base will become discolored. What can be done is the heat sensitive materials have to be set at a certain ration. After every injection shot clean out the barrel.

Discoloration may also be caused by an improper plastic mold temp. The hotter the mold is it will keep the material melted for a longer period of time. The temp of the mold should be adjusted to the supplier’s specs on material and cycle times.