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  • Licocare® RBW, Clariant’s Innovative Lubricants and Dispersing Agents based on renewable feedstock

    Licocare® RBW, Clariant’s Innovative Lubricants and Dispersing Agents based on renewable feedstock

    Sustainability has become a major focus in the plastics industry, driven by society’s growing environmental awareness and consumers’ demand for more environmentally compatible plastics and additives. But a certain skepticism in regards to the performance level has kept some compounders and masterbatch manufacturers’ from using sustainable alternatives. Now, with the newly developed Licocare® RBW, Clariant offers sustainable solutions that come with leading performance levels.

    Licocare® RBW solutions are developed for demanding, high-heat applications. They are “rice bran waxes” meaning that the aliphatic acids which make up their structures are extracted from discarded rice bran hulls, which were historically composted. By using the discarded rice bran as a source, we assure a clean, natural, non-petroleum raw material source, which does not compete with food supplies.

    Licocare® RBW’s offer outstanding internal and external lubrication for a more lamellar flow. The solutions exhibit excellent resistance to yellowing in high heat polymers and improve pigment dispersions in critical applications such as, polycarbonate light cover molding, polyester (PBT) electrical connector molding, polyamide, under-the-hood parts molding, polyurethane film and sheet calendaring, and other high-temperature polymers.

    Why should you view this webinar?

    During this seminar, you will be able to learn more about the main benefits of using Licocare® RBW in masterbatches, compounds and consumer products. Application tests will be shared showing
    Licocare® RBW solutions compared to current best alternatives on the market according to the following standards or their US and/or European equivalents:

    • Yellowness Index – (ASTM E313)
    • Mold Release Force – Clariant Custom Internal Method
    • Material Clarity – (ASTM D1746-15)
    • Melt Flow – (ASTM D1238)
    • Filter Pressure Value(FPV)-Pigment Dispersion – (DIN EN13900-5)

    Who should view this webinar?

    • Masterbatcher/Compounders
    • Automotive OEM Material Specialist
    • R&D personnel such as Chemists, Product Development Engineers

    [su_button url=»https://polymer-additives.specialchem.com/webinar-video/licocare-rbw-clariants-innovative-lubricants-and-dispersing-agents-based-on-renewable-feedstock?lr=Clariant-PA-TM-141118B&li=70111412&utm_source=TGT&utm_medium=EML&utm_campaign=Clariant-PA-TM-141118B&m_i=ApzAiHqCBVkl_7SJd89NwHJC5xPrg56ExeUVYPib9Ho3NtnkIwV77SIbmdp63i9p17qcLR44ZxTaNceFV9EQMwtoe0mNAd» target=»blank» size=»5″]Source[/su_button]

  • UCSC Researchers Develop Safer Non-migratory Plasticizers for PVC

    UCSC Researchers Develop Safer Non-migratory Plasticizers for PVC

    Researchers at UC Santa Cruz have developed safer alternatives to the phthalate plasticizers used to enhance the suppleness, flexibility, and longevity of plastics.

    The problem with phthalates is that they leach out of plastics into food, water, and the environment, and there is mounting evidence suggesting that phthalate exposure can lead to a variety of health problems.

    Effective Chemicals for Polyvinyl Chloride

    rebecca braslau
    Researchers Develop Safer Alternatives
    to Phthalate Plasticizers

    Researchers led by Rebecca Braslau, professor of chemistry and biochemistry at UC Santa Cruz, addressed this problem by developing chemicals that are effective as plasticizers for polyvinyl chloride (PVC) but can’t leach out of PVC products because they are chemically bonded to the polymer chain.

    The team reported their findings in a paper published in the Journal of Polymer Science (online September 26 and in the November 1 print issue).

    Wide Use of Phthalates

    Phthalates are used in a wide variety of products, but their most widespread use is as plasticizers for PVC, one of the most common types of plastic. After polypropylene and polyethylene, PVC is the third most common plastic polymer and is used to make products such as building materials, furniture, clothing, garden hoses, food packaging, blood-storage containers, and medical devices.

