Автор: alpha_plast

  • New Catalysis Concept to Obtain Polyester from Castor Oil

    New Catalysis Concept to Obtain Polyester from Castor Oil

    The development of future technologies that are not based on mineral oil and can be used for producing chemicals and plastics is one of the major tasks in modern materials science and a key challenge that needs to be addressed if sustainable industrial production is to have a future. 

    Synthetic Polyester from Plant Oil Feedstock

    A range of theoretical concepts and laboratory processes must be devised and tested to resolve challenges and problems arising in connection with the natural materials before potential applications for materials obtained from renewable resources can be probed. 

    One such concept has just been described by Professor Stefan Mecking in a current study on obtaining polyester from castor oil entitled “Synthetic Polyester from Plant Oil Feedstock by Functionalizing Polymerization” in the journal “Angewandte Chemie”.

    With his colleague Dr Ye Liu, an Alexander von Humboldt Fellow and the first author of the study, Stefan Mecking presents a new way of obtaining polyester from fats and oils, more specifically, from castor oil. A well-known and chemically established building block that can be obtained from castor oil is Undecenol. 

    Our idea was to interlink many of these molecules to form one large molecule, a plastic molecule. We wanted the whole process to be effective and readily accomplishable ‘in one go’”, Stefan Mecking elaborates. 

    Suitable Catalysts to Create Polyester Effectively

    Undecenol has a group of alcohols at one end of the molecule and a double bond at the other. It was decisive to interlink these two groups to form an ester group in such a way as to enable simultaneous linkage with long-chain molecules, i.e. plastics. Such long-chain bonds are required to obtain the desired material properties. One of the major general challenges in regard to these procedures is to identify suitable catalysts. 

    They are especially important because the reaction leading up to the formation of the desired long-chain molecules must be incredibly effective and proceed without any variance”, explains Stefan Mecking.

    For the production of polyester as described in their study, the chemists used carbonylation to obtain the ester groups. “The problem is that Undecenol reacts with another smaller molecule, an aldehyde. If this happens, it does not become part of the molecule chain, which means that it gets lost”, says Stefan Mecking, summarizing the gist and great success of his research. 

    By using suitable catalysts, the researchers were able to prevent this loss and to create polyester effectively. While developing the catalysts, they also worked out the conceptual steps required for adjusting the melting point of the products. “Due to the insights we gained, we should be able to infer how to handle the melting points of other long-chain substrates”, concludes Stefan Mecking, alluding to potential transfer applications of his concept for other renewable resources that are even more readily available than castor oil.

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  • Medical Plastics: Innovations & Opportunities

    Medical Plastics: Innovations & Opportunities

    Why should you attend?

    Plastics now represent the largest group of materials used in medical technology. Strong market drivers continue to support its constant penetration and may require new technologies: growing use of disposable medical products, increasing demand for bacteria-fighting surfaces, adoption of implantable applications…

    1. Save time with a structured overview of recent advances in innovative materials & application developments for next generation of medical plastics
    2. Identify opportunities to grow into medical plastics market with PEEK, PP, PVC, ABS, PE, PS, thermoplastics, nanotubes, shape memory polymers…
    3. Speed up your future R&D decisions with a clearer view on material requirements, technology adoption & unmet needs
    4. Feed your creativity by seeing successful / promising innovations (thanks to low cost, new designs…) & imagine whether it could be transposed to your own case

    Boast about your Skills- Get a participation certificate on joining the Live Online Course !

    Who should attend?

    R&DSales & Marketing as well as Executive managers… involved in technical & market watch, NPD/ innovation, business development.

    Course Outline

    1. Opportunities for Plastics in Medical Applications 
          • Medical Plastics Applications Market Drivers 
          • Certification and Legislation 
          • Medical Plastics Technology Trends
    2. New Material Opportunities in Medical Applications 
          • Protective Additives and Coatings 
          • Bioresorbables and Biocompatibles 
          • High Purity Medical Plastics 
          • Engineered & High Performance Plastics
    3. Medical Plastic Material and Process Developments 
          • Recycled Medical Waste Plastic 
          • Medical Microfibers and Yarns (Biotextiles) 
          • Medical Plastics Welding 
          • Automation in Medical Plastics
    4. Plastics in Medical Applications 
          • Implantable Devices and Drug Delivery Systems 
          • Fluid Administration and Collection 
          • Other Disposable Medical Devices 
          • Metal Replacement in Medical Applications 
          • Other Durable Medical Devices
    5. Future Plastics Opportunities in Medical Applications
    6. Major Plastics/Medical Players and Related References
    7. 30 Mins Q&A— Ask your questions directly to the expert !
  • Request a free trial of ICIS News

    Request a free trial of ICIS News

    We want to keep you up-to-date with what’s happening at ICIS* and tell you about our latest products and other services. We may email you about information we think you’ll be interested in, including selected articles and reminders about forthcoming events. If you do not wish to receive such information please tick the box to opt out of these emails

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  • Lubricants Selection for Polymers and Beyond

    Lubricants Selection for Polymers and Beyond

    Why should you attend?

