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New Managing Directors On The Starting Blocks

New Managing Directors On The Starting Blocks 

  • Steffen Kroner to assume responsibility for Finance, Controlling, IT and Human Resource Management.
  • Gerhard Böhm, Managing Director Sales and After Sales, to hand over the baton later this year.
  • Partner Renate Keinath to move to the Advisory Board.

There will be two new faces in Arburg’s management team in the course of 2024: On 1 July 2024, Steffen Kroner will take charge of the Finance, Controlling, IT and Human Resource Management division, which was newly created at the beginning of the year. In addition, Gerhard Böhm, Managing Director Sales and After Sales, will retire in the course of the year, and his successor has already been appointed.

At the end of 2023, the management team underwent changes that led to the establishment of the new Finance, Controlling, IT and Human Resource Management division: Renate Keinath, who had been responsible for Human Resource Management as Managing Partner since 2005, retired from operational business at the end of the year and is now a member of the newly created Advisory Board. In addition, Jürgen Boll, Managing Director Finance, Controlling, IT, retired at the end of 2023.

On 1 July 2024, Steffen Kroner will take up his position as Managing Director Finance, Controlling, IT and Human Resource Management. He was most recently Commercial Director of the Liebherr Tower Crane Division and the Liebherr plant in Biberach and has international expertise, many years of management experience and extensive knowledge of business administration issues.

During the course of this year, Gerhard Böhm will take his well-deserved retirement as Managing Director Sales and After Sales. His successor has already been appointed and will take up the position of Managing Director on 1 October 2024 at the latest. Until then, Gerhard Böhm, who has been responsible for Sales and After Sales as Managing Director since 2016, will be busy familiarising his successor with the role.

https://www.arburg.com/en/

#ARBURG  #responsibility #Management #operational  #experience#modernplasticsgermany #ginujoseph #modernplastic #plasticindia  #plasticrecycling #sustainability #modernplasticsglobalnetwork #modernglobalnetwork #modernplasticsaward2024 #plasticmagazine #PlasticIndustry  #modernplasticsmiddleeast #indianmagazine #innovations #modernplasticsamerica #modernplasticsbangladesh #modernplasticsasia #modernplasticsitaly  

 

The Surface Treatment Of Medical Components With Mass Finishing & Shot Blasting

The Surface Treatment Of Medical Components With Mass Finishing & Shot Blasting 

In the demanding field of medical device manufacturing, the use of mass finishing and shot blasting technologies are critical in ensuring the production of components that adhere to the strictest standards of safety, reliability, and operational efficiency. These processes are not merely steps in the manufacturing sequence but are critical technologies that ensure each component achieves a level of surface integrity that is extremely important in medical applications. The necessity for such precision stems from the direct impact these components have on patient outcomes and device performance. 

The strategic application of these finishing technologies ensures that medical devices and medical components are not only manufactured to meet but often exceed the stringent regulatory requirements and quality standards set forth by governing bodies in the healthcare sector. The use of an array of versatile mass finishing and shot blasting processes indicates the medical industry’s commitment to excellence, underpinning the reliability and safety of medical devices that significantly impact patient care and treatment outcomes. This article will analyse what mass finishing and shot blasting can be used for when processing medical devices and components.

MASS FINISHING TECHNOLOGIES

The mass finishing process is a mechanical-chemical technology for the surface finishing of a wide range of parts and components made from metal, ceramic, or plastics. Whether tumbling, vibratory finishing, or centrifugal finishing, mass finishing machines are filled with various abrasive media that work through mechanical forces and chemical reactions to achieve the desired surface quality on components. This approach is particularly effective for refining small to medium-sized parts characterised by complex shapes and geometries. By ensuring uniform treatment across all surfaces, mass finishing techniques adeptly eliminate microscopic irregularities and potential bacterial harbourage sites, significantly reducing the risk of infection or discomfort upon patient contact. The process is a crucial manufacturing step ensuring that the high standard sof safety and efficacy required for medical devices is maintained, particularly for those that are implantable or come into direct contact with patients.

A range of different mass finishing processing methods can address the often quite complex finishing requirements for medical devices and components. These different processing methods are tailored to the respective stage of manufacturing and the material being processed, which when looking for example at orthopaedic implants may include stainless steel alloys, cobalt & chromium alloys, titanium, or plastic. However, when looking at prosthetic and orthotic devices, non-ferrous light metals and special plastic materials such as carbon fibre are typically used. It is because of this significant range of materials used in medical applications that the versatility of mass finishing is so important.

In most instances, medical devices will require a number of finishing operations. First of all, parts need to be deburred, which involves the removal or significant reduction of burrs on the outer contours of workpieces, within drilled holes, and across various types of openings. This is accomplished through the use of specialist mass finishing machinery and grinding media, which work in unison to efficiently eliminate rough edges and protrusions. 

Next, it is necessary to grind and smooth the surfaces. The process of eliminating surface imperfections from medical workpieces, which often result from various shaping or machining operations, is a critical step in ensuring the highest quality of the finished product. These imperfections, if left unaddressed, can significantly affect the performance and aesthetic appeal of the component or device. To counteract these detrimental effects, mass finishing is employed to not only remove these flaws but also to drastically reduce the surface roughness, refining the texture of the workpiece, and preparing it for any further enhancement processes. Grinding and smoothing are not only about rectifying errors, they lay the groundwork for more advanced finishing techniques such as dry polishing and anodizing, (which adds a durable, corrosion-resistant layer, and requires a uniformly smooth surface to ensure the coating adheres properly and performs as expected). 

