Many industries look for the most cost-effective production methods, along with durability and reliability. A critical role in making this possible is injection molding, which offers multiple applications and an affordable way to create a consumer product. Here are some of the most common industrial applications that take advantage of this process.
The automotive industry is one of the most extensive applications for injection molding. Because automakers can design and manufacture large or small parts in mass quantities, they turn to injection molding to make this process more cost-effective.
A significant consideration for injection molding is the sum of all the parts in demand. Things like bumpers, cupholders, dashboards, and mirror casings are all injection molded with their respective materials. And in the auto industry, these parts are necessary for extreme quantities.
Food and Beverage Packaging
Many people don’t realize the amount of processing required to get food and beverage consumer-ready. The trays of frozen meals to the bottle caps on your favorite soda rely on injection molding. This food and beverage preparation method also enable a range of materials to be used so manufacturing can specify if they need BPA-free, GMA-safe, or non-toxic chemicals.
Medical suppliers also play a significant role in industrial injection molding. These devices and supplies must adhere to a series of requirements from sanitization, increased demands, and high-quality materials.
Given the nature of these objects, they are held to a higher standard than most other products. The injection molding process enables manufacturers and suppliers to withhold an ethical production method.
Many of us use injection-molded pieces in our homes daily and don’t even realize it. The kitchen is a hot spot for these items, from storage containers to screw tops and spray bottles. With the high demand for most of these kitchen items, using the injection molding process for these industrial applications allows manufacturers to keep up and reduce their overhead.
Many electronic components require a corrosion-resistant property to ensure the lifespan of a product and its overall safety. The housing for electrical components relies on the manufacturer’s ability to use durable, multi-matter plastics that provide consumers with safety and withstand the test of time and elemental factors.
An example of this would be your home’s television. The framing or the back panel contains intricate and deliberate shapes and placements; most of the time, these pieces are a product of injection molding.
The early agricultural days included many metal components because it was a durable material. But nowadays, using plastics is a more cost-effective way to make something, and they can alter the compounds of the material to create increased durability.
These reinforced components include properties like never before, such as impact protection and resistance, UV-resistance, and sometimes humidity resistance. Designing and creating equipment that can withstand the test of the elements is critical to the industry’s success.
To ensure the viability of this process for each industry, manufacturers must complete thorough and proper diagnostic measures. With many of these products reaching the consumer market, the injection molding process must be accurate and ethical per the industrial application.