this article provides a detailed list of the main types of plastic additives, covering their applications and characteristics.
ensinger is a full-service provider of additive manufacturing solutions for the medical, aerospace, railway industries as well as custom parts.
our plastics experts conducted a study to understand how 3d printing impacts a material’s safety-critical performance properties. read about their findings.
read on for an in-depth overview of five key trends that have defined the additive manufacturing industry and the outlook for the future.
eplus3d provides highly developed 3d printing polymer materials for laser sintering in additive manufacturing. with the right additive manufacturing polymer materials, customers can realize the target property profiles in the best possible way for products.
with a growing emphasis on environmentally friendly manufacturing, the evaluation of the environmental performance of additive manufacturing processes has gained attention. here, evonik explores the importance of materials.
our program provides third-party certification that your plastics materials are appropriate for use in 3d printing and helps ensure suppliers of your ongoing compliance through our follow-up services.
discover the benefits of polymers for 3d printing for flexible, cost-effective production at scale. learn more about our plastic printing materials
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interested in learning all about plastics, the most common material used in 3d printing? this guide includes information on all plastics!
our 3d printing materials mimic a wide array of engineering plastics, elastomers and composites and match your specific applications needs in terms of flexibility, durability, stiffness, toughness, stability, clarity, look and feel, bio-compatibility, temperature or water resistance and more.
the advances in additive manufacturing (am) help the recycling, redesign, and reuse of waste plastics, enabling circular economy supply chains and business ecosystems. distributed recycling through additive manufacturing (dram) is a technique for recycling waste plastics using mechanical processes for am. even though these integrated concepts enable a new path to recycle waste plastics, there are numerous barriers to their implementation, especially in developing economies. the ten barriers to implementing dram for waste plastic recycling were finalized through the use of a literature review and the delphi technique. to determine the contextual relationship between the barriers, the interpretative structural modeling (ism) technique was used. a case study was carried out to investigate the barriers to implementing am in plastic waste management in a developing economy. the interrelationship among barriers was investigated and barrier prioritization was performed. the findings from the case study reveal that the lack of flexibility to implement circular economy (ce) goals is one of the main barriers to implementing am in plastic waste management. findings from this study provide insights for industry practitioners and policymakers in developing a strategy to implement am in plastic waste management.
plastic materials have been widely used to replace metals in functional parts due to their lower cost and comparable technical properties. however, the increasing use of virgin plastic material in consumer and industrial applications has placed a significant burden on waste management due to the volume of waste created and the potential negative effects of its end-of-life processing. there is a need to adopt circular economy strategies such as plastic recycling within industrial applications in order to reduce this significant waste management pressure. the present study used recycled polylactic acid (pla) material as a feedstock for the 3d printing of a centrifugal semi-open pump impeller. the technical performance of 3d printed recycled pla material and virgin pla material was compared in this study. the environmental impacts for technically feasible impellers were assessed through the environmental life cycle assessment, while costs were evaluated by life cycle costing. the results were incorporated into a techno-eco-efficiency framework to compare the technical properties, environmental impacts, and costs. the social impacts of additive manufacturing and recycled feedstock material were also explored. the technical assessment results indicated that tensile strength, fatigue strength, density, and hardness decreased with recycled material content compared to virgin material. microscopy of the fracture surfaces revealed the presence of slightly higher porosity and defects in recycled specimens, which could result in slightly lower technical properties. however, the recycled material was accepted for further ecological analysis as it offered higher pumping performance when compared to the original component and could reduce the burden on virgin material-based production and waste material disposal. importantly, the results showed that 3d printed recycled pla impellers are more eco-efficient when compared to 3d printed virgin pla impellers.
exhibitors and presenters at the plastics show emphasized 3d printing as a complement and aid to more traditional production processes.
we have developed groundbreaking, proprietary am technologies and processes to create virtually limitless 3d-printed components from medical-grade thermoplastic materials.
additive manufacturing (am) is accelerating as improvements in manufacturing capabilities, reductions in costs, know-how increases, and tools improving.
polymers and additives are used to give plastics special properties. learn how they’re used in plastic manufacturing.
exhibitors and presenters at the plastics show emphasized 3d printing as a complement and aid to more traditional production processes.
summary
this work reports a simple method to produce 3d printed complex carbon materials with low dimensional shrinkage (<4%) from printed to carbonized state, using commercially available carbon fiber-reinforced polypropylene precursors and a fused filament fabrication-based process.