Dry polishing through the use of mass finishing can achieve exceptionally high gloss finishes on workpieces without leaving behind any “micro scratches.” This is made possible through the use of polishing media that is specifically tailored to match the material of the workpiece being polished, which ensures that the abrasive action is both effective and gentle, preserving the integrity of the workpiece while elevating its aesthetic appeal. Dry polishing can produce Ra (Roughness Average) values of less than 0.02 micrometres or Rz (Average Roughness Depth) values of less than 0.15 micrometres, indicative of a surface that is virtually flawless. Options for high-gloss finishes also exist when parts need to have a cosmetically appealing appearance.

Other mass finishing processes that can be used to affect the surface finish of medical components include ball burnishing and vibro peening. Ball burnishing is once again used to smooth a workpiece’s surface, enhancing its appearance and mechanical properties, and involves the use of small, hard balls — typically made of steel or carbon — that roll over the surface of the workpiece under pressure. The pressure compresses the surface layers of the material, reducing surface roughness and imparting a high gloss finish. Ball burnishing can also work-harden the surface of the workpiece, improving its resistance to wear and fatigue, and is often used on metals to achieve a mirror-like finish without removing material from the workpiece, making it distinct from abrasive polishing techniques.

Finally, vibro peening is used to improve the fatigue resistance of metal components and subjects the workpiece to repetitive impacts from small media agitated by vibration. The impacts induce plastic deformation on the surface and near-surface layers of the material, introducing compressive residual stresses and work-hardening the surface. This treatment reduces the risk of crack initiation and propagation, significantly improving the workpiece’s fatigue life. 

SHOT BLASTING TECHNOLOGIES

Shot blasting stands out as a robust finishing method where abrasive particles are propelled at high velocities towards the surface of a component. It is a versatile process which is well suited to tasks ranging from surface cleaning and peening — which increases the material’s strength — to texturing surfaces to enhance the bonding of subsequent layers, such as paint or coatings. It is used where the need for pristine surface conditions to ensure optimal adherence and performance of coatings is paramount such as in the medical sector.

Shot blasting is critical not only for aesthetic improvements but also for functional enhancements of parts. In the medical device industry, it is employed to prepare surfaces of surgical tools and implants, ensuring they are free from contaminants and possess the necessary surface characteristics for safe and effective use. The widespread adoption of shot blasting across diverse medical applications underscores its significant role in enhancing the quality, safety, and performance of products by providing a meticulously prepared surface for further processing and finishing steps.

For medical device and medical component manufacturers, shot blasting can be used to achieve a variety of objectives. 

For example, it is a highly efficient way of rapidly removing residual sand and ceramic layers from workpieces post-casting, employing high-velocity steel or metallic pellets to clean and texture the surface for further finishing processes like painting or coating. This technique not only eliminates potential surface defects and weaknesses, but also enhances the workpiece’s structural integrity through surface compression, increasing its resistance to stress, fatigue, and corrosion. 

Shot blasting also effectively eradicates forging scale and oxide layers that accumulate on workpieces during forging and subsequent heat treatment operations, ensuring a clean and uniform surface, and with the right blast media all kinds of surface imperfections can be eliminated. Even burrs and flashes from die-casting operations can be removed fully automatically at low costs.

Shot blasting tends to leave a matt finish on shiny metallic surfaces, which is especially crucial for instruments and medical equipment used in operating rooms. This finish helps in preventing glare, thereby enhancing the usability and safety of these tools under the bright lights of an operating environment. Subtler and more precision controlled shot blasting techniques are usually employed for such medical instruments. 

Finally, the shot blasting process is perfect for surface texturing or roughening which significantly enhances the surface area of a workpiece, an essential preparatory step for both painting and gluing operations. This increase in surface area ensures that coatings and adhesives have more material to adhere to, resulting in a stronger, more durable bond. The specific roughness values imparted to the workpiece surface can vary widely, depending on the type of blast media employed during the texturing process. From fine sands to coarser grits, each type of media has the potential to create a unique surface profile, tailored to the requirements of the subsequent finishing operation. This customisable aspect of the texturing process allows for a high degree of control over the final appearance and functionality of the medical components in question, making it a critical step in the manufacturing process for ensuring overall quality and longevity of the final product.

SELECTING A FINISHING SUPPLIER

In the specialised domain of medical device production, the selection of a supplier for mass finishing and shot blasting technologies is a critical decision that impacts the quality, safety, and effectiveness of the finished products. For manufacturers, it’s imperative to partner with suppliers who not only possess advanced technological capabilities but also have a deep understanding of the industry’s requirements, a commitment to continuous innovation, and a proven track record of delivering superior results. 

Your chosen supplier should ideally have a long pedigree in the provision of finishing technologies, and a comprehensive technical ability to process a diverse array of materials and component geometries, facilitated by an extensive assortment of machines and abrasive media designed to meet the specific finishing needs of a range of medical devices.

A commitment to research and development plays a pivotal role in maintaining a market-leading position when it comes to producing mass finishing and shot blasting technologies, ensuring that solutions are not just current but also predictive of future industry needs. A supplier with such a demonstrable forward-thinking approach means the provision of efficient, cost-effective, repeatable finishing solutions vital when considering the stringent regulatory environment of the medical industry, where compliance with quality standards is non-negotiable and directly correlates with patient safety and product efficacy.

www.rosler.com

#rosler #manufacturing #requirements #techniques #technologies #equipment

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Pioneering Technologies for Plastics Compounding and Recycling

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Pioneering Technologies for Plastics Compounding and Recycling

At this year’s Chinaplas (23-26 April 2024, National Exhibition and Convention Center (NECC), Hongqiao, Shanghai, PR China) Coperion will present key technologies for processing plastics at Booth F 106 in Hall 2.1. The centerpiece of the exhibits will be the STS 75 Mc PLUS twin screw extruder with its increased specific torque of 13.6 Nm/cm³ which allows the STS extruder to achieve up to 20% more throughput with markedly higher product quality. 

