Plastic Injection Molding Manufacturer

April 20, 2010

Medical Plastic Injection Moulding – Procedure and Products

Filed under: Plastic Injection Molding — Tags: , , , , — Rolf @ 3:10 am

In 1868, John Wesley Hyatt developed the first plastic injection mold, and the plastic injection moulding process. He used the plunger method to successfully inject hot, liquid celluloid, often called the first thermoplastic, into a split-die mold. This process was little changed until James Hendry built the first screw plastic injection mold in 1946. Today, nearly all industrial and medical plastic injection moulding processes use the screw method.

Plastic moulding is a very methodological and technical process. Thus it needs experts in this type of manufacturing business for it to meet the safety terms and to be competitive in the market. A very scientific and systematic mechanical study is first made before going into this endeavor. Here I have discussed some known plastic injection moulding process that can help you to understand the various ways it is done for industry specific plastic products.

1. Injection Moulding.

Examples of applications: Medical plastic laryngeal mask components, laboratory products, extraction systems, toys, aircraft undercarriage components, kitchen utensils, bottle caps, and cell phone stands.

In Injection Moulding, melted plastic is forced into a mold cavity. Once cooled, the mold can be removed. This plastic injection moulding process is commonly used in mass-production or prototyping of a product. Typically this process is used to produce plastic mouldings where the relatively high tooling cost can be justified by low unit costs and tolerances which cannot be achieved by other moulding processes.

2. Blow Moulding.

Examples of applications: Automotive, Toys, Recreational, tubes and containers, Medical, Housework Appliances

The process is divided into three steps: injection, blowing and ejection. Blow moulding is like plastic injection moulding except that hot liquid plastic pours out of a barrel vertically in a molten tube. The mold closes on it and forces it outward to conform to the inside shape of the mold. When it is cooled, the hollow part is formed. Equipments needed in setting-up a blow moulding business are relatively higher than injection moulding.

3. Compression Moulding.

Examples of applications:  Automotive exterior panels especially for commercial vehicles, Radio & appliance knobs, ash trays & electrical parts.

In this type of plastic moulding, a slug of hard plastic is pressed between two heated mold halves. Compression moulding usually uses vertical presses instead of the horizontal presses used for injection and blow moulding. The parts formed are then air-cooled. Prices of equipments used for compression moulding are moderate.

4. Film Insert Moulding.

Examples of applications: FIM can be used to apply clear scratch-resistant hard coats, logos, text and graphics in any color or combination of colors to plastic parts prior to injection molding.

This plastic moulding technique imbeds an image beneath the surface of a molded part. A material like film or fabric is inserted into a mold. Plastic is then injected.

5. Gas Assist Moulding

Examples of applications:  Flat panels for office equipment, Computer enclosures, Furniture, i.e. tabletops, Automotive panels, Domestic appliances – e.g. fridges.

Also called gas injection moulding is used to create plastic parts with hollow interiors. Partial shot of plastic is then followed by high-pressure gas to fill the mold cavity with plastic.

6. Rotational Moulding.

Examples of applications:  All kinds of plastics mostly hollow Plastic Parts.

Hollow molds packed with powdered plastic are secured to pipe-like spokes that extend from a central hub. The molds rotate on separate axes at once. The hub swings the whole mold to a closed furnace room causing the powder to melt and stick to the insides of the tools. As the molds turn slowly, the tools move into a cooling room. Here, sprayed water causes the plastic to harden into a hollow part. In this type of plastic moulding, tooling costs are low and piece prices are high. Cycle time takes about 40-45 minutes.

7. Structural Foam Moulding.

Examples of applications: Typical products are large trash containers, freeway sand safety containers and in-ground housing for water systems.

Structural foam moulding is a process of plastic injection moulding usually used for parts that require thicker walls than standard injection moulding. Inserting a small amount of nitrogen or chemical blow agent into the plastic material makes the walls thicker. Foaming happens as the melted plastic material enters the mold cavity. A thin plastic skin forms and solidifies in the mold wall. This type of plastic moulding can be used with any thermoplastic that can be injection molded.

8. Thermoforming.

Examples of applications: Clamshells, Trays, Blisters, Displays, Guards, Covers, Totes, Shields, medical plastics

In this plastic moulding process, sheets of pre-extruded rigid plastics are horizontally heated and sucked down into hollow one-piece tools. When the hot plastic solidifies, its shape conforms to that of the mold. Tooling costs are usually low and piece prices vary on the machinery.

Goodbrand Plastics provides Plastic Injection moulding services to diverse sectors with specialisation in Medical plastic injection moulding from our site in Sandbach, Cheshire, northwest England.