3d printing and additive manufacturing
additive manufacturing in the plastics industry includes 3d printing; digital manufacturing; toolless manufacturing; short-run production; prototyping; sla; sls; fdm
fit ist ihr erfahrener industriepartner rund um die additive fertigung. bei uns finden sie guidance rund um design, manufacturing und services.
learn how additive manufacturing it works, how it’s used in factories across the world, and how it’s changing the landscape of manufacturing.
in this section, read articles on materials development, equipment, process technologies, product design, mold and mold making, marketing and research & development in 3d printing and additive manufacturing.
eptam excels in plastics additive manufacturing & offers a wide range of 3d printing services to meet all of your needs.
anyshape have a broad selection of polymer additive manufacturing materials enabling the fast production of rapid prototype 3d plastic parts.
the am4sp project aims to plan, develop, demonstrate and validate a set of innovative and disruptive solutions conducive to obtaining an intelligent door panel, integrating customized components, and with ability to match the new demands of the automotive industry, using, from a technological point of view, am technologies and, from […]
additive manufacturing also known as 3d printing is an industrial process that deposits materials layer by layer to create geometric 3d objects with little wastage.
which material not only suits your design, but also the additive manufacturing process? here’s a look at the attributes and requirements of popular additive manufacturing processes and guidance on selecting the right resins and compounds for each of them. by vandita pai-paranjape, senior manager, additive manufacturing, technology & innovation, sabic successful additive manufacturing with plastic
pellet fed 3d printers bring extreme flexibility in material options, but also require greater knowledge of how to best process any given resin.
additive manufacturing is rapidly evolving and opening new possibilities for many industries. this article gives an overview of the current status of additive manufacturing with polymers and polymer composites. various types of reinforcements in polymers and architectured cellular material printing including the auxetic metamaterials and the triply periodic minimal surface structures are discussed. finally, applications, current challenges, and future directions are highlighted here.
we are measuring the fundamental processes and material parameters that are critical to understanding and furthering polymers-based am. these efforts will aid the am ecosystem through better online monitoring capabilities and developing strategies for materials optimization.
initial's expertise in plastic additive manufacturing is unique in europe. our expertise is based on a wide variety of 3d printing technologies and materials.
a manufacturing transformation towards carbon neutrality would become reality if commodity plastics can be upcycled into higher-performance materials, amenable to closed-loop manufacturing…
protolabs network offers a state-of-the-art plastic 3d printing service, guaranteeing consistent quality and fast turnaround times. order 3d printed plastic parts at protolabs network.
additive manufacturing is a manufacturing process in which objects are built layer by layer from powder, pellets, or filament materials.
discover the latest trends and innovations in additive manufacturing with pta plastics. learn how this cutting-edge technology is revolutionizing the manufacturing industry and driving new possibilities in product design and development. stay ahead of the curve with insights from industry experts at pta plastics.
the reliable feeding of 3d printers for the additive manufacturing of plastic parts requires a high level of experience with the handling of raw materials.
find the latest data on new markets for the exports and imports of additive manufacturing machines for plastics/rubber.
anyshape offers a broad porfolio of equipment for plastic additive manufacturing to create durable 3d components in a variety of materials.
the assessment of the performance of the circular economy remains under discussion and is still under development. meanwhile, it is becoming increasingly crucial for companies aiming to capitalize on the promises of the circular economy. as a result, providing...
3d printers create intricately-shaped solid objects by digitally arranging particles in space and fusing them together but what materials are best?