Together, Coperion and Herbold Meckesheim offer operators broad expertise in technology and process solutions for plastics recycling. Since their merger, both companies have continued to develop and optimally attune their technologies so that entire systems excel in operation with extremely high efficiency. At Chinaplas, Coperion and Herbold Meckesheim will display a virtual PET recycling installation. Visitors to the booth can peer inside key components of the recycling installation and see for themselves the process-technical details in each process step and the high efficiency of each component.

Other exhibits at Booth F106 in Hall 2.1 include the Coperion ZSK 26 Mc18 twin screw extruder with a C/S-LW-NT28 twin screw feeder from Colormax Systems, a Coperion K-Tron T35-QC quick change feeder shown with a 2415 vacuum receiver for refilling ingredients, and a K-ML-SFS-KT20 twin screw feeder. In addition, Coperion K-Tron will be introducing the ProRate PLUS line of gravimetric single and twin screw feeders to the Chinese market, showing a  PLUS-S feeder with refill. A CVH 550 high pressure rotary valve for granulates will also be on display. 

STS 75 Mc PLUS: Higher Throughput with Improved Compound Quality

For the STS 75, Coperion has raised the specific torque of the STS twin screw extruder from 11.3 Nm/cm³ to 13.6 Nm/cm³. The compounder thus achieves improved product quality and at the same time up to 20% higher throughput in every application. Critical to this level of performance, along with process-technical modifications, is optimization of the drive’s key components. The new STS 75 Mc PLUS extruder is equipped with a high-power motor and a gearbox designed specifically for the high torque. Proven high-performance materials for the screw shafts ensure full torque transmission from the gearbox to the screw elements. 

The higher fill level in the process section is crucial to the improved compound quality that the STS 75 Mc PLUS achieves. It reduces both shear stress and melt temperature and improves mixing behavior. The result is an extremely gentle product handling at high throughputs. The process section of the STS 75 Mc PLUS is equipped with heating cartridges that generate heat very energy-efficiently exactly where it is needed.

STS extruders combine the advantages of substantially standardized and thus more cost-effective machine construction incorporating Coperion’s technical expertise. In the continued development of the STS 75 Mc PLUS, Coperion has profited from the comprehensive experience gleaned from its high-end ZSK Mc18 extruders. The new STS 75 Mc PLUS’s throughput increase of up to 20% makes it a particularly economical solution. Material costs per kilo drop and return on investment is reached much more quickly. Coperion retained the proven Do😀i = 1.55 ratio of outer to inner screw diameter unchanged, thus ensuring secure scale-up to other STS model sizes.

Complete Plastics Recycling Plants from a Single Source

Coperion and Herbold Meckesheim realize plants for a wide variety of plastics recycling applications, excelling in their reliability and the high product quality they achieve. From mechanical processing – shredding, washing, separating, drying and agglomerating of plastics – to bulk material handling as well as feeding and extrusion all the way to compounding and pelletizing, such plants cover the entire plastics recycling process chain. 

Together, Coperion and Herbold Meckesheim offer solutions for mechanical recycling of post-industrial and post-consumer waste, chemical recycling, solvent-based recycling, and deodorization, tailored to the type of plastic being recycled. 

Coperion K-Tron Feeders for Maximum Flexibility

Coperion will demonstrate its expertise in all feeding tasks at this year’s Chinaplas with its high-accuracy Coperion K-Tron K2-ML-D5-T35 Quick Change feeder equipped with ActiFlow smart bulk solid activator and EPC (Electronic Pressure Compensation). The feeder is equipped with a 2415 vacuum receiver for refill. The T35/S60 quick change feeder (QC) on display is designed for applications requiring quick changeover of materials and convenience of fast cleaning. The QC feeder allows for fast removal of the entire feeding module with screws in place for replacement with a second unit. Twin and single screw feeding modules are available. 

The ActiFlow smart bulk solid activator offers an innovative method to reliably prevent bridging and rat-holing of cohesive bulk materials in stainless steel hoppers without internal hopper agitation. The smart flow aid applies gentle vibrations to the hopper wall, hereby carefully activating the contained material with the optimal amplitude and frequency, automatically adjusted by the controller based on bulk material flow. It is designed specifically to work with Coperion K-Tron’s line of gravimetric loss-in-weight feeders. 

The 2400 Series vacuum receivers provide a high-capacity sequencing system primarily used where larger conveying rates or long distances are required, in applications with one or multiple destinations. They are designed to high quality standards for pneumatically conveying powder, pellets and granular materials for most industries. Conveying rates range from 327 to 6,804 kg/h (720 to 15,000 lb/h). The 2415 pellet receiver will be on display at Chinaplas 2024.

