{"id":7594,"date":"2017-12-29T08:00:20","date_gmt":"2017-12-29T14:00:20","guid":{"rendered":"https:\/\/www.ulprospector.com\/knowledge\/?p=7594"},"modified":"2023-02-01T10:29:29","modified_gmt":"2023-02-01T16:29:29","slug":"pe-blow-moulding-101","status":"publish","type":"post","link":"https:\/\/ulprospector.ul.com\/7594\/pe-blow-moulding-101\/","title":{"rendered":"Blow Moulding 101"},"content":{"rendered":"\n<p>Blow moulding is a manufacturing process by which hollow plastic parts are formed. It is also used for forming glass bottles, and blow moulding borrows its process principle from glassblowing. More recently, blow moulding has been demonstrated with amorphous metals \u2014 also known as bulk metallic glasses (BMGs) \u2014 under pressures and temperatures comparable to plastic blow moulding.<\/p>\n<p>Blow moulding is a low-pressure process with typical blow air pressures around 25 to 150 psi. It mushroomed to satisfy the demand for plastics containers. In the United States soft drink industry, the number of plastic containers went from zero in 1977 to 10 billion pieces in 1999. Today, an even greater number of products are blown and it is expected to keep increasing.<\/p>\n<p>Both blow moulding and rotational moulding are used to make hollow, seamless parts out of thermoplastic polymers. Rotational moulding uses gravity inside a rotating mould to achieve a hollow form. Rotational speeds used in the process are relatively slow. Also called <strong>rotomoulding<\/strong>, it is an alternative to blow moulding for making large, hollow shapes.<\/p>\n<h3>Minimize downtime with Prospector&#8217;s essential processing data &#038; tools<\/h3>\n<p>Access an injection molding troubleshooter, compare up to 5 materials side by side, and even view typical properties to help fill in missing product data points. All this right from the shop floor since Prospector is mobile-friendly. Instantly use advanced data and tools to minimize downtime.<\/p>\n<p>\t\t\t<a href=\"https:\/\/www.ulprospector.com\/plastics-processors?st=31\" target=\"_blank\" role=\"button\" rel=\"noopener\"><br \/>\n\t\t\t\t\t\t\tGet Started Here<br \/>\n\t\t\t\t\t<\/a><\/p>\n<h4><em>Advantages of blow moulding<\/em><\/h4>\n<ul>\n<li>Low tool and die cost<\/li>\n<li>Fast production rates<\/li>\n<li>Ability to mould complex parts<\/li>\n<li>Handles can be incorporated in the design<\/li>\n<\/ul>\n<h4><em>Disadvantages of blow moulding <\/em><\/h4>\n<ul>\n<li>Limited to hollow parts<\/li>\n<li>Low strength<\/li>\n<li>To increase barrier properties, multilayer parisons of different materials are used (thus not recyclable)<\/li>\n<li>Trimming is necessary to make wide neck jars spin<\/li>\n<li>Limited to thermoplastics (rotational moulding can be used with thermosets)<\/li>\n<\/ul>\n<h4><em>Advantages of rotational moulding<\/em><\/h4>\n<ul>\n<li>Though used principally for thermoplastic polymers, applications for thermosets and elastomers are becoming more common<\/li>\n<li>Parts range in size from small plastic bottles of only 5ml to large storage drums of 38,000 litres capacity<\/li>\n<li>Rotomoulding tends to favour more complex external geometries, larger parts, and lower production quantities than blow moulding<\/li>\n<li>Compared to injection or blow moulding, moulds are simple and inexpensive, as rotational moulding is often performed on a multi-cavity indexing machine<\/li>\n<\/ul>\n<h4><em>Disadvantages of rotational moulding<\/em><\/h4>\n<ul>\n<li>Blow moulding is more suited to the mass production of small disposable containers<\/li>\n<li>Despite cheaper moulds, the cost of rotational-moulded parts is generally higher than both blow-moulded and injection-moulded parts because volumes are lower and cycle times higher<\/li>\n<li>Production cycle is much longer, lasting perhaps 10 minutes or more<\/li>\n<\/ul>\n<h3>Blow moulding basics<\/h3>\n<p>The process begins with melting down the plastic and forming it into a parison or, in the case of injection and injection stretch blow moulding (ISB), a preform. The parison is a tube-like piece of plastic with a hole in one end through which compressed air can pass.<\/p>\n<p>The parison is then clamped into a mould and air is blown into it. The air pressure then pushes the plastic out to match the mould. Once the plastic has cooled and hardened, the mould opens up and the part is ejected.<\/p>\n<p>Blow moulding is most commonly used to make containers, packaging (such as soda bottles), or industrial applications (like fuel tanks). There are multiple variants, detailed below.