Tag: pmma plastic

Biopolymers, Natural Polymers And Synthetic Polymers Described

Posted on by Betty Brooks

Polymers have for long been a fundamental element of our everyday lives because of this that examples is found almost ubiquitously. We generally have the feeling leading us to trust that polymers are simply plastics useful for packaging, in household objects and for making fibres, however, this is the tip of the iceberg.


Polymers are widely-used in many applications you might not have thought much about. This web site enlightens you in regards to the story behind polymers and exactly how it’s got evolved since to serve several functions across numerous industries.
Origin of polymer science
Humans took advantage of the flexibility of polymers since way back when as oils, tars, resins and gums. However, it wasn’t before industrial revolution the polymer industry developed. In fact, the birth of polymer science could be traced returning to the mid-nineteenth century. From the 1830s, Charles Goodyear developed the vulcanization process that transformed the sticky latex of natural rubber in a useful elastomer for tire use. In 1909, Leo Hendrik Baekeland designed a resin from two common chemicals, phenol and formaldehyde. The response between these chemicals paved the way to add mass to a resin, called Bakelite, named after him. It absolutely was this resin that served like a harbinger to many people of the common polymers that individuals use today. The saying “polymer” hails from the Greek roots “poly” and “mer,” which come up with means “many parts.” Polymeric substances are made of several chemical units called monomers, which can be gathered into large molecular chains composed of thousands of atoms.
Classification of polymers
On such basis as their origin, polymethyl methacrylate might be considered natural or synthetic polymers. Natural polymers are the type polymers that exist in nature which which can be isolated from plant and animal resources. Starch, cellulose, proteins, natural rubber etc. are a few instances of natural polymers. Though they are processed to find the product, because the basic material comes from a natural source, these polymers are known as natural polymers. Natural rubber received from tree latex is actually a polymer made from isoprene units which has a tiny proportion of impurities within it.
With this context, biopolymers are also significant. There exists vast number of biopolymers such as polysaccharides, polyesters, and polyamides. They may be naturally manufactured by microorganisms. The genetic manipulation of microorganisms makes means for enormous prospect of the biotechnological manufacture of biopolymers with tailored properties well suited for high-value medical application such as tissue engineering and drug delivery.
Synthetic polymers, as his or her name indicates, are synthesized inside the laboratory or factory through a number of chemical reactions from low molecular weight compounds. In the functional viewpoint they could be classified into four main categories: thermoplastics, thermosets, elastomers and synthetic fibres. Polymethyl methacrylate (PMMA) is a such thermoplastic manufactured by the polymerization of the monomer, methyl methacrylate (MMA). PMMA is often generally known as acrylic plastic and lends its properties with a variety of consumer product applications. Being both a thermoplastic and transparent plastic, acrylic is used extensively inside the automotive industry in trunk release handles, master cylinder, and dashboard lighting. Consumer products that have a very constituent element of acrylic plastic include aquariums, motorcycle helmet lenses, paint, furniture, picture framing, and umbrella clamps, and others.
A few of the other synthetic polymers that individuals use within our everyday life include Nylons, employed in fabrics and textiles, Teflon, employed in non-stick pans and Polyvinyl Chloride, employed in pipes.
Being a leading manufacturer of SUMIPEX® PMMA polymer, Sumitomo Chemical is pleased to work with you to understand its properties like a synthetic polymer. To learn more, get in touch with us here.
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Biopolymers, Natural Polymers And Synthetic Polymers Described

Posted on by Betty Brooks

Polymers have for long been a fundamental piece of our everyday lives so much so that examples is available almost ubiquitously. We generally an impact leading us to trust that polymers are merely plastics useful for packaging, in household objects and then for making fibres, however this is only the tip with the iceberg.