Additionally, Coperion will display the preconfigured size S ProRate PLUS single screw feeder, equipped with a 2410 receiver for refill. This continuous gravimetric feeder is very robust and stands out for its good price-to-performance ratio. The ProRate PLUS line was designed as an especially economical solution for reliably feeding free-flowing bulk materials. Coperion has expanded the ProRate PLUS feeder line with a PLUS-MT twin screw feeder especially for feeding powders.

http://www.coperion.com/

#Coperion #economical #technologies #mechanical #operation #modernplasticsindia #indianplasticmagazine #modernplasticsaward #plasticnews #modernplasticsgermany #ginujoseph #modernplastic #plasticindia  #plasticrecycling #sustainability #modernplasticsglobalnetwork #modernglobalnetwork #modernplasticsaward2024 #plasticmagazine #PlasticIndustry  #modernplasticsmiddleeast #indianmagazine #innovations #modernplasticsamerica #modernplasticsbangladesh #modernplasticsasia #modernplasticsitaly 

Project STOP Marks Further Major Milestones in 2023 and Makes Significant Progress in the Project STOP Banyuwangi Hijau Expansion Program

Project STOP Marks Further Major Milestones in 2023 and Makes Significant Progress in the Project STOP Banyuwangi Hijau Expansion Program

  • Project STOP has significantly impacted three Indonesian locations to date, including the implementation launch of the scale-up program Project STOP Banyuwangi Hijau.
  • As a co-founder of Project STOP, Borealis commits the full funding of the next phase of Project STOP Banyuwangi Hijau.
  • From inception until the end of 2023, Project STOP has provided waste collection to almost 400,000 people, created close to 300 full-time jobs in the waste sector, and collected more than 60,000 metric tons of waste (of which nearly 9,000 metric tons of plastic).
  • City programs in Pasuruan and Jembrana were successfully handed over to local units of governance.
  • In September 2023, Project STOP opened a new material recovery facility (MRF) with a daily processing capacity of 84 metric tons of waste per shift. This facility, located in Songgon Municipality, Banyuwangi, East Java, has started collecting and sorting waste from local households and is already providing access to waste services to more than 13,500 individuals in 12 villages.

Reflecting on the year 2023, Project STOP, co-founded by Borealis and Systemiq, has already marked major milestones and made significant impacts. From the inception of Project STOP to the end of December 2023, around 400,000 individuals gained access to comprehensive waste services through Project STOP. Many of these individuals are now using formal waste collection services for the first time, which is an important step in improving community well-being and environmental sustainability.

Since its inception in 2017, Project STOP, hand-in-hand with its governmental and non-governmental partners, has created almost 300 full-time jobs across all Project STOP locations. These jobs, which support the local economies, vary from waste collection and material sorting to waste system management and administrative roles.

Furthermore, more than 60,000 metric tons of waste, including nearly 9,000 metric tons of plastic, have been successfully collected through Project STOP as of December 2023. This not only stops pollution from entering the environment, but it also shows the program’s direct, tangible contributions to responsible waste management.

Project STOP’s ‘system enabler’ approach entails building the waste management system together with governments at the local level over several years, then stepping back so that the local units of governance can fully operate their own systems. In 2023, Project STOP handed over operations in its second and third cities – Pasuruan and Jembrana – after nearly four years operating on the ground in each location. While Project STOP continues to provide light-touch support to past locations on an as-needed basis, these handovers closed the first phase of Project STOP’s work, which focused on creating programs at a sub-regency level.

The Project STOP scale-up program, Project STOP Banyuwangi Hijau, in the Banyuwangi Regency of East Java, is focusing on the full regency level and shifted into implementation mode by opening a large-scale materials recovery facility (MRF) and launching initial service rollouts. Only three months after its inauguration in September 2023, the facility is already providing access to waste services to more than 13,500 individuals in 12 villages.

The program has built upon a long-standing strategic partnership with the Banyuwangi government, a collaboration highlighted by the direct backing of Ipuk Fiestiandani, the Banyuwangi Regent. She has emphasized the ongoing global waste issue and stressed the imperative need for cooperation among stakeholders to prevent environmental waste leakage. Ipuk has expressed Banyuwangi Regency’s commitment to Project STOP Banyuwangi Hijau, striving for tangible improvements in both environmental health and the well-being of Banyuwangi residents.

“We are very proud to further extend our commitment to Project STOP, striving to provide Indonesia’s first Regency-wide waste management system, enabling access to sustainable waste collection to all residents in Banyuwangi—fully true to our purpose of reinventing essentials for sustainable living,” says Thomas Gangl, Borealis CEO. “Borealis will fully finance the construction of a second material recovery facility under the Project STOP Banyuwangi Hijau expansion and the roll-out of waste services to an additional 250,000 people in the region,” he further adds.

The success of Project STOP can be largely attributed to its meaningful collaborations and close relationships with various Indonesian government bodies, including the Coordinating Ministry for Maritime and Investment Affairs (CMMAI), the National Ministry of Environment and Forestry (MoEF) and the Banyuwangi regency government.

Ultimately, the Project STOP partners are aiming to provide waste collection services to 2 million people, creating over 1,000 jobs and collecting 230,000 metric tons of waste annually, including 25,000 metric tons of plastic.

As noted by Ben Dixon, Partner, Systemiq, “These achievements were only possible through the work of our visionary partners, notably including the government of Indonesia and our strategic partners from across the public, private and nonprofit sectors. We are proud of Project STOP’s accomplishments to date and hope that our efforts can help inspire ever broadening impacts in the future.”

https://www.borealisgroup.com/ 

#borealis # significantly #achievements #reinventing #environmental #Project #modernplasticsindia #indianplasticmagazine #modernplasticsaward #plasticnews #modernplasticsgermany #ginujoseph #modernplastic #plasticindia  #plasticrecycling #sustainability #modernplasticsglobalnetwork #modernglobalnetwork #modernplasticsaward2024 #plasticmagazine #PlasticIndustry  #modernplasticsmiddleeast #indianmagazine #innovations #modernplasticsamerica #modernplasticsbangladesh #modernplasticsasia #modernplasticsitaly

Rajoo Engineers Shapes the Future of Plastics and Packaging at Plastfocus 2024

Rajoo Engineers Shapes the Future of Plastics and Packaging at Plastfocus 2024

 PlastFocus 2024, witnessed a remarkable display of innovation and excellence as Rajoo Engineers Ltd., a trailblazer in plastics and packaging technology, unveiled its latest advancements. With a commitment to pioneering new possibilities towards sustainability while upholding the highest standards of quality, Rajoo set a new benchmark for the industry at this prestigious platform.