<\/p>\n<h3>Extrusion blow moulding<\/h3>\n<figure id=\"attachment_7596\" class=\"thumbnail wp-caption alignright\" style=\"width: 209px\"><img loading=\"lazy\" decoding=\"async\" src=\"https:\/\/ulprospector.ul.com\/media\/2017\/12\/blowmoulding-Foreon-500-800px-209x300.jpg\" alt=\"Example of extrusion blow molded bottle - learn more about blow molding plastics in the Prospector Knowledge Center.\" width=\"209\" height=\"300\" \/><figcaption class=\"caption wp-caption-text\">Extrusion blow moulding is used to produce these oil packs in two sizes (1 litre and 5 litre). The design brief is to use as little material as possible, while the shape of the bottles allows as complete an emptying as possible.<\/figcaption><\/figure>\n<p><strong>Extrusion blow moulding<\/strong> can be used to process many different polymers including polyethylene, polyvinyl chloride, polypropylene and more. The process begins with the conventional downward extrusion of a tube. When the tube reaches the desired length, the mould is closed, catching and holding the neck end open and pinching the bottom end closed. Then a blow-pin is inserted into the neck end of the hot tube to form the threaded opening and inflate the tube inside the mould cavity. When the mould is completely cooled, it is opened to eject the bottle and the excess plastic is trimmed from the neck and bottom areas.<\/p>\n<p>Furthermore, there are (at least) two variants of extrusion blow moulding.<\/p>\n<ul>\n<li>In <strong>continuous extrusion blow moulding<\/strong>, the parison is extruded continuously and the individual parts are cut off by a suitable knife. With continuous extrusion, the weight of the parison drags the parison and makes calibrating the wall thickness difficult.<\/li>\n<li>In <strong>intermittent blow moulding<\/strong>, there are two processes:\n<ul>\n<li><em>Straight intermittent<\/em> is similar to injection moulding, whereby the screw turns, then stops and pushes the melt out.<\/li>\n<li>With the <em>accumulator method<\/em>, an accumulator gathers melted plastic and when the previous mould has cooled and enough plastic has accumulated, a rod pushes the melted plastic and forms the parison. The accumulator head uses hydraulics to push the parison out, quickly reducing the effect of the weight and allowing precise control over the wall thickness by adjusting the die gap with a parison programming device.<\/li>\n<\/ul>\n<\/li>\n<\/ul>\n<h3>Injection blow moulding (IBM)<\/h3>\n<p><strong>Injection blow moulding<\/strong> is the least-used of the three blow moulding processes. IBM is used for producing hollow plastic (or glass) objects in large quantities, typically small medical and single-serve bottles. The process is divided into three steps: injection, blowing and ejection.<\/p>\n<p>The process starts with the injection moulding of a polymer onto a core pin which is then rotated to a blow moulding station to be inflated and cooled.<\/p>\n<p>The injection blow moulding machine is based on an extruder barrel-and-screw assembly which melts the polymer. The molten polymer is fed into a hot runner manifold where it is injected through nozzles into a heated cavity and core pin. The cavity mould forms the external shape and is clamped around a core rod which forms the internal shape of the preform. The preform consists of a fully formed bottle\/jar neck with a thick tube of polymer attached, which will form the body, similar in appearance to a test tube with a threaded neck.<\/p>\n<p>The preform mould opens and the core rod rotates and clamps into the hollow, chilled blow mould. The end of the core rod opens and allows compressed air into the preform, which inflates it to the finished article shape.<\/p>\n<p>After a cooling period, the blow mould opens and the core rod rotates to the ejection position. The finished article is stripped off the core rod and as an option can be leak-tested prior to packing. The preform and blow mould can have many cavities, typically three to 16, depending on the article size and the required output. There are three sets of core rods, which allow concurrent preform injection, blow moulding and ejection.<\/p>\n<h4><em>Advantages of injection blow moulding <\/em><\/h4>\n<ul>\n<li>It produces an injection-moulded neck for accuracy<\/li>\n<\/ul>\n<h4><em>Disadvantages of injection blow moulding<\/em><\/h4>\n<ul>\n<li>Compared to extrusion-based blow moulding, the injection blow-moulding process has a lower production rate (why it is less widely used)<\/li>\n<li>Only suits small capacity bottles, as it is difficult to control the base centre during blowing<\/li>\n<li>No increase in barrier strength as the material is not biaxially stretched<\/li>\n<li>Handles cannot be incorporated<\/li>\n<\/ul>\n<h3>Stretch blow moulding<\/h3>\n<p>The process first requires the plastic to be injection moulded into a \u201cpreform\u201d with the finished necks (threads) of the bottles on one end.