April 19, 2010

Rotational Molding – Seamless Manufacturing Method For Millions of Products

Filed under: plastics manufacturing — Tags: , , , , , , — Rolf @ 6:34 am

There are so many common products we take for granted in everyday life. While it’s true that many urban kids don’t know that milk comes from cows or what a real wheat field looks like, the same is true for manufactured products that are mainstream to life in America.

How about the garbage bin outside your home, the bright orange road cones used for road safety, bicycle helmets and giant tanks used for water storage? Chances are these disparate products were made using a popular manufacturing method called Rotational Molding. What they have in common is a hard, continuous outer shell and a hollow space inside.

The Process

Rotational molding was an innovation of the 1940s, but wasn’t widely used until the development of better technology that made the process faster. In addition, new polymer and plastic products entered the marketplace and were well suited for rotational molds. This method of molding plastics has several advantages over some other techniques which result in higher prices for products and a less environmentally friendly process.

The first step in producing a lightweight and affordable polyethylene (plastic) product is to create a mold. This is usually done using a computer software program capable of creating three dimensional images. The mold is most often made of aluminum because the lightweight material is easier to handle than some other metals although it may be a bit more costly. Machinists get to work tooling the mold from the design. Once the mold is done, the rest of the process is in the hands of the plastics manufacturer where the rotational molding is done.

Here’s where some imagination is required. Picture the ride at the State Fair where a person is strapped into a kind of gyroscope that turns them up, down, sideways and around. That’s what will happen to the mold. But first, the manufacturer measures polymer resin, a granular powder, and pours it into the mold. The mold is fitted into place in an oven that’s heated to an appropriate temperature. Inside the oven, the mold makes its axial turns, spreading the grains of polymer evenly over the inner surface of the mold.

As the aluminum quickly heats up, the resin melts and continues to coat the inside of the mold. The time the mold spends spinning and heating is critical to the quality of the product. In the past it was up to the rotational mold experts to judge when a mold was ready to remove from the oven and cool. Today, sensitive instruments gauge the air temperature in the mold, improving quality control.

Fans are often used to help the mold cool. Unlike some other mold methods – such as injection molds – the cooling of the aluminum causes the mold to shrink slightly away from the interior of the mold. This allows easy removal of the largest products, such as water tanks. The product is then carefully inspected by the rotational manufacturer and, if it meets all specifications, is shipped to the customer.

Molding Benefits

For many products, rotational molding makes a big difference in the price of a product and in its durability. The manufacturing process does not require lots of interlocking and moving parts. Therefore, maintenance is minimal as is replacement of parts. In addition, there’s little waste of material, a factor that makes the process more environmentally sound.

Durability of products is also very important to manufacturers, particularly those marketing items that will serve customers over extended periods of time. For example, a water tank produced with the rotational molding process will provide much longer service than a comparable steel tank. Rotational molds can be made to any specification or shape, and can be manufactured in less time than steel. They are also very lightweight, cost less to transport and are not as challenging or awkward to install onsite. Of course, a big advantage to molded tanks is that, unlike steel, they will never rust.

Next time you see a one-piece, hollow product made of polymer plastic (maybe a kayak or the face of a doll) astound your friends with the fact that you know just how it was done – with the rotational molding process.

Visit us for additional information on rotational molding and rotomolding equipment.

April 16, 2010

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Filed under: Plastic Injection Molding — Tags: , , , , — Rolf @ 5:52 am

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If you’re new to weight training, below is a brief summary of the basic principles.

When you have digested this primer you may wish to follow up with these additional articles, which should ensure you have a solid knowledge foundation.

* Ten basic exercises. and how to perform them.

* Where to Train — Home or Gym. Advantages and disadvantages of two options.

* Begin That First Weights Session. Tips on getting ready for weight training.

* Best Weight Training Guide. A guide for anyone interested in the more technical principles of weight training.

The basics of weight training are relatively simple but you can progress all the way to the complex Olympic lifts, the clean and jerk and the snatch, if that’s your inclination. There’s no need to get too fussy about which particular exercise version you do when starting out, as long as you protect yourself from injury with correct technique. Like starting any new exercise program, go easy at the beginning, build complexity later. As one well-known lifter was heard to say: “Get on with it: lift the darn weights!”

What is Weight Training?

Weight training is organized exercise in which muscles of the body are made to contract in response to external weights, body exercise or resistance, or other devices in order to stimulate growth and strength. Weight training is also called ‘resistance training’ and ‘strength training’.

What are the Benefits of Weight Training?

Weight or resistance training or strength training has important benefits beyond building big muscles, which is often the focus of much media attention. Weight training can:

* Tone and shape the body for weight loss, personal appearance or bodybuilding competition.

* Improve sporting performance by increasing bulk, strength, power and endurance in sports such as football, baseball, hockey, cycling and most individual and team sports.

* Prepare you for competition weight lifting in Olympic lifting and Powerlifting sports.