RajooEng_Nonafoil- Nine Layer Blown Film Extrusion Line displayed at Plastfocus-2024

At the heart of the exhibit was the much-anticipated launch of India’s First Nonafoil – Nine layer Blown Film Extrusion line, a groundbreaking achievement in the realm of flexible packaging. This cutting-edge technology, with its advanced capabilities, redefines industry standards, enabling producers to achieve unprecedented levels of film performance and recyclability. Running at an impressive 350kg/hr, this line showcased high barrier recyclable film solutions for various applications, from food packaging to thermoformable film, setting a new precedent for excellence in the field. Additionally, the launch of this NONA FOIL 9 Layer co-extruded blown film line demonstrated Rajoo’s commitment to circular economy principles, offering films with less than 5% EVOH while maintaining essential oxygen barrier properties, thus enabling recyclability without compromising barrier properties.

Khushboo Doshi, Managing Director of Rajoo Engineers Ltd, expressed the company’s ethos, stating, “At Rajoo, we are driven by the pursuit of excellence. Our solutions not only elevate performance but also redefine sustainability standards, ensuring a better future for generations to come.”

RajooEng_Lamina rPET – Sheet Extrusion line displayed at Plastfocus-2024

In line with its dedication to sustainability, Rajoo unveiled its rPET sheet extrusion line, which transforms PET bottle flakes into high-quality sheets, effectively closing the loop in plastic production processes. With outputs reaching up to 1400kg/hr, this initiative underscores Rajoo’s commitment to leading the charge in promoting recycled plastics and sustainable practices

Furthermore, attendees experienced Rajoo’s expertise in compounding, with state-of-the-art PVC compounds engineered to enhance a wide range of applications, from medical tubing to electrical cables. By leveraging the latest technologies, Rajoo Engineers ensures unparalleled performance while minimizing environmental impact

PlastFocus 2024 was a testament to Rajoo’s unwavering dedication to excellence and sustainability.

www.rajoo.com

#PlastFocus2024#RajooEngineers#modernplasticsitaly#modernplasticsaward#plasticnews #modernplasticsgermany#ginujoseph#modernplastic#plasticindia#plasticrecycling #sustainability#modernplasticsglobalnetwork#modernglobalnetwork #modernplasticsaward2024#plasticmagazine#PlasticIndustry#modernplasticsmiddleeast #indianmagazine#modernplasticsamerica#modernplasticsbangladesh#modernplasticsasia #modernplasticsitaly

Syensqo at Semicon China 2024 With A Complete Portfolio of Polymer Solutions Advancing Chip Performance

Syensqo at Semicon China 2024 With A Complete Portfolio of Polymer Solutions Advancing Chip Performance

Syensqo, previously part of Solvay Group, will demonstrate its advanced materials and services across all process needs to the semiconductor manufacturing industry at Semicon China 2024. The company portfolio includes a range of solutions that meet current needs for long-term reliability and efficiency in high-performance semiconductor applications, while also paving the way for innovative and sustainable technologies for the future.

Syensqo understands the requirements of China’s semiconductor industry and builds on key investments to support the market,” states Andrew Lau, Senior Executive Vice President of Electronics & Industrial at Syensqo Speciality Polymers Global Business Unit (GBU). “Our wide range of polymers support our customers in their performance targets and in reducing the carbon footprint of critical components, fab infrastructure, process equipment and consumables. Together with our partners in this industry, we are actively working towards carbon neutrality while driving the progress of advanced semiconductor technologies.”

As computing power demand surges, the semiconductor industry is playing a pivotal role in delivering a sustainable, energy efficient future. This requires smarter, more efficient chips to lower energy use and shift towards sustainable manufacturing without compromising on yield. Concurrently, the industry continues to push the boundaries of technology to enhance material properties for improved chemical and plasma resistance, purity, and temperature performance. Syensqo offers specialty polymers for the semiconductors industry that cover all stages of manufacturing from FEOL (front-end-of-line) to BEOL (back-end-of-line), including duct coating, filtration, piping and tubing, wafer handling, lithography and the fab process, as well as assembly, testing and packaging. They have been proven in advanced node designs and can be found in virtually every manufacturing step, such as cleaning, chemical vapor deposition (CVD), dry and wet etching and chemical mechanical polishing (CMP).

Syensqo at Semicon China 2024 with a complete portfolio of polymer solutions advancing chip performance.

The portfolio spans polysulfones and semi-crystalline specialties to fluoroelastomers, all engineered to provide outstanding purity, long-lasting chemical stability, optimized high-temperature resistance and plasma resistance. At the same time, Syensqo continues to invest in responsible manufacturing, has driven the transition to renewable energy at its manufacturing plants, and is creating many renewable and circular material solutions, including several innovative material developments based on recycled and bio-sourced feedstock. This is complemented by a wide range of high-purity, high-quality and consistent process chemicals used primarily in the cleaning and etching stages of chip production.