    «Nonmigratory» Plasticizers

    Braslau’s team has been working to develop «nonmigratory» plasticizers that attach to the PVC polymer via a chemical bond and can’t leach out of the plastic. She explained that traditionally, phthalates are mixed with fine-ground PVC and “melted together” rather than being bonded.

    «Unlike phthalates, our nonmigratory plasticizers physically can’t leach out,» Braslau said.

    Her lab has produced several viable nonmigratory plasticizers, including two dubbed the “frog” and the “tadpole” because of their chemical structures. The «tadpole» is particularly promising, Braslau said, because it is much easier to produce than the «frog» and is the most effective of the plasticizing strategies examined.

    «Fewer steps and fewer chemicals are involved in its synthesis. Importantly, it should be scalable for industrial use,” she said.

    Potential Health Risks Posed by Phthalates

    The research into phthalate alternatives was prompted by growing concerns about the potential health risks posed by phthalates. Certain phthalates are considered endocrine disruptors because they or their metabolites interfere with the body’s hormone system.

    Most of the studies showing harmful effects have been done in lab animals, but some human studies have also found associations between exposure to phthalates and adverse reproductive and developmental effects.

    How phthalates affect human health and at what levels of exposure are still unresolved questions, but researchers are particularly concerned about potential effects on infants and children. Bans on the use of phthalates in children’s toys and childcare products have been imposed by both the European Union and the United States.

    Nevertheless, the use of phthalates in other products remains widespread. They are found in vinyl siding and flooring, shower curtains, children’s rain gear, and even in personal care products such as shampoos and cosmetics. As a result, phthalates are now widely dispersed throughout the environment, and most people have detectable amounts in their blood.

    They are everywhere we touch,” Braslau said.

    Eventually, Braslau and her team hope to see their safer nonmigratory plasticizers adopted by the plastics industry.

    The potential for this is real,” she said, though she admitted that trying to change the plastics industry is like “trying to turn the Queen Mary.

    In addition to Braslau, the authors of the paper include first author Chad Higa, who earned his Ph.D. at UC Santa Cruz in 2018 and is now a postdoctoral researcher at the University of Hawaii; and Andy Tek and Rudy Wojtecki, both at the IBM Almaden Research Center in San Jose. This work was funded by the National Science Foundation.

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  • GPCA FORUM

    GPCA FORUM

    The Annual GPCA Forum has cemented its reputation as the foremost gathering of the chemical and petrochemical industry in the Arabian Gulf region, and earned international recognition as an important global forum for the exchange of ideas and networking. In 2017, more than 2,000 international chemical executives gathered in Dubai to gain essential information, make new business connections and renew existing relationships.

    The main conference sessions will offer the visionary leadership and insight you have come to expect from the Annual GPCA Forum, while a range of seminars and masterclasses will provide more practical tools and strategies to be taken away and used in your own organization.

    The Annual GPCA Forum combines a strategic geographic location with modern travel infrastructure, smart services and facilities, and excellent connectivity from any part of the globe. The Forum serves as a meeting point for thousands of industry professionals from the Middle East and beyond, eager to showcase their capabilities, meet with key business partners, and keep up to date with the latest industry trends. A growing exhibition, compelling conference program and the high seniority of delegates, make it a ‘must attend’ for anyone looking to grow their business in the region or reassert their position as a global market leader. Taking place at the heart of the Middle East, the Annual GPCA Forum is a leading global platform for business discussion.

    The 13th Annual GPCA Forum at a glance:

    • The foremost meeting place and knowledge-sharing forum in the Middle East for the chemical and petrochemical Industry
    • Meet and network with over 2,000 expected attendees from more than 50 countries
    • A ‘CEO-level’ speaker faculty sharing insights on 2018’s theme of ‘Transformation and investing in growth’
    • A delegate networking tool enabling you to contact other attendees and arrange meetings in advance
    • Take time away from the office and try a fresh approach to new business and strategy development