* Prevent lifestyle diseases such as diabetes, osteoporosis and obesity.

* Build strength and improve balance and functionality, especially as we age.

* Assist in recovery from, or management of, chronic illnesses or conditions such as heart disease, stroke, hip replacement and arthritis.

* Assist in physical therapy during recovery from accident and hospitalization.

* Prepare soldiers for service and combat readiness or for any other activity requiring strength and power.

Where Should I Do My Weight Training?

You can train at a gymnasium, health club or fitness center or at home. Some workplaces install workout gyms and many holiday resorts also have at least basic equipment. Some people prefer to train at home with their own weights and equipment. You will find advantages and disadvantages to each approach.

Still others like open air activity and take portable equipment such as resistance bands and tubes to parks and fields.

What Equipment Do I Need To Start Weight Training?

At the very least you need a solid pair of shoes with a non-slip sole, a water bottle, a towel and appropriate clothing. For a home workout, starting equipment could include an adjustable weights bench for doing various exercises; dumbbells — perhaps even only two or three different weights; an adjustable step for aerobic stepping; an exercise or yoga mat for floor exercises, and a fitness ball, which is an inflatable ball on which a variety of body exercises can be performed.

Using your own body to contract muscles is a substantial part of weight training. A pushup is a good example of using the body’s own weight to train arm and chest muscles. Chinups and situps are other examples.

What Equipment is Available at Gyms and Fitness Centers?

Gyms usually have a combination of free weights, machines, chairs, benches, balls and bands. The free weights tend to be used in a room or area separate from the machines and other equipment, but not always. It depends on the club.

Free weights tend to be fairly standard with barbells, du

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April 10, 2010

Would it be smart to buy a plastics molding and manufacturing company?

Filed under: Plastic Injection Molding — Tags: , , , — Rolf @ 3:11 am

There is one for sale on businessesforsale.com in the MANUFACTURING industry. It says it makes relatively good money and I Was thinking how could you possibly not make money since everything is made out of plastic. Any ideas or thoughts on this?

April 1, 2010

Plastic Injection Molding: two distinguished factors of commodity resin and engineer resin?

Filed under: plastics manufacturing — Tags: , , , , — Rolf @ 6:40 pm

What two differences are there between commodity resin and engineer resin all the time?

Tr Cutler Inc. Profiles Role of Placement Firms in Plastics Manufacturing Sector

Filed under: Plastic Injection Molding — Tags: , , , , — Rolf @ 5:40 am

Ranked as the leading manufacturing journalist worldwide and an editor for more than 300 publications, TR Cutler, Inc. President & CEO Thomas R. Cutler, (www.trcutlerinc.com) recently profiled the perception of personnel placement firms in the plastics manufacturing sector in Plastics Business magazine. According to Cutler, “Belonging to industry organizations is not everything when it comes to plastics manufacturing placement firms. However, very few of the organizations proclaiming industry expertise have a thorough understanding of the needs of manufacturers. Belonging to organizations such as NAM (National Association of Manufacturers), American Production and Inventory Control Society (APICS), Association for Manufacturing Excellence (AME), and National Tooling & Machining Association (NTMA) indicate a commitment to understanding and participating in the manufacturing sector.

A comprehensive investigation of more than one hundred personnel placement firms revealed that nearly all claimed to have expertise in the manufacturing sector; ninety-one percent (91 percent) of those surveyed said they were somewhat or very knowledgeable about the needs of manufacturers. Plastics manufacturers’ feedback did not corroborate this self-perception. Of the nearly 200 plastics manufacturers surveyed who have used personnel placement firms in the past year, more than half (52 percent) reported dissatisfaction with personnel placement firms because the temporary or permanent staffing offered was under-qualified, poorly screened, or unable to provide immediate productivity.

TR Cutler, Inc. was founded by Thomas R. Cutler almost a decade ago. Cutler maintains extraordinary relationships with clients, journalists, editors, trendsetters, and key business leaders worldwide and has become a key resource for those writing about the manufacturing sector.

Cutler founded the Manufacturing Media Consortium in the 90′s. This extraordinary group of more than 3000 journalists worldwide is writing about trends, data, case studies, profiles, and features in the manufacturing and industrial sector. Cutler has worked with thousands of media outlets to expand manufacturing media coverage.

Cutler has authored more than 2,000 articles for a wide range of manufacturing periodicals, industrial publications, and business journals including most of the leading monthly trade publications.

Cutler established a Manufacturing Marketing Research division dedicated to measuring the pulse of the manufacturing sector, particularly manufacturing firms which are privately held and rarely accounted for when gauging the industry sentiment.

TR Cutler, Inc.

www.trcutlerinc.com

Thomas Cutler

trcutler@trcutlerinc.com

888-902-0300

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