Automotive Injection Molding refers to the use of the injection molding process in the automotive industry. Many intricate parts of automobiles such as dashboards, intake manifolds, bumpers, headlamps, door handles, and multiple under-the-hood components are produced using automotive plastic injection molding.
In this article, we will take a closer look at how plastic injection molding is used in the automotive parts production industry, and what types of materials and injection molding processes are being used in the auto industry.
First, let’s start with the history; and see how injection molded parts became a part of the automotive industry.
In the early days of the automotive industry, plastic injection molding was not widely used. Automotive manufacturers primarily relied on metal stamping to produce parts. These metal components were heavy and expensive. However, as the automotive industry began to grow, so did the demand for more efficient and cost-effective manufacturing methods.
Initially, in the 1950s, injection molding began to be used for manufacturing decorative elements. Then, in the late 70s and 80s, plastic injection molding quickly became the preferred manufacturing method for producing a variety of auto parts molds, including dashboards, headlights door panels, and instrument clusters.
In the 2000s, plastics became a structural component of the automotive industry. Being lightweight than metal parts, they made cars fuel-efficient and cost-effective.
The advantages of injection molding soon made it the go-to manufacturing method for many other industries as well. Today, a large number of industries use plastic injection molding to produce a wide variety of parts and products.
Injection molding offers many advantages over other manufacturing processes, including its ability to produce parts with complex shapes, tight tolerances, and superior surface finishes.
Additionally, injection molding is a highly versatile process that manufacturers use to produce a wide variety of automotive parts, from engine components to exterior body panels. In addition, it is a scalable process; you can mass-produce thousands of identical products with this method.
Since automotive manufacturers produce a variety of parts from automotive plastic injection molding, not a single material is suitable for each kind of application. Therefore, different plastic polymers are used for auto parts.
Here’s a list of the plastic materials the manufacturers utilize to make car parts.
1. Polypropylene (PP)
Polypropylene, a polymer of propylene, is one of the common materials used in making car parts. Due to its resistance to chemicals, UV, and water, it is widely used in making car’s external components such as bumpers. In addition, it is used for cable insulation.
2. Polyvinyl Chloride (PVC)
PVC makes about 16% of the car’s plastic components. Being flexible and heat resistant, auto parts manufacturers use it to make both hard and soft parts, including interior panels, and dashboard components.
3. Polyurethane (PU)
Products that require a high degree of flexibility, such as foam seats, frequently make use of Polyurethane. Car seats are one example. PU is also used for making seals and gaskets, insulation panels, and suspension bushings in automobiles.
4. Polycarbonate
Polycarbonate is a rigid, hard, and durable material. Due to its resistance to heat and weather conditions, it is an excellent choice for making car bumpers.
5. Polyamide (Nylon)
Polyamide or Nylon being wear-resistant in nature is used to design bushes and bearings.
6. Acrylonitrile butadiene styrene (ABS)
ABS, as its names suggest, it’s a polymer of acrylonitrile and styrene. It is hard and shiny, which is why its normal applications include dashboards and wheel covers.
7. Polymethyl methacrylate (PMMA) / Acrylic)
Acrylic is transparent plastic with high strength, optical clarity, and stiffness. It is used as a substitute for glass and in making headlight covers and screens.
8. Polyethylene
Polyethylene is strong, lightweight, and resistant to impact. It’s extremely helpful in case moisture resistance and low cost are the main priorities.
In the automotive industry, we will normally find three main types of injection molding techniques, namely thermoplastic injection molding, elastomeric injection molding, and thermosetting injection molding.
Thermoplastic injection molding is the most common type of injection molding in the automotive industry. It is used to produce parts made from thermoplastic materials, such as polypropylene, nylon, and ABS.
This auto molding technique offers many advantages over other types of injection molding, including its low cost, high production speed, and versatility.
Elastomeric injection molding is used to produce parts made from elastomeric materials, such as rubber and silicone. It offers many of the same advantages as thermoplastic injection molding, including its low cost, high production speed, and versatility. Additionally, it provides superior shock absorption and vibration dampening.