    Five reasons to attend the Annual GPCA Forum in 2018

    • Assess recent developments and future challenges and opportunities for GCC petrochemicals, with H.E. Shaikh Mohammed bin Khalifa bin Ahmed Al Khalifa, Minister of Oil, Kingdom of Bahrain
    • Explore how transformational investment and regional partnerships can facilitate sustained growth, with Mark Lashier, President and CEO, Chevron Phillips Chemical Company
    • Navigate the ‘circular economy’, its applicability to petrochemicals and chemicals, and how it can help foster a bright and sustainable future for the industry, with Daniele Ferrari, CEO, Versalis
    • Learn how a process of divestment can lead to a leaner, more streamlined and better-focused business, with Mutlaq Al-Morished, CEO, TASNEE
    • Investigate dimensions of digital, structural and business model transformation that can lead to growth creation, with Steven Demetriou, Chairman and CEO, Jacobs Engineering

    About GPCA

    The Gulf Petrochemicals and Chemicals Association (GPCA) represents the downstream hydrocarbon industry in the Arabian Gulf. Established in 2006, the association voices the common interests of more than 250 member companies from the chemical and allied industries, accounting for over 95% of chemical output in the Arabian Gulf region. The industry makes up the second largest manufacturing sector in the region, producing over USD 108 billion worth of products a year.

    The association supports the region’s petrochemical and chemical industry through advocacy, networking and thought leadership initiatives that help member companies to connect, share and advance knowledge, contribute to international dialogue, and become prime influencers in shaping the future of the global petrochemicals industry.

    Committed to providing a regional platform for stakeholders from across the industry, GPCA manages six working committees – Plastics, Supply Chain, Fertilizers, International Trade, Research and Innovation, and Responsible Care – and organizes six world-class events each year. The association also publishes an annual report, regular newsletters and industry reports

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  • Graphene — A Future Mainstream Material in the Plastic Industry

    Graphene — A Future Mainstream Material in the Plastic Industry

    Graphene, the strongest material ever tested, is a nearly transparent and light-weighted material made of a one-atom-thick layer of carbon atoms arranged in a hexagonal lattice. It is a semi-metal with a small overlap between the valence and the conduction bands, i.e. it is a zero band gap material.

    It is also known as a ‘Wonder Material’ due to its multitude of astonishing properties, such as:

     − High strength
    − Excellent electrical conduction, and
    − Light absorption

    It exhibits large and nonlinear diamagnetism (even greater than that of graphite) and can be easily levitated by neodymium magnets.

    Graphene in the plastics industry is gaining a lot of attention from last few years. Graphene can be easily mixed with plastics, lending its incredible intra-sheet strength to the plastic matrix and making the combined material much stronger. It not only improves the strength of the plastic matrix but also improves resistance to chemical or thermal degradation. These properties act as an inspiration to both the creation of new products and the improvement of existing ones.

    Even though graphene showcases exceptional properties, it is susceptible to oxidative environments when used as a catalyst. Further, during fabrication of devices, graphene needs to be supported on a substrate which suppresses its thermal conductivity. In order to grow graphene, toxic chemicals are used at high temperatures, which cause a concern to the human safety in the industry.

    So, to overcome these challenges, researchers are continuously working make future of graphene — a promising one!

    Let’s take a look at the researches and trends going around contributing to the popularity of graphene…

    Research Trends

    With ~400 patents/published applications filed in the last 5 years, the use of graphene in the plastics industry has attracted a lot of attention of the researchers around the globe. The research in the domain has witnessed an upward trend with an average of ~ 63 patents/published applications filed every year.

    Research Applications Published on Graphene
    Research Applications Published on Graphene

    NOTE: Filing data for 2017 and 2018 is not accurate as all patent applications which are filed are not yet published

    The research in the domain has been conducted by various leading chemical players, such as:

     − BASF 
    − Kaneka Corp.
    − Sumitomo Chemicals, as well as
    − The universities such as Rutgers University, University of Taiwan, and the University of Seoul

    The domain has also witnessed various collaborations; most of them being between the companies and the universities. This is mainly due to the universities having the right set of capabilities and easy availability of technology platforms. The key researchers in the domain are:

    Key Researchers of Graphene

    The researchers have been researching various aspects of graphene such as composition, manufacturing, and integration processes. Few of the interesting recent trends in the industry are:

