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Getting the Most from Your Extrusion Tooling

Getting the Most from Your Extrusion Tooling

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By utilizing state-of-the-art production equipment and processes, machining tolerances are held extremely close on today’s  multi-lumen and multi-layer medical tubing. It is important to note that any misalignment of the tools may be exaggerated in  the final product output. Clean parts, especially with sealing and locating surfaces, are key to product performance and  successful end products. These surfaces receive the most care and attention during manufacturing and are the control  surfaces that ensure uniformity throughout the tubing. Remember, precision-machined alignments are affected by even a  speck of dirt measuring only a few thousandths of an inch. A human hair is about 0.003" (0.08 mm), and since there are many such surfaces in a quality tool, cleanliness is critical. Checking of the tools for any deformities is also important. Burrs,  scratches and scrapes are usually a result of careless handling and/or storage of equipment. Double and triple-layer extrusion  heads pose an even greater challenge for mainte n - ance. The number of sealing and centering surfaces multiplies and can  magnify the results of dirty tools. During changeovers, the head may be disassembled in order to change compounds and/or  tips and dies. Foreign matter is usually introduced at this point and residual materials must be thoroughly removed. Physical  tool damage often occurs during this phase, due to mishandling and poor storage techniques. These are highly precise parts,  but can also be heavy and bulky to remove by hand. Use of a dedicated work cart exclusively reserved and equipped for  extruder head maintenance is recommended. This cart along with a supply of spare components and hardware is easily  justified, especially when examining the potential cost savings that result from well-maintained tools. The followingshould be  considered: 1.) Maintain a clean, organized work area with soft and clean renewable work surfaces; 2.) Use a vise with soft  jaws, such as copper; 3.) Use special equipment, such as tip removal tools, etc.; 4.) Standard tools include wrench es, soft- faced hammers, etc.; 5.) Maintain a supply of soft, clean rags; 6.) Use cleaning solutions in spray bottle; 7.) Use spare parts as  suggested by your tooling supplier, properly organized and stored; 8.) Keep handy your equipment’s repair/maintenance  manual; 9.) Have a small surface plate to provide a true flat surface; 10.) Use a set of appropriate gauge and tip pins for initial  tool location adjustment; 11.) Make sure you have all the proper lifting aids available, including overhead hoists, hydraulic lifts,  etc. In most situations, the head and tooling will still be at elevated temperatures, therefore lined gloves are needed when  handling.

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Today, tubing manufacturers compete with companies all over the world. To be a successful and profitable company, quality and efficiency are essential. This is especially true in extrusion, where material costs are usually much higher than labor costs. Like a racing car stuck in the pit, many extruders sit idle because of poor or damaged tooling, plus excess maintenance time.  Overhead costs add up and losing money is the result. Some start up quickly and make scrap, whereas others start up and run  a product oversized to hold minimum tolerance. They waste 10% to 20% of the material, which can run from 50% to 90% of the  product cost. The tooling supplier goes to great lengths so that tips and dies are machined to a determined specification, ensuring perfect concentricity and alignment. The material is then distributed in the proper location as part of the finished  product.


Understanding Maintenance Procedures

Example 1: In this example, with an improperly centered tool, a calculated out-of-tolerance area of 0.059 in2 (38 mm2) was derived. When the two surface areas were compared, the calculated material waste was 11.8% of the finished product. The formula is % wall = min. wall thickness, max. wall thickness X 100. Example 2: Alternatively, if the % wall can be increased from  80 to 95%, a savings of about 12% of total cost can result. Savings will vary depending on the designs, of course. Get help for  heavy parts and awkward situations. Surfaces and edges are hard and therefore somewhat brittle, so dropping a part or  striking parts together can result in damage. Store your tools properly in a dry, clean area – a dedicated spot for each tool is  best. These areas should have soft surfaces and each instrument should be covered after cleaning. Also, tools should be  segregated so that they do not come into contact with each other. And tools and all instruments should be cleaned thoroughly before storage.  For disassembly of tools, it is imperative to use purpose-built tooling to facilitate disassembly. These should be  available from your supplier. If they are not, consult with a reputable tooling house for replacements. The cost of these tools  is easily offset by potential damages, frequently caused by improper equipment such as hammers and drifts. Follow the  guidelines outlined in your operator’s manual. Individual tools may have specific recommendations, so contact your supplier if  anything is unclear. Your supplier understands that optimum performance relies on proper care and maintenance. Here are  some useful tips: 1.) Clean your equipment while it is still hot as the residue is easier to remove. It helps to remove and clean  one piece of tooling at a time in order to maintain elevated temperatures. 2.) When cleaning a dual compound crosshead,  (plastic and rubber) clean the plastic tooling first; the rubber second. 3.) Nev er use steel tools such as scrapers or screwdrivers  because these can scratch and mar the tooling. 4.) Do not use open flames because this generates excessive  heat especially in thin sections, which can affect hardness, concentricity and toler ances of components. Recommended  cleaning tools and materials include: a.) Brass pliers to grip material and aid in pulling; b.) Brass scrapers available in different  widths for cleaning flat exposed surfaces; c.) Brass bristle tube brushes that are available in diameters from 1/16" to 1" in 1 /16"  increments (ideal for cleaning holes and recesses); d.)Brass rods – different diameter rods are good for push ing material  out of flow holes; e.) Copper gauze for cleaning and polishing exposed round or conical surfaces; f.) Copper knives for removing  residue from recesses and other hard-to-reach areas. Also, polishing compound restores polished sur faces; g.)  Compressed air, which is more effective for releasing plastic, but also aids in rubber removal. Be careful not to force debris into  recesses with compressed air; h.) Cleaning solutions may be useful, so remember to use fresh, clean rags (used rags often  have metal chips embedded in them, which may scratch polished surfaces); i.) Cleaning oven – for plastic only. Follow  manufacturer's recommendations. If no temperatures are specified do not exceed 850 degrees F (454 degrees C). Don’t quench  tooling to cool, as this could affect tool ing hardness, concentricity and tolerances. j.) Purging compounds – several  are offered to purge the extruder screw/barrel of residual polymer and rubber compounds. Removing Excess Material for  Optimum


