Molds For Plastic
Manufacturers use a variety of molding techniques to produce plastic parts. Some are more efficient and cost-effective than others.
Family molds allow manufacturers to produce a series of identical pieces in one run. This reduces the need for multiple cycles and helps improve production rates. It’s also ideal for projects that require high-volume orders with varying part size, volume, and material.
High-Temperature Molding
Injection molding is a versatile and efficient method for producing plastic parts, including those that must withstand high heat. Typical thermoplastics such as polyethylene (PE), polypropylene (PP) and polyethylene terephthalate (PET) are suitable for low-stress applications, but for high-performance parts that must withstand heavy strain and intense temperatures, experts in plastic injection molding can use resins made from specialty materials that resist high temperature like Polyether Ether Ketone (PEEK), Polyetherimide (PEI) and Polyphthalamide (PPA).
These types of resins typically require higher mold temperature to ensure that the melted plastic conforms to the shape of the cavity, filling all of the details and features. Additionally, the mold must be cooled to allow the molded part to solidify. Injection molds with high-heat resistant resins should feature equidistant cooling channels to allow each cavity to be exposed to the same amount of heat transfer fluid.
Additionally, the injected plastic must be cooled quickly so that it does not melt back into the forming material and lose its strength and resilience. For this reason, high-heat plastics are usually injected under moderate pressure to prevent the formation of sinks or voids in the molded part. Additionally, the injected plastic must be characterized by examining its molecular weight distribution and rheological behavior to establish the ideal injection parameters for its intended application. This characterization allows engineers to design precise injection profiles for consistent product quality and reduced processing costs.
Injection Molding
Injection molding is a fast and economical method for manufacturing parts in large quantities. It also allows a wide range of plastics to be used, and the ability to combine different materials in one product. The process involves placing granules of the thermoplastic in a barrel and heating them up with a variable molds for plastic pitch screw. The melted plastic is then injected into a mold, where it resolidifies and takes on the shape of the cavity. Ejector pins are then used to push the finished part out of the mould.
In injection molding, there are many things to consider, including the type of plastic and its properties. The right plastic for a particular application can be essential for long-term quality, cost reduction and aesthetics. A good plastics supplier will help guide clients through the many options available, as well as offering their own expert knowledge.
Polypropylene (PP) is a durable plastic that resists both chemical exposure and high temperatures. It is also very affordable, making it a popular choice for commercial food applications, toys and tools. Polyethylene (HDPE) is another durable, chemical-resistant plastic. It can be molded with excellent fidelity and is easy to clean and sanitize. It is also very cheap and recyclable, which makes it a great choice for medical devices and other high-volume items. Nylon is another versatile, high-performance plastic that can be combined with a wide variety of other materials.
Blow Molding
Blow molding is one of the most popular plastic production methods for creating hollow items like bottles and containers. It involves inflating a molten tube of plastic called a parison against the cooled surface of a mold to create a shaped product.
The resulting products are often very complex, with a range of finishes and wall thicknesses available to suit the needs of any application. The process is also a frontrunner when volume and speed are key, as it can transform raw plastic pellets into finished items rapidly and seamlessly.
As a result, tooling costs are usually lower than for injection- or extrusion-based methods, and the process is ideal for high-volume manufacturing. In fact, a number of large corporations have chosen to adopt blow molding for its efficiency and cost-effectiveness.
The primary benefit of this method is that the outer shape of a molded product is defined by the mold, while the inner form is determined by fluid pressure (typically compressed air). This allows large and diverse product shapes to be created quickly. Moreover, it is possible to use low-cost plastics that would be impossible or at least very difficult to manufacture using other techniques. Examples of these include polyethylene and polypropylene. This allows companies to keep their products at competitive prices, without compromising quality.
Rotational Molding
In rotational molding, plastic resin is heated in an oven as it’s rotated. The rotational mold is then cooled, allowing the resin to adhere to the walls of the mold and take on its desired shape. The mold is then removed from the cooling chamber and opened to remove the finished product. This process is ideal for products that require aligned wall thickness, high stability or prestigious furnishes.
This type of molding allows for a variety of materials and shapes to be molded. However, there are a few things to consider when choosing a rotomolded supplier for your project:
Ensure that the supplier offers a range of colors and has experience with your chosen plastic material. Also look for transparency on quotes, including upfront costs like mold design and production run fees to avoid hidden charges.
When choosing a rotomolded supplier, be sure to ask about their quality control and certifications to be sure they are operating at a level that meets or exceeds your expectations molds for plastic custom for dimensional accuracy, surface finish and overall part consistency.
In addition to being a versatile choice, the benefits of using rotationally molded products include reduced environmental impact, recyclability and use of lighter materials. For example, a hopper bin made from a rotomolded polyethylene can offer many benefits over a traditional metal product.