Thermosetting injection molding is used to produce parts made from thermosetting materials, such as epoxy and polyester. This car molding technique offers many of the same advantages as thermoplastic molding, including its accurate dimensional tolerances and repeatability. However, it has a few advantages over thermoplastic molding, as well.
Additionally, it is not susceptible to melting or deforming at high temperatures; the main reason why automotive manufacturers choose thermosetting injection molding.
The list of injection molded products in the auto industry is so long that we cannot name all of the parts. Therefore, we have divided the auto components into three categories: exterior, interior, and components under the hood.
Let’s see which of these parts are a product of plastic injection molding.
Multiple aesthetic exterior components of the car, such as front grilles, bumpers, step bumpers, headlights, fenders, and even side mirrors are made using plastic automotive molding. Furthermore, the splash guards, which prevent dirt and mud from flashing onto the cars, are also auto-molded products.
All of the car’s interior including roof lining, dashboard, door handles, center consoles, and dashboard compartments are a fine example of injection molded products. Furthermore, all decorative automotive moldings in luxury cars are also made using the same manufacturing technique.
In the past, all the engine accessories under the hood were made out of metal. But nowadays, with the widespread use of injection molding, the manufacturers have shifted to plastic. Sensors, cylinder head covers, oil pans, and electrical kits, all can make out of plastics.
The widespread use of the injection molding process in the car industry is due to tons of advantages over conventional manufacturing techniques.
One of the main reasons why automotive manufacturers choose injection molding is its high degree of accuracy and repeatability. Car molding machines can produce parts that meet extremely tight dimensional tolerances.
In the auto industry, it’s important to be able to make identical parts over and over again. Since plastic injection molding usually uses strong metal molds, the final product that comes out of the mold is almost always the same.
Another advantage of injection molding is its ability to produce parts with complex shapes. Injection molding machines use a process known as “screw precession” to inject molten plastic into a mold cavity. This process allows for the creation of highly detailed and intricate parts. Additionally, injection molding can be used to create parts with internal cavities, such as engine intake manifolds.
Injection molding is also a very fast manufacturing process. In most cases, injection molded parts can be produced in a matter of minutes. This high production speed allows automotive manufacturers to quickly and efficiently produce the parts they need.
Injection molding produces parts with superior surface finishes. Injection-molded parts are typically smooth and free of defects. When creating components with plastic injection molding, manufacturers have a wide variety of finish options, (such as rough, glossy, or matte), which they directly apply to the auto parts mold than to the part itself.
However, the final surface texture varies based on the plastic material used.
Injection molding can be used to produce parts with a variety of textures and colors. In contrast to other procedures, injection molding lets you mix colors with raw material prior to manufacturing. This eliminates the need for further tinting when the molding process is complete.
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We also use a wide range of metal and plastic materials to produce high-quality, lightweight automotive parts. Our team of experts is experienced in mold making, ensuring that your final product is of the best quality. Simply upload your design files and get a rapid quote.
When it comes to mass production, injection molding has a wide variety of uses in industry. Once you make up the initial investment in molds and tools, the overall production cost is rather modest. To meet the growing demand for automobiles and for designing automobile complex parts, injection molding seems to be a great solution for auto manufacturers.
What is the difference between Automotive die casting & Automotive injection molding?
In Automotive Injection Molding, a plastic polymer is first heated until it reaches a highly plastic condition. Then, the polymer is pushed to flow under high pressure into the cavity of a mold, where it hardens. While in Automotive die casting, metal is heated until it melts, and then the forces inside a mold where it solidifies.
Can metal materials be used to make injection molding automotive parts?
No, the injection molding technique is not compatible with the use of metals. You can only inject polymers, like PU, PA, and ABS, into the mold. For metals, die-casting closely resembles the injection molding technique.
The Compression Molding Process involves forming parts by placing material into a heated metal mold and applying pressure. The amount of material, heat, and force used during the process must be carefully developed and closely monitored to make certain the product attains the desired geometry and shape.
Though compression molding has several advantages over other molding processes, there are still restrictions and several different ways the compression molding process can be accomplished.
For more information on choosing the ideal process for your parts, download a free copy of Avoiding the Undisclosed Pitfalls of Plastic Process & Material Selection. Or you can contact us directly at 248-435-7271 or plasticsales@geminigroup.net.