Syensqo’s research and development in semiconductor technologies is focused on providing sustainable high-performance solutions for next-generation processes in line with the semiconductor manufacturing roadmap. These advanced activities are backed by a state-of-the-art application lab in Shanghai, which is fully equipped to address particular customer specifications and meet local market needs with quick response delivering on the company’s mission to solve the unsolvable in close collaboration with industry partners to create breakthroughs that advance humanity.

www.syensqo.com

#modernplasticsindia #indianplasticmagazine #modernplasticsaward #plasticnews  #modernplasticsgermany#ginujoseph#modernplastic#plasticindia#plasticrecycling #modernplasticsglobalnetwork#modernglobalnetwork#modernplasticsaward2023 #plasticmagazine#PlasticIndustry#modernplasticsmiddleeast#indianmagazine #modernplasticsamerica#modernplasticsbangladesh#modeRnplasticsasia #modernplasticsitaly#Syensqo

“PLASTICS and VDMA Plastics and Rubber Machinery Must Work Together on OPC UA”

“PLASTICS and VDMA Plastics and Rubber Machinery Must Work Together on OPC UA”

Industry interview with Glenn Anderson, Chief Operating Officer at the Plastics Industry Association (PLASTICS) and Thorsten Kuehmann, Managing Director of the Plastics and Rubber Machinery Association at VDMA

This year, the NPE2024 is taking place again for the first time after a six-year covid break. What are your expectations for this event? What is the significance of the trade show for the American/international plastics industry?
Glenn Anderson: It has been six years since we held NPE 2018, because we had to cancel NPE2021 due to Covid, so we have some catching up to do. In this long time, companies in the plastics industry have continued to innovate. It is quite possible that many of them will present not just one innovation, but several. I know from talking to our members and other exhibitors that they can hardly wait to present their technologies at the NPE2024. We are expecting more than 2,100 exhibitors, 700 of whom will be exhibiting at the NPE for the first time. In addition, we are dealing with a changed attendees structure. In view of the changing workforce dynamics, many of the attendees from NPE2018 will no longer attend – mostly for reasons of age. We estimate that over 50 percent of participants will be attending the NPE for the first time. And therefore we must provide content that attracts a newer and younger audience.

What have you changed?
Anderson: The most important task for PLASTICS and for NPE2024 is, of course, to ensure that we have qualified buyers. So that exhibitors can not only present their technologies, but ultimately also sell their goods and services. In addition we are increasingly addressing a younger audience and have therefore added new content to our concept. For example, for the first time there will be over 100 educational events on a wide range of topics. Our aim is to bring the next generation of workers in the plastics industry up to speed so that they are able to pursue a career in the industry.

Thorsten-Kuehmann_VDMA-Plastics-and-Rubber-Machinery

PLASTICS and VDMA Plastics and Rubber Machinery have a common mission at this show: to highlight the benefits of OPC UA for plastics processors. What exactly is OPC UA and why is it so important to promote it?
Thorsten Kuehmann: OPC UA is a technology that enables machine-to-machine communication and data exchange. It is a language that is actually spoken between machines. The OPC Foundation provides the grammar of this language, while we, the community of machine builders, define the words. Both grammar and words must come together for this communication between machines to work. This machine-to-machine communication is completely independent of the manufacturer. It doesn’t matter who they are or where they come from. The communication works in the USA, in India, in Europe, in China, simply everywhere. That is our mission. Everyone has to agree on a system. As machine manufacturers, we do this for our customers. They should no longer have to worry about whether they can connect machines to each other or how they have to do it. It simply has to work for them.

Why is it important for PLASTICS and the VDMA Plastics and Rubber Machinery to work together on technical guidelines?
Anderson: I think the most important reason is that PLASTICS and VDMA share many of the same members. And they all serve the global market. Many US-based customers have plants all over the world. They would definitely be affected by what we’re trying to do: make it easier for a processor to get meaningful data. It is important that we work together to ensure that the international technical guidelines we develop are accepted and applied worldwide.”

OPC UA should become the global language of production. Does the NPE have an influence beyond the American market?
Anderson: It certainly has. Over time, NPE has developed into a major international platform. The relocation of the trade fair to Orlando in Florida also contributes to the fact that many Latin Americans visit the trade fair. We are expecting visitors from 110 countries. And we are estimating that around 30 percent of all visitors will come from outside the United States.

Kuehmann: The increased importance of the NPE is extremely helpful for us. It is exactly the right place to present and publicize OPC UA to a large community. We have representatives from all over the world there. If you have such an international audience in one place, you can address international topics all the better. You can summarize it like this: The international production language meets the international community at a major trade fair like the NPE.

Your mission is to highlight the benefits of OPC UA for the users, the plastics processing companies. Can you give some practical examples?
Kuehmann: A manufacturing company that owns several injection molding machines from different manufacturers can operate them uniformly via one control system with an OPC UA interface. This makes the production process more efficient, and the connection of new machines requires significantly less implementation effort. As an industry, we are facing fundamental changes worldwide that we have to deal with. Energy consumption must be reduced, as must CO2 emissions. We have to use materials efficiently and sparingly and we need cost-effective production. All of this requires very precise system control. The first step towards this is always well-coordinated communication in the system and the handling of control data. OPC UA provides the basis for all of this.

OPC UA also helps in dealing with the important question that Glenn raised at the beginning: the shortage of skilled workers. There is a worldwide shortage of qualified young people. But if you are supplying high-precision machines and cutting-edge technology and there is a shortage of people who can control these systems, then you need digitalization to simplify the system and make it work. OPC UA makes this possible.

www.vdma.org

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SABIC to Demo at OFC 2024 EXTEM Resins Well Suited for Micro-Lens Arrays in Co-Packaged Optics

SABIC to demo at OFC 2024 EXTEM resins well suited for micro-lens arrays in co-packaged optics

SABIC’s EXTEM RH resins support emerging optical technologies by helping enable cost-effective, high-volume production of micro-lens arrays.
SABIC’s EXTEM RH resins overcome drawbacks of traditional glass and thermosets and other thermoplastic resins by maintaining the dimensional and optical tolerances of complex shapes across a broad temperature range

SABIC, a global leader in the chemical industry, will demonstrate at the 2024 Optical Fiber Communication (OFC) Conference and Exhibition the advantages of its Edison Award-winning EXTEM™ RH series resins for production and assembly of micro-lens arrays (MLAs) in commercial onboard and co-packaged optics. Two demonstrators built by Tyndall National Institute and the Chip Integration Technology Center (CITC) will be featured at the SABIC booth (#1204) during the event.