<\/p>\n<p>The preform is then heated above its glass transition temperature and blown, using high pressure air, into bottles using metal blow moulds. At the same time, a core rod stretches the preform to fill inside of the mould.<\/p>\n<p>The main applications of stretch blow moulding includes jars, bottles, and similar containers because it produces items of excellent visual and dimensional quality compared to extrusion blow moulding. Strain hardening occurs as part of the stretching process of some polymers (such as Polyethylene Terephthalate) which allows the bottles to resist deforming under the pressures resulting from carbonated beverages (typically around 60 psi).<\/p>\n<h3>Injection stretch blow moulding<\/h3>\n<p><strong><img loading=\"lazy\" decoding=\"async\" src=\"https:\/\/ulprospector.ul.com\/media\/2017\/12\/blowmoulding-ABB-drive-300x200.jpg\" alt=\"\" width=\"300\" height=\"200\" \/>Injection stretch blow moulding<\/strong> is the common method for producing soda bottles. The process begins with an injection moulded perform. The perform is typically pre-heated then stretched in the axial direction and blown into its final shape by a stretch blow moulding machine.<\/p>\n<p>Single-stage process is again broken down into three-station and four-station machines. In the two-stage injection stretch blow moulding process, the plastic is first moulded into a &#8220;preform&#8221; using the injection moulding process. These preforms are produced with the necks of the bottles, including threads (the &#8220;finish&#8221;) on one end. These preforms are packaged, and fed later (after cooling) into a reheat stretch blow moulding machine. In the ISB process, the preforms are heated (typically using infrared heaters) above their glass transition temperature, then blown using high-pressure air into bottles using metal blow moulds. The preform is always stretched with a core rod as part of the process.<\/p>\n<h4><em>Advantages of stretch blow moulding<\/em><\/h4>\n<ul>\n<li><figure id=\"attachment_7598\" class=\"thumbnail wp-caption alignright\" style=\"width: 300px\"><img loading=\"lazy\" decoding=\"async\" src=\"https:\/\/ulprospector.ul.com\/media\/2017\/12\/blowmoulding-Genol_Gruppe_7823b-300x215.jpg\" alt=\"Injection stretch blow moulding of a bioplastic - learn more about blow molding plastics in the Prospector Knowledge Center.\" width=\"300\" height=\"215\" \/><figcaption class=\"caption wp-caption-text\">Injection stretch blow moulding of a bioplastic is being used by Genol GmbH &amp; Co KG, Greiner Packaging to make large, rigid water bottles for water cooler and small cosmetic jars.<\/figcaption><\/figure>Very high volumes can be produced, though also highly suitable for low volumes and short runs<\/li>\n<li>The strength is ideal for filling with carbonated drinks<\/li>\n<li>Preforms can be sold as a completed item for a third party to blow<\/li>\n<li>Is suitable for cylindrical, rectangular or oval bottles<\/li>\n<li>As the preform is not released during the entire process the preform wall thickness can be shaped to allow even wall thickness when blowing rectangular and non-round shapes<\/li>\n<\/ul>\n<h4><em>Disadvantages of stretch blow moulding<\/em><\/h4>\n<ul>\n<li>Restrictions on bottle design \u2013 for example, carbonated bottles can use only a champagne baseHigh capital cost<\/li>\n<li>Requires high floor space, although compact systems have become available<\/li>\n<\/ul>\n<p>In the single-stage process, both preform manufacture and bottle blowing are performed in the same machine. The older four-station method of injection, reheat, stretch blow and ejection is more costly than the three-station machine which eliminates the reheat stage and uses latent heat in the preform, thus saving costs of energy to reheat and 25 percent reduction in tooling.<\/p>\n<h3>Barrier blow moulding<\/h3>\n<p>Coextrusion allows blow moulders to improve the barrier properties of their products by keeping either oxygen or moisture out, which is critical in food packaging applications. In industrial applications such as gas tanks, the barriers layers are designed to regulate hydrocarbon emissions.<\/p>\n<h3>Spin trimming<\/h3>\n<p>Products often have an excess of material due to the moulding process, which must be trimmed off by spinning a knife around the container which cuts the material away. This excess plastic is then recycled to create new mouldings.