     − Use of graphene to form plastic tubes used in heat exchangers for various applications such as water desalination, power stations, refrigerating devices, and combustion engines. The tubes comprise of a graphite filler material, which is a mixture of graphite powders consisting of platelets, strands/fibers, and spherical particles.1

    − Graphite (various layers of graphene) is used in a house roof assembly, which comprises of a thermoplastic membrane having thermoplastic polyolefin sheet. Further, a fabric is arranged on expandable graphite. The thermoplastic and the fabric membranes are in the form of a composite. The usage of the composite material simplifies installation and saves in labor costs.2

    − Use of graphite in a flexible display device, which includes a display panel for displaying an image; and a flexible substrate on which the display panel is supported. The flexible substrate includes a plastic film having carbon and graphite material.3

    − Functionalized graphene nanoplatelets are used in a plain bearing shell of an IC engine. The plain bearing comprises a polymer-based composite layer arranged on a substrate. The composite layer includes a matrix of polymer-based material and functionalized graphene nanoplatelets.4

    − Graphite is used in a separator for a fuel cell. The separator comprises of three layers, i.e., a metal base layer, a plastic layer comprising conductive particles and a third layer comprising the plastic material which includes graphite particles.

    [su_button url=»https://polymer-additives.specialchem.com/tech-library/article/graphene-a-future-material-in-the-plastic-industry?lr=ppa1809454&li=70111412&utm_source=NL&utm_medium=EML&utm_campaign=ppa1809454&m_i=xugx2LSD%2Bv8_VV88M0SAWbbxOREZnnYzAH3ioskCMGgovgLdTQ5O_4%2BKUNsH04ksJeEVJDXLv5eycfbg6ZAx3y73_7Ldx2″ target=»blank» size=»5″]Source[/su_button]
  • Eastman 168™ SG Meeting the unique needs of the medical market

    Eastman 168™ SG Meeting the unique needs of the medical market

    [su_document url=»http://www.alpha-plast.com.ua/wp-content/uploads/2018/08/Eastman168SGmedicalmarket.pdf» height=»900″]

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  • UPCOMING WEBINAR: Using ABS for Medical Applications: The Benefits of Mass Polymerization

    UPCOMING WEBINAR: Using ABS for Medical Applications: The Benefits of Mass Polymerization

    Join Trinseo as we discuss the benefits of using acrylonitrile butadiene styrene (ABS) resins as a material for all types of medical devices—from large and small equipment housings to insulin pens and inhalers.

    ABS resins have been long valued because of their durability, toughness, and aesthetic appeal. When produced using mass polymerization technology, ABS resins offer attractive advantages to medical industry customers: exceptional purity, low residual monomers, lot-to-lot consistency, and superior whiteness.

    This webinar will cover of the differences between the emulsion method of producing ABS and mass polymerization, which is how Trinseo manufactures MAGNUM™ ABS Resins. These resins are recognized as superior in the automotive and consumer electronics industries as well as among high-end extruders. They have been relied on for decades to satisfy the critical needs of demanding applications, and they’re ideal for medical applications.

    Have a Scheduling Conflict
    If you are unable to attend the live event and are still interested in viewing this webinar, register now and a notification will be emailed to you when the on-demand webinar recording is available.

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  • Polycarbonate Plastic and Epoxy Resins – High. Performing Materials that are Safe to Use

    Polycarbonate Plastic and Epoxy Resins – High. Performing Materials that are Safe to Use

    Over the past 8 years, senior scientists with FDA’s National Center for Toxicological Research (NCTR) designed and conducted a study of bisphenol A (BPA), the key raw material used to make polycarbonate plastic and epoxy resins. Named the CLARITY Core Study, this multi-year, multi-million dollar scientific study on BPA safety is of unprecedented scope and magnitude. The results of the study were recently released and have now been peer reviewed by independent experts. 

Learn more about this study and the extensive scientific database that supports the safety of BPA. You’ll also learn about the latest regulatory information from the U.S. Food and Drug Administration and other government agencies. 

