- Injection Moulding
- Injection blow Moulding
- Injection Stretch blow Moulding
- Extrusion blow Moulding
Injection Molding Overview
The method is suitable for the mass production of products with complicated shapes, and takes a large part in the area of plastic processing.
Injection blow Molding
Injection blow Molding Overview
Within the injection blow molding process, the material is injection molded. The hot material, still on the core pin, is then indexed to the blow molding station where it is blown into a bottle and allowed to cool. The bottle is then indexed to the next station and ejected. Injection blow molding allows more precise detail in the neck and finish (threaded) area than extrusion blow molding. Little improvement in physical properties is realized in the injection blow molding process since very little orientation occurs.
Advantages Of Injection Blow Molding
- high dimensional accuracy
- Cost efficient
- Mass scale production
- Injection moulded neck
- Saves resources
- No scrap
- low weight fluctuation
- Good material distribution consistency
- High cavitation capability with smaller bottle sizes
Injection Blow Molding Applications
Blow molding can be used to create numerous types of parts. Parts produced from the blow molding process are generally plastic, hollow, and thin-walled. These types of products are regularly used and are available in a bevy of shapes and sizes. Some of these types of blow molded parts, include:
- Water & soda bottles
- Shampoo bottles
- Oil jugs
- Milk containers
- Storage tanks
- Plastic drums
- And more
Common Products For Injection Blow Molding
- Ovals, Cylinders & Boston Rounds
- Pill Bottles
- Roll-on Deodorants
- eye droppers
Blow Molding Materials
The thermoplastic raw materials that are utilized within the blow molding process come in the form of small pellets or granules, which are first melted and formed into a hollow tube, called the parison. Blow molded parts can be formed from a wide range of thermoplastic materials, including:
- Low Density Polyethylene (LDPE)
- High Density Polyethylene (HDPE)
- Polyethylene Terephtalate (PET)
- Polypropylene (PP)
- Polyvinyl Chloride (PVC)
Stretch Blow Molding
There are two distinct stretch blow molding techniques. In the one-stage process, preforms are injection molded, conditioned to the proper temperature, and blown into containers—all in one continuous process. This technique is most effective in specialty applications, such as wide-mouthed jars, where very high production rates are not a requirement.
In the two-stage process, preforms are injection molded, stored for a short period of time (typically 1 to 4 days), and blown into containers using a reheat-blow (RHB) machine. Because of the relatively high cost of molding and RHB equipment, this is the best technique for producing high volume items such as carbonated beverage bottles.
Extrusion Blow Molding
The extrusion blow molding process begins with the conservative extrusion of a parison or tube, using a die like those used for making plastic pipe. The parison is then extruded downward between the two halves of an open blow mold. When the parison reaches the proper length, the mold closes, catching and holding the neck end open and pinching the bottom end closed. A rod-like blow pin is inserted into the neck end of the hot parison to simultaneously form the threaded opening and to inflate the parison inside the mold cavity. After the bottle cools, the mold opens to eject the bottle. The excess plastic is trimmed from the neck and bottom pinch-off areas.
Blow Molding vs Injection Molding
Injection molding and blow molding are the two most popular ways to produce high quality, cost-effective plastic parts and products, however they have differences. The most noticeable difference between parts made by injection molding and parts made by blow molding is that injection molding creates solid parts, while blow molding creates hollow parts.
If you’re producing something that needs one rigid wall, injection molding may be what you’re looking for. Some common examples of parts created with injection molding are bottle caps, hair combs, and housings for computers and televisions. Conversely, if you are looking for a product that is flexible, operational, and can hold a fluid, like a bottle or a cooler then blow molding is what you need.