<\/p>\n<p>Spin trimmers are used on a number of materials, such as PVC, HDPE and PE+LDPE. The physical characteristics of different types of the materials affect trimming. Mouldings produced from amorphous materials are much more difficult to trim than crystalline materials. Using titanium-coated blades rather than standard steel can increase life.<\/p>\n<h3>Further Reading:<\/h3>\n<ul>\n<li><a href=\"https:\/\/ulprospector.ul.com\/4727\/pe-overcoming-plastics-injection-molding-problems?st=31\" target=\"_blank\" rel=\"noopener\">Overcoming Plastics Injection Molding Problems<\/a><\/li>\n<li><a href=\"https:\/\/ulprospector.ul.com\/3635\/pe-troubleshooting-flipchart-for-plastic-injection-molding?st=31\" target=\"_blank\" rel=\"noopener\">Troubleshooting FlipChart for Plastic Injection Molding<\/a><\/li>\n<li><a href=\"https:\/\/ulprospector.ul.com\/1467\/plastic-pressure-drop-injection-molding?st=31\" target=\"_blank\" rel=\"noopener\">Importance of Determining Plastic Pressure Drop During Injection Molding<\/a><\/li>\n<li><a href=\"https:\/\/ulprospector.ul.com\/1574\/rapid-injection-molding-design?st=31\" target=\"_blank\" rel=\"noopener\">4 Rules for Successful Rapid Injection Molding Design<\/a><\/li>\n<\/ul>\n","protected":false},"excerpt":{"rendered":"<p>Blow moulding is a manufacturing process by which hollow plastic parts are formed. It is also used for forming glass bottles, and blow moulding borrows its process principle from glassblowing. More recently, blow moulding has been demonstrated with amorphous metals &hellip; <a href=\"https:\/\/ulprospector.ul.com\/7594\/pe-blow-moulding-101\/\">Continued<\/a><\/p>\n","protected":false},"author":22,"featured_media":7601,"comment_status":"closed","ping_status":"closed","sticky":false,"template":"","format":"standard","meta":{"_monsterinsights_skip_tracking":false,"_monsterinsights_sitenote_active":false,"_monsterinsights_sitenote_note":"","_monsterinsights_sitenote_category":0,"episode_type":"","audio_file":"","podmotor_file_id":"","podmotor_episode_id":"","cover_image":"","cover_image_id":"","duration":"","filesize":"","filesize_raw":"","date_recorded":"","explicit":"","block":"","itunes_episode_number":"","itunes_title":"","itunes_season_number":"","itunes_episode_type":"","footnotes":""},"categories":[29,21],"tags":[247,276],"ppma_author":[1238],"class_list":{"0":"post-7594","1":"post","2":"type-post","3":"status-publish","4":"format-standard","5":"has-post-thumbnail","7":"category-processing","8":"category-plastics-2","9":"tag-application","10":"tag-processing","11":"entry"},"yoast_head":"<!-- This site is optimized with the Yoast SEO plugin v27.8 - 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Having originally qualified as a metallurgist at Cambridge University, Andy spent a period as a consultant, where he specialised in advanced composites, asbestos substitutes and the methodology of materials selection, subjects on which he has published several books and technical papers. Since the early 1980s, he has edited many of the leading manufacturing and engineering titles in the UK, firstly cutting his teeth as a technical journalist on Design Engineering. Known as \"The Materials Man\", he covered many of the early innovations in engineering plastics. He was promoted to editor in 1985 and subsequently moved on to edit Engineering magazine (1992), and Industrial Technology (1994). In 1999, with former colleagues, he launched Pro-Talk, which founded the first online publications for engineers in Europe - the then thriving business was sold to Centaur Publications in 2006. 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Having originally qualified as a metallurgist at Cambridge University, Andy spent a period as a consultant, where he specialised in advanced composites, asbestos substitutes and the methodology of materials selection, subjects on which he has published several books and technical papers.\r\n\r\nSince the early 1980s, he has edited many of the leading manufacturing and engineering titles in the UK, firstly cutting his teeth as a technical journalist on Design Engineering. Known as \"The Materials Man\", he covered many of the early innovations in engineering plastics. He was promoted to editor in 1985 and subsequently moved on to edit Engineering magazine (1992), and Industrial Technology (1994).\r\n\r\nIn 1999, with former colleagues, he launched Pro-Talk, which founded the first online publications for engineers in Europe - the then thriving business was sold to Centaur Publications in 2006. 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