If you have used these high-performing materials, you know polycarbonate is a highly shatter-resistant, lightweight and optically clear thermoplastic. This combination of attributes makes it virtually unique among commercially available thermoplastics. Markets and typical products that take advantage of these attributes include:

    • Medical – surgical and drug-delivery devices, dialyzers, incubators
    • Electronic – housing units for cell phones, laptops, and game consoles
    • Automotive – headlamp lenses, sunroofs, bumpers
    • Building/Construction – LED lighting fixtures, architectural and security glazing, signage

    Epoxy resins, most of which are made from BPA, are thermoset plastics with an outstanding combination of toughness, chemical resistance and high adhesion. Epoxy resins are well suited to a wide range of coating applications, and are increasingly used in high-strength/light weight composites:

    • Wind energy – wind turbine rotor blades
    • Aerospace – aircraft fuselage and wing structures
    • Marine – boat manufacture and repair
    • Paints and Protective Coatings – appliance powder coatings, automobile primers, flooring

    Today’s consumers and supply-chain decision makers demand transparency and they have high expectations when it comes to accessing safety information about the chemistries and materials used in products. Stay ahead of the demands from your customers and join Steve Hentges, Ph.D., Polycarbonate/BPA Global Group, American Chemistry Council for the latest updates.

    [su_button url=»https://polymer-additives.specialchem.com/news/industry-news/toray-purchase-tencate-advanced-composites-holding-000213850?lr=ipa1803441&li=70111412&utm_source=NL&utm_medium=EML&utm_campaign=ipa1803441&m_i=owCSgOUSRuiLkTokZbqCRDk%2BUkNEylgW36Uby0qM2dBx47QF11rda35UI6UamMWaxutReHz8ZMUL2ocV2q1EbPgGFxVooh» target=»blank» size=»5″]Source[/su_button]

  • Breaking news on the US withdrawal from the Iran nuclear deal

    Breaking news on the US withdrawal from the Iran nuclear deal

    The withdrawal of the US from the Iranian nuclear deal will result in sanctions that could disrupt fertilizer and petrochemical exports from Iran. But the most significant consequence of the US withdrawal could be its effect on oil prices, which are already rising because of a number of trends that are increasing demand and limiting supply.

    ICIS editor, Al Greenwood, discusses the likelihood of sanctions against Iran and how this will affect the petrochemicals markets and contribute to rising oil prices.

    Stay-up-to date on the most up to recent news stories from ICIS and how the sanctions could affect the petrochemicals and energy markets. View here >>

     

  • Toray to Purchase TenCate Advanced Composites Holding, a KTC Subsidiary

    Toray to Purchase TenCate Advanced Composites Holding, a KTC Subsidiary

    Background for Acquisition & Objective

    Background
    • The global carbon fiber business field has been expanding steadily led by the demand for applications such as aircraft as well as environment and energy including windmill blades for wind power generation.
    • In the aircraft industry, demand for medium- and small-sized, single aisle aircraft is growing significantly and the development of the next generation aircraft targeting such demand is expected to intensify.
    • It is assumed that the use of thermoplastic prepreg will further increase for medium- and small-sized mass-produced aircraft, as the material enables to bring down costs by improving efficiency of molding of members.

    In the medium-term management program Project AP-G 2019, launched by Toray in fiscal year 2017, the company is promoting the Green Innovation Business Expansion (GR) Project aimed at contributing to solving global environmental issues and resource and energy problems in a group-wide effort, and Toray is pursuing business expansion and market development of the carbon fiber business as one of the core businesses under the project.

    While Toray already has a large number of transactions in the carbon fiber business for aerospace applications, the company was facing the challenge of further technology development in diverse fields including thermoplastic prepreg in addition to the existing thermoset prepreg and the establishment of a business base to respond to the anticipated expansion in demand in aircraft applications.

    Objective

    TCAC, which Toray has decided to purchase, is a prepreg manufacturer with its main manufacturing bases in Europe and the U.S. and has a track record of widely supplying thermoplastic prepreg and high heat resistance thermoset resin materials. Especially, TCAC is among the global leading companies of carbon fiber intermediate materials using thermoplastic resins.