“As data traffic increases exponentially, driven by AI, IoT and 5G technologies, rapid adoption of opto-electronics has become critical for improving data center bandwidth capacity and energy efficiency,” said Scott Fisher, general manager, Technology, SABIC Specialties. “Optical components for applications like co-packaged optics can be difficult, complex and costly to manufacture and assemble at scale. To address this challenge, we developed EXTEM RH resins, which can deliver key performance and processing capabilities for lens arrays. These resins undertake scalability and manufacturability concerns regarding traditional materials, and open new opportunities to advance the state of the art in optical component design, performance and production.”

Supporting Low-loss Expanded Beam Coupling
Development of photonic integrated circuits (PICs) on silicon or other substrates has enabled compact designs with faster data rates. One challenge is the size disparity between the smaller optical mode field of silicon photonic waveguides and larger single-mode optical fibers.

At OFC 2024, SABIC will demonstrate a promising approach to this issue, which leverages expanded-beam optical interfaces in connections. Beam-expanding optical elements, in this case free-form lens arrays, are installed on each side of the optical connector interface to couple the fiber array to larger free-space beams. Use of expanded-beam coupling can relax lateral alignment tolerances and reduce occlusion effects from contamination like dust particles.

The arrays in this model are micro-molded from EXTEM RH resin which has a glass transition temperature of 280°C and can be injection molded into a wide variety of free-form optical lens designs.

This connector assembly, built by Tyndall, will show how SABIC’s material solutions can help improve the integration of individual optical components in these designs, using established optical fiber connection technologies. Visitors will be able to examine the assembly to understand how optical integration is achieved using optically transparent EXTEM resin with the potential to withstand the extreme temperatures of JEDEC Reflow or surface-mount technology (SMT).

Improving Manufacturing Efficiency
Accelerating adoption of emerging optical technologies requires high-volume, streamlined manufacturing of micro-optics with a relatively low per-part cost – a goal that is not achievable using fused silica or glass. In contrast to these traditional materials, EXTEM RH resins offer several ways to improve the scale and cost-efficiency of micro-optics processing and assembly.

First, micro-molding of EXTEM RH resin can deliver millimeter-size components at a scale of millions of parts with high signal integrity and low optical loss. This capability can help drive faster adoption of cutting-edge optical packaging and coupling technologies in data server backplanes, telecommunications switches, supercomputers and network fabrics.

Further, micro-optics molded from EXTEM RH resin can be aligned with the fiber and a PIC by using optically transparent adhesives before the reflow step to simplify the packaging process.

SABIC’s other demonstrator at OFC 2024 will showcase a process developed collaboratively with CITC that uses an alternative interconnect material – nano silver sintering paste – for the alignment of MLAs with the board. It can replace standard epoxy adhesives, which have drawbacks such as lack of long-term stability and CTE mismatches and require UV-transparent lens materials for curing.

In addition, SABIC will demonstrate the use of complex-shaped lens arrays with total internal reflection, enabling a 90-degree bend of the optical coupling between VCSEL/PD and PIC in a standard MT ferrule connector.

Surpassing Traditional Materials
High-heat EXTEM RH resins won a 2023 Edison Award Gold Medal in the Next Generation Manufacturing category. These advanced thermoplastics provide solutions to the drawbacks of traditional materials for MLAs. Unlike glass and thermosets, EXTEM RH resins offer expanded freedom to design complex lens geometries. Micro-molding avoids the need for secondary operations like grinding and polishing, permitting rapid, high-volume production that can drive down costs.

www.sabic.com

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OE-A at LOPEC 2024: Winners of the OE-A Competition and Start-up Competition

OE-A at LOPEC 2024: Winners of the OE-A Competition and Start-up Competition

The demand for sustainable product ideas has grown significantly, as this year’s OE-A Competition clearly shows. The winners of the annual flexible and printed electronics competition and the “LOPEC Start-Up Competition” were announced at LOPEC 2024.

The range of submissions in this OE-A Competition 2024 was wide: From energy-autonomous sensors for tires to muscle sensors for exoskeletons to a fully printed flexible printed circuit board. Companies and institutes from all over the world submitted their latest visions and products in the field of flexible, organic and printed electronics for the OE-A Competition 2024, organized annually by the Organic and Printed Electronics Association (OE-A), a working group within VDMA. The top four entries were awarded at LOPEC 2024, the international exhibition and conference for flexible, organic and printed electronics, March 3-5, in Munich, Germany.

The jury, consisting of representatives from international companies and institutes, evaluated 16 entries in three categories. LOPEC attendees were also able to vote. At the OE-A booth, where all the demonstrators were on display, visitors were encouraged to vote for their favorite product in the category “Public Choice Award”.

The competition challenges the printed electronics industry each year to bring their newest and most promising ideas and products. This year’s OE-A competition featured various cutting-edge products with a strong link to sustainability. “The OE-A Competition is a great opportunity to present fresh ideas to an international audience,” said Dr. Klaus Hecker, Managing Director of the OE-A.” We see a strong drive to improve the sustainability of printed electronics further by developing new materials, and processes”, Klaus Hecker continued.