    To increase your product’s lifetime & enhance cost efficiency (margin / cost structure, lower maintenance cost…), you must resolve your lubrication issues faster! With a better understanding of the fundamental principles of lubrication and interactions between components, you will be able to make a better selection of lubricants for your application. Attain long term competitive edge with leadership in your field by joining this course! You will:
      • Reduce R&D time & cost with minimal trial & error by selecting the right lubricant for your polymer
      • Understand the role of lubricants, principles and selection criteria to keep pace with current and emerging technologies
    • Meet the needs of the application enhanced via lubrications allowing increased lifetime to your products

    Boast about your Skills- Get a participation certificate on joining the Live Online Course !

    Who should attend?

    R&D professionals and Manufacturers needing to meet lubrication needs

    Course Outline

      • Lubrication Concepts
      • What are the problems faced by people working in this topic?
        • Where to begin?
        • What is needed?
      • Tribological systems
        • Needs and requirements
      • Lubrication Properties
        • It’s Performance
        • Environment of use
        • Quality (Extended life Use Factors)
        • Expendable, semi-permanent and permanent
      • Classes of System
        • Why use each
      • Application Uses
        • Characterizing Each
        • Formulation
    • Physical Testing
      • Efficiency
      • Compatibility with systems

    [su_button url=»https://polymer-additives.specialchem.com/online-course/50040-lubricants-selection-for-polymers-and-beyond?lr=500402&li=70111412&utm_source=MKG&utm_medium=EML&utm_campaign=500402&m_i=nPTnW324arLk6S_vT0rSvm2upWkrnhKeROYn7EVlu7n8fYN01nXA8f2wsGML1fsVATuErD91sppbF3CqhlosC0oXtQQTnO» target=»blank» size=»5″]Source[/su_button]

  • 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.

    [su_button url=»https://polymer-additives.specialchem.com/news/industry-news/ucsc-non-migratory-plasticizers-pvc-000216384?lr=ipa1811474&li=70111412&utm_source=NL&utm_medium=EML&utm_campaign=ipa1811474&m_i=LKHLZFZiHOg8GONQd5Ay8ivORz7SB_KKyKAJfgDc6AzLQ3hFlSN1SDQqPnvv3k_WVyKgB%2BdhdlakgVnXkVYf4BX4lhrPLR» target=»blank» size=»5″]Source[/su_button]
  • 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

    [su_button url=»https://gpcaforum.net/» target=»blank» size=»5″]Source[/su_button]

  • 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″]

    [su_button url=»https://polymer-additives.specialchem.com/tech-library/brochure/eastman-168-sg-medical-market/download?lr=ppa1808450&li=70111412&utm_source=NL&utm_medium=EML&utm_campaign=ppa1808450&m_i=he3MZM7tg6rA2q_ha9lELWbxKSdxLiWWgws7G4JcgipnwtLGa5ECBQVf6zVRuou_reWZKnXlOGMYMt0Pc0PtE6tAgtw6ha» target=»blank» size=»5″]Source[/su_button]

  • UPCOMING WEBINAR: Color Communication: Evaluation and Tolerances

    UPCOMING WEBINAR: Color Communication: Evaluation and Tolerances

    The Color Team at RTP Company is proud to present Color Communication: Evaluation and Tolerances, a webinar that focuses on how to effectively communicate color description, how color is evaluated, and the most common color models used in the plastics industry. If you find that color consistency is a challenge and you want a better understanding of how to better communicate your colorant needs, then this webinar is right for you!

    The focus of the presentation will be on human color perception, and the tools and techniques needed for effective color communication. Good color communication between the material supplier, the processor, and the OEM will ensure that color expectations are met consistently!

    Presented by RTP Company Color Technical Support Specialist Jeremy Cramer, this 60-minute webinar will cover the following topics:
    • How color is perceived
    • Color spaces/models
    • Color evaluation
    • Color tolerances

    Register now for Color Communication: Evaluation and Tolerances to learn more about the color communications and how RTP Company can provide accurate, consistent color for your thermoplastic applications.

    [su_button url=»https://knowledge.ulprospector.com/8486/webinar-pe-color-communication-evaluation-and-tolerances/?ul_ce=751&st=9&ul_piid=a0B0b00000NHhN0″ target=»blank» size=»5″]Source[/su_button]