    • The acquisition is expected to generate significant synergies by combining the product lineup in which TCAC specializes with the broad range of carbon fiber as well as polymer technologies, which are Toray’s strengths.
    • Combining the two companies’ distribution channels, the company can offer a wider product lineup to the customers.
    • Toray will respond swiftly to the expansion of the market for small-sized aircraft and expand the business further for industrial use applications including automobiles in the medium- to long-term.

    [su_button url=»https://polymer-additives.specialchem.com/news/industry-news/toray-purchase-tencate-advanced-composites-holding-000213850?lr=ipa1803441&li=70111412&utm_source=NL&utm_medium=EML&utm_campaign=ipa1803441&m_i=owCSgOUSRuiLkTokZbqCRDk%2BUkNEylgW36Uby0qM2dBx47QF11rda35UI6UamMWaxutReHz8ZMUL2ocV2q1EbPgGFxVooh» target=»blank» size=»5″]Source[/su_button]

  • Manufacturer Utilizes OCSiAl’s Nanotubes for Permanent Conductivity of PE Films

    Manufacturer Utilizes OCSiAl’s Nanotubes for Permanent Conductivity of PE Films

    Just 0.01% of TUBALL™ nanotubes has allowed a European manufacturer to obtain transparent polyethylene film with permanent and uniform anti-static properties. Moreover, the nanotubes have significantly improved the strength characteristics of the film and they have also shown promise in increasing the thermal stability.

    Tuball-carbon-nanotube
    TUBALL enables transparent PE blown films with permanent conductivity

     

    Using Just 0.01% of TUBALL™ Nanotubes

    A European manufacturer (the company’s name is currently covered by an NDA) has recently succeeded in producing high-performance polyethylene anti-static film with TUBALL nanotubes produced by OCSiAl by using blown-film extrusion.

    By introducing 0.01 wt.% of TUBALL nanotubes via the easy-to-handle TUBALL MATRIX 810 concentrate, a surface resistivity in the range 5×10^9 to 10^11 Ω/sq was achieved, which meets the ANSI/ESD S541-2003 and IEC 61340-5-1-2007 standards on protection against electrostatic effects for packaging materials.

    Carbon Nanotubes Allow Permanent Conductivity

    Anti-static bags, FIBC liners, static shielding bags and films, protective tapes and conductive films – all of these have been designed to protect certain goods and products from static electricity. Conventional permanent anti-static additives, such as carbon black, have always led to the degradation of mechanical properties and a darkening effect, and migrating anti-static additives result in non-permanent conductivity at various humidity levels. These problems can now be avoided with single wall carbon nanotubes, which offer the best value proposition in terms of price per property, making them the additive of choice for the industry.

    The light transmittance of these anti-static PE blown films is 90% in comparison with neat film, which is not achievable with carbon black. Moreover, the stress at break in the perpendicular direction is increased by around 60%, which improves the durability of this PE film. These findings demonstrate one of the key features of TUBALL nanotubes – their ability to create a 3D conductive and reinforcing network even at very low loadings. In contrast to other conventional additives, nanotube-formulated films also show promise in terms of thermal stability.

    Application of the TUBALL MATRIX concentrate has enabled a standard clean manufacturing process without the powder or dust associated with using carbon black. All these developments and advantages have encouraged the company to continue testing TUBALL nanotubes and to discover their potential for producing other anti-static parts from polyolefin polymers by various processes, including extrusion and injection molding.

    [su_button url=»https://polymer-additives.specialchem.com/news/industry-news/ocsial-nanotubes-incorporated-pe-films-conductivity-000213702?lr=ipa1803439&li=70111412&utm_source=NL&utm_medium=EML&utm_campaign=ipa1803439&m_i=owCoI2WGhIljX2jixQOlXnTU4OnzordCjYPT2l7gFvS9mhBt4AwvfJnsGCuRNB2K6JPyuPd3EM9YR2DLI3jngEm07EbDo0″ target=»blank» size=»5″]Source[/su_button]