Polymers are utilized in many applications you might not have thought much about. This blog enlightens you in regards to the story behind polymers and just how it’s got evolved since to provide several functions across numerous industries.
Origin of polymer science
Humans have taken advantage of the versatility of polymers for years and years in the form of oils, tars, resins and gums. However, it had not been until the industrial revolution that this polymer industry developed. Actually, the birth of polymer science may be traced returning to the mid-nineteenth century. Within the 1830s, Charles Goodyear developed the vulcanization method that transformed the sticky latex of natural rubber into a useful elastomer for tire use. In 1909, Leo Hendrik Baekeland created a resin from two common chemicals, phenol and formaldehyde. The reaction between both of these chemicals paved the way to add mass to a resin, called Bakelite, named after him. It turned out this resin that served like a harbinger to a lot of with the common polymers that people use today. The word “polymer” is derived from the Greek roots “poly” and “mer,” which assembled means “many parts.” Polymeric substances are comprised of many chemical units called monomers, that are joined together into large molecular chains composed of a large number of atoms.
Classification of polymers
Judging by their origin, acrylic glass can be classified as synthetic or natural polymers. Natural polymers are the type polymers that exist in nature understanding that that are isolated from plant and animal resources. Starch, cellulose, proteins, natural rubber etc. are several samples of natural polymers. Though these are processed to obtain the end result, since the basic material comes from a natural source, these polymers are termed as natural polymers. Natural rubber originating from tree latex is essentially a polymer created from isoprene units which has a small percentage of impurities within it.
On this context, biopolymers are also significant. There is large number of biopolymers including polysaccharides, polyesters, and polyamides. They may be naturally made by microorganisms. The genetic manipulation of microorganisms makes way for enormous risk of the biotechnological production of biopolymers with tailored properties well suited for high-value medical application including tissue engineering and drug delivery.
Synthetic polymers, for their name indicates, are synthesized inside the laboratory or factory through a series of chemical reactions from low molecular weight compounds. From the functional viewpoint they may be classified into four main categories: thermoplastics, thermosets, elastomers and synthetic fibres. Polymethyl methacrylate (PMMA) is one such thermoplastic made by the polymerization with the monomer, methyl methacrylate (MMA). PMMA is commonly generally known as acrylic plastic and lends its properties with a selection of consumer product applications. Being both a thermoplastic and transparent plastic, acrylic is employed extensively inside the automotive industry in trunk release handles, master cylinder, and dashboard lighting. Consumer goods that have a constituent element of acrylic plastic include aquariums, motorcycle helmet lenses, paint, furniture, picture framing, and umbrella clamps, among others.
Some of the other synthetic polymers that people utilization in our everyday life include Nylons, found in fabrics and textiles, Teflon, found in non-stick pans and Polyvinyl Chloride, found in pipes.
As being a leading manufacturer of SUMIPEX® PMMA polymer, Sumitomo Chemical is pleased to assist you in understanding its properties like a synthetic polymer. To find out more, find us here.
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5 Reasons Why Acrylic Plastic Is Used For Automotive Glazing

Posted on by Betty Brooks

Polycarbonate had earned the tag because the the most appropriate material for usage inside the automotive industry. However, in recent times, Polymethyl Methacrylate, the PMMA polymer or commonly known acrylic plastic, has efficiently risen towards the growing demands from the automotive industry in replacing polycarbonate for the best important used in a, namely, automotive glazing.


Long established for usage in a variety of vehicle applications such as decorative trim, ambient lighting and door entry strips, automotive glazing is one of those fields that offer the highest growth possibility of PMMA.
Related key options that come with acrylic plastic that make it suitable for the operation of automotive glazing are discussed below.
Light weight
To create a comparison over a erogenous level, PMMA is half the load and much more transparent than glass, thereby providing magnificent visibility during true of fluctuating and unstable temperatures. Owing to its molecular structure, thermoformed acrylic glass are actually used almost exclusively for car window glazing where all of the necessary requirements for light-weight materials which are safe, an easy task to process and perform in most weathers are met.
High on Scratch Resistance
Another essential dependence on glazing is scratch resistance. Standard PMMA already has got the highest surface hardness of thermoplastics even if uncoated. However, for automotive glazing, you will find stringent conditions being fulfilled to fulfill the ideal state of scratch resistance. The usage of a coating thus remains mandatory. Due to the fact PMMA is intrinsically UV in addition to weathering-resistant, a single-step coating is effective. In comparison, thermoplastics who have low resistance to weathering demand a two-step coating system. This ends in relatively high costs for coating.
New design possibilities
PMMA glazing is 40 to 50 percent lighter than conventional glass, which piques the interest of automobile manufacturers. Together with the advantages being immediately obvious, PMMA is currently seen as the proper fit for automotive glazing. Weight savings apart, the transparency of acrylic plastic with its very high weathering resistance, pleasant acoustic properties, and exceptional form ability allow freedom enabling entirely new design possibilities.
Less negative feelings birefringence
PMMA exhibits almost no stress birefringence and also this operates as a major benefit over other thermoplastics such as polycarbonate, which has been primarily used by glazing previously. In comparison with traditional materials such as polycarbonate, moulded PMMA, comes with a distinct possibility of functional integration – reducing recess depth and assembly costs.
Environment-friendly
The brand new goal inside the automotive marketplace is to formulate clean low fuel consumption vehicles. In the awareness and also the requirement of eco-friendly initiatives in the present scheme of things, PMMA operates as a perfect alternative to glass inside the automotive glazing segment. As vehicle manufacturers push the bounds of design, also is automotive glazing evolving.
SUMIPEX® PMMA polymer offers characteristics that match the latest challenges inside the transportation sector. It’s a monumental challenge for car makers that are looking for to sit in recent environmental requirements and they are thinking about alternatives that reduce greenhouse gas and save fuel. Oahu is the perfect partner on this movement as it tends to make cars lighter.
As being a leading manufacturer of SUMIPEX® PMMA polymer, Sumitomo Chemical is happy to help you in understanding its properties and exactly how it ideal to automotive glazing.
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