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Optimum Drying, Conveying & Blending Solutions for Houseware Plastics OEMs

Houseware Plastics

Houseware Plastics

Houseware as a Product Class

Houseware is a broad product category and contains endless list of daily use household items. The main sub-categories of this product class include Tableware, Kitchenware, Outdoor Furniture, Bathroom Accessories and Home Furnishing Accessories.

Use of Plastic in Making Housewares

Housewares share some common characteristics like high mobility and light weight. Housewares are prone to frequent impacts and thus need to have high impact resistance and tensile strength. Housewares are expected to be colorful, have wide range of shape and size options, along with glossy finish. Due to above mentioned criteria, plastics become ideal material for making Housewares. Commonly used plastics for making housewares are: Polyethylene Terephthalate (PET), Polyethylene (PE, HDPE, LDPE), Polystyrene (PS, HIPS), Nylon (PA) and Polypropylene (PP).

Manufacturing Processes for Making Housewares

Extrusion Blow Moulding, Injection Moulding, Injection Blow Moulding and Injection Stretch Blow Moulding are the processes used for manufacturing Housewares. Injection Moulding is a fast process used to produce large number of identical items. Extrusion on the other hand is a continuous process, enabling production of long length of a product. However, continuous extrusions are often cut in application lengths.

Manufacturing Challenges for Producing Housewares

Moisture Problems

Nylon, Polycarbonate, ABS and Polypropylene are hygroscopic in nature and absorb moisture from their surroundings. Polyethylene and Polystyrene do not normally absorb much moisture but are able to carry significant moisture on their surface if not stored in dry environment during the transit to manufacturing facility. Improper drying of resins can cause defects in the product, like low tensile strength and impact resistance, surface cracking, internal cracking, surface lines, bubbles, silver streaking, etc. leading to rejection.

Mould Sweating

The Injection Moulding process involves injection of plastic melt into the mould and cooling the melt in the mould to take the desired shape. Water Chillers are used for quick cooling of plastic melts and to reduce the cooling time in a particular cycle. However, when chilled water is used for cooling the plastic melts, the moisture present in air in the vicinity of chilled mould surface condenses, leading to formation of water droplets on the mould surface (Mould Sweating).

Mould Sweating is undesirable, as the condensed water droplets tend to drip on the machine bed and seep into the mould, which causes rusting and severely affects the life of expensive mould and machine bed. Further, condensation in the core and cavity of the mould will lead to defects in the moulded component.

 

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Conveying Problems

Injection Moulding being a fast process and Extrusion being a continuous process, require continuous feed of blended resins into the processing machines. Handling of resins in the shop floor is a complex job, especially since the production area where extrusion machines are placed are lengthy and large. Employing labour to handle resins manually is open to human errors like spillage of resins and delay in changeover of material. Feeding material continuously requires constant monitoring which becomes a tedious task manually, over longer period of time.

The Bry-Air Solution for Manufacturing Housewares

Drying Parameters : Drying Time • Air Flow • Temperature • Dew Point

While temperature, drying time and air flow are dependent on the type of resin, there is a huge difference in quality of molded components if the dew point can be maintained at minimum –40ºC. Dew point plays a very critical role in creating a lower vapour pressure around the surface of the resin. This lower vapour pressure forces the moisture in the molecular chain to dissipate out to its surface.

Bry-Air Honeycomb Resin Dryers With BryWheel

Bry-Air Resin Dryer with BryWheel ensures that you have better control over dew point and temperature. The generation next BryWheel Rotor works on Honeycomb Technology, ensuring 25% more energy savings as compared to other technologies available in the market. BryWheel Rotor is specially crafted for a very low dew point (upto – 65°C).

Bry-Air offers options for stand alone, single station as well as multistation centralized installations for your resin drying needs.

Bry-Air Mould Dehumidification System

Bry-Air EcoDry Moulding Dehumidification System is designed exclusively to prevent mould sweating.

A chilled water pre-cooling coil combined with latest in desiccant technology ensures super dry air, preventing mould condensation.

Bry-Air Conveying Systems

Bry-Air Conveying System not only ensures continuous feed of material into machines but also right material for the right machine and at the right time. It further facilitates quick change over of material, making it a one stop shop for all your material conveying needs for shop floor. Bry-Air Auto Loaders automate the transfer of plastic pallets from shipping containers and storage bins to the processing machines.

Bry-Air Conveying System helps you work towards zero spillage, zero material wastage and zero accidents.

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