The awards were officially handed over during the lopec.com LOPEC Award Show to the following winners:

Best Prototype and New Product
Period-after-opening time tracker FLEEP Technologies, IT

Best Freestyle Demonstrator
Integrated de-icing system for wind turbine blades Tekniker, ES

Best Publicly Funded Project
Energy autonomous sensor system for smart tires JOANNEUM RESEARCH, AT

Public Choice Award
3D HMI Automotive EURECAT, ES

Fostering young talents
In addition to the established competition, Henkel AG & Co. KGaA and the OE-A Working Group Education have for the first time launched the “Student Open Innovation Challenge” for graduate and undergraduate students. To bring their ideas to life, the students were provided with the Henkel Sensor Kit, which includes 4 types of printed sensors. “There is a lot of talent at the universities. The winner’s project makes a direct contribution to the issue of caregiving and to easing the burden on caregivers,” explained Klaus Hecker.

Student Open Innovation Challenge
Patient Monitoring System Loughborough University, UK

Save the date April 25 – Web-Seminar
Mark your calendar for the Web-Seminar “Printed Electronics Insights: OE-A Competition 2024 – The Winners” on April 25, 15:30 h CEST. The winners of each category will present their projects online to the community and all those who are interested in the further development of printed electronics.

LOPEC Start-up Competition 2024
As part of the LOPEC Business Conference, the OE-A supports young companies and Startups with the Start-up Competition. “The aim of the Start-up Competition is to bring together partners and investors with young entrepreneurs to support the realization of their business. LOPEC fosters young companies with the opportunity to give a pitch in the Forum and to exhibit in the dedicated Start-up area”, explains Wolfgang Mildner, General Chair of LOPEC. Two awards were presented:

LOPEC Start-up Competition 2024

Best Business Case
Smart window foil to protect buildings from unwanted solar heat AMPERIAL Technologies, DE

Most Impactful Technology/Product
Biofuel Cells – Batteries made sustainable BeFC Bioenzymatic Fuel Cells , FR

Prepare for OE-A Competition 2025
The OE-A Competition 2025 will be launched in June. The competition contributions will be showcased at the OE-A booth during the next LOPEC, which will take place in Munich on February 25-27, 2025.

oe-a.org

lopec.com

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Payment Orchestration: The New Game-Changer in Digital Payments

Payment Orchestration: The New Game-Changer in Digital Payments

In the digital payments ecosystem a relatively new tool has slowly started demonstrating transformational benefits to businesses and merchants as well as consumers in terms of efficiency. A tool that only select payment platform providers have been able to roll out till now which helps businesses to cut transactional costs and downtime while substantially increasing efficiency.

Payment Orchestration is a digital payments tool to streamline and optimize the payment process, which operates between businesses and merchants, allowing businesses to connect to multiple payment service providers to manage transactions and route them to the suitable provider, all within milli seconds. It can simplify and speed up the integration process with payment service providers. Moreover, it provides businesses with a comprehensive view of their payment transactions, making it easier to monitor and manage financial operations.

Businesses typically use half a dozen payment providers, acquirers and banks but they only need one payment orchestration provider, a provider that detects fraud, integrates all payments and does several smart things. This serves as a centralised hub that enables merchants as well as companies to integrate various payment methods, gateways, and providers, even in multiple markets and geographies.

Helps international transactions

The digital economy is no longer bound by geographic or physical constraints. Businesses eyeing international horizons find themselves at a crossroads—either adapt to the multifaceted realm of global payments or remain stagnant. Payment Orchestration works along with seamless cross-border transactions, currency conversions and multiple payment methods efficiently navigating this complex landscape.

Deals with cyber attacks

As India continues to remain vulnerable to cyber threats as against other developed markets, Payment Orchestration fortifies transactions with robust security measures and compliance protocols. The complexity of navigating global financial regulations and protecting against fraud is vastly simplified through these platforms, shielding businesses from potential financial and reputational damage. This is not merely a benefit but a shield in the modern digital battlefield, where security and compliance are non-negotiable.

Consumer behavioural insights

The next level of orchestration will open up a new world of consumer behaviours especially within a given set of parameters including location. For large, multi-business organizations, offering more than operational efficiency—it unveils a path to deeply understanding customer payment behaviours. For instance, a large shopping mall in Lucknow can offer cross-selling opportunities within its tenants, a leading global credit card network has already started a campaign in Kempe Gowda International Airport at Bangalore offering loyalty program across the airport, agnostic of merchants and location. This consolidation of payment data across diverse platforms provides a foundation for crafting targeted, insightful marketing campaigns. This not only enhances customer loyalty but also helps in nurturing the engagement, which transcends the tool’s functional role, thereby becoming a catalyst for a digital-first economy.

And most of these sophisticated complex solutions are backed by artificial intelligence (AI) algorithms that examine large databases to identify fraudulent activity, AI-powered predictive analytics as well as user experiences.

Payment orchestration platform market was valued at USD 1.13 billion in 2022 and is expected to grow annually at 24.16%. Led globally by Adyen, Stripe and Braintree the market is poised to touch USD 7 billion by 2032, according to a report in Techcrunch.

Synopsis:

A leading global credit card network has recently started a sales and marketing campaign in Kempe Gowda International Airport at Bangalore offering loyalty program across the airport, agnostic of merchants and location. In the digital payments ecosystem, a relatively new tool currently rolled out by select payment platform providers, has slowly started demonstrating transformational benefits to businesses and merchants as well as consumers in terms of efficiency. A tool that helps businesses to cut transactional costs and downtime while substantially increasing efficiency.

https://www.payphi.com/

#payphi  #payments  #consumers  #substantially  #merchants  #marketing 

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