Machining Efficiency

Clean parts are critical to extrusion tooling performance and quality manufacturing. This is especially true for the sealing and  locating surfaces – that control uniformity of the production process. For general maintenance of the tools, before storage or  tooling changeover, a thorough cleaning and removal of the excess material assures the precision machining alignments  required to produce end products  to the precise tolerances. Equipment should be cleaned while it is still hot, since residual polymer and rubber will be easier to remove. Be sure to follow all MSDS recommendations when heat ing the tooling. Thermal  gloves are used to protect the hands from the heated tooling surfaces. A brass scraper, as well as a brass or copper wool  cleaning cloth are recommended because they are soft enough not to scratch the surface. Make Tool Cleaning Easier The  quickest way to remove the die is to employ the pressure of the extruder to push it out. Clean the body by using an air  compressor and brass pliers so that the material cools down which increases the melt strength, making it into one-lump versus  an elastic, gummy-like substance that is harder to remove. Cleaning the body feed port using compressed air and brass  pliers to simultaneously cool and remove the excess residue from the feed ports. This procedure is followed by brushing  with a round brass brush that polishes the surface. The flow area of the 2" (51 mm) flange adapter should be cleaned by  carefully using a brass brush.

Examine all surfaces for any irregularities such as burrs and scratches since these must be repaired before the head is  reassembled. Most manufacturers recommend using a hand polish - ing stone to remove the offending burr. Follow stoning  with a light application of 600-grit emery cloth if necessary, but avoid rounding edges that are intended to be sharp. Flat sealing  surfaces can also be cleaned using a stone, followed by a 600-grit emery cloth. Place the cloth on a clean, flat surface,  preferably a surface plate, then apply friction in a circular hand motion until the area is clean and even. The parts in question  should all be hardened steel alloys and will not be adversely affected using these methods. Inconel, monel and Hastalloy® are  typically not heat-treated, requiring special care and handling to avoid any damage.


Don’t Overlook Repairs

Tooling maintenance helps ensure a quality extruded product – one that meets dimensional specifications, maintains the  specified minimum tolerance and is economically produced. Dirty, neglected and improperly adjusted tools contribute to  excessive compound applications, which in turn complicate maintenance of minimum thickness tolerance. Excess material  results in unnecessary costs and these directly affect the profitability of your company and the relationships with your  customers.


The Important Final Step – Reassembly

Working from your dedicated tool cart, follow the manufacturer’s instructions for reassembly. Give each component a final wipe  down with a clean rag before installing. Even the smallest amount of grit, dirt and residual material must always be re - moved. Use mechanical or manual assistance for heavy and awkward components to avoid unnecessary mishaps. Reapply anti seize compound to all fasteners if required. Tighten fasteners to manufacturer’s recommended specifications as well as  in the recommended sequence. This fastening sequence should be specified in the manual and is generally in a star pattern. Tighten gradually until the proper torque is achieved to prevent distortion of the tooling. One of a die manufacturer’s main goals  is to form a concentric cone as quickly and accurately as possible in the primary section of the die – when the extrudate first  emerges from the die's distribution capillaries. A properly designed and manufactured die has even distribution close to the  extrudate entrance point, but this effort is negated once the die is adjusted, shifting the extrudate off to one side. An eccentric cone is formed in the primary area, and a concentric cone exists at only one point in the process, rather than a smooth,  continuous flow path with decreasing volume. A properly manufactured and aligned extruded head, along with well-maintained  tooling should require little or no adjustment. Another adverse affect of unnecessary die adjustment is the stress introduced to  the extrudate caused by unbalanced flow. The net effect is the final product retains memory of this imbalance and unpredictable die swell occurs.

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