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Krones Opens Another R&D Center for Ideas of the Future

Krones Opens Another R&D Center for Ideas of the Future

  • Krones has opened another center of
  • A new Process Technology Center was inaugurated in early May at the company’s headquarters in Neutraubling.
  • In the Process Technology Center, customers can take their products to a new level, using ultra-small production batches to develop, compare and optimise recipes, processes and parameters.

Just a few years ago, Krones’ subsidiary Steinecker opened a technology center in Freising where customers can create and test recipes for beer and plant-based drinks. Now, the group is setting another important milestone in the evolution of beverages and processes. In early May, at the company’s headquarters in Neutraubling, a fully-equipped R&D lab was officially inaugurated and dubbed the “Process Technology Center”.

The new Process Technology Center is designed to support Krones customers in their product development processes and meet the flavour demands of the global markets. It makes no difference whether the customer already has a finished recipe for a future product or is still at the start of the product development journey and would like to leverage Krones’ expertise for those first steps.

Krones itself will use the new technology center to more closely analyse the effects of various process parameters on different products. The results will then go into further developing and refining Krones machines and lines.

Expertise for process technology and water design

The technology center is divided into two sections: process technology and water design. On the process technology side, various process and treatment steps can be realistically simulated on a pilot UHT system. That makes it possible, for example, to compare the thermal impact of indirect heating using a shell-and-tube heat exchanger versus direct heating. For this, customers can choose between two processes: steam injection and steam infusion. For other trials, the facility is also equipped with systems for mixing, flash pasteurisation, deaeration, homogenisation and filling. The results are then evaluated in-house, for example in Krones’ own microbiological and chemical testing labs.

Optimising the flavour profile of water

In the field of water design, customers can fine-tune the flavour of their water by adding just the right amounts of minerals and flavour compounds. The technological possibilities include deaeration, carbonation, electrodeionisation, ionisation, mineral dosing and filling.

A water sommelier provides support throughout the trials. Customers also have access to Krones’ extensive network of experts, with engineers in a variety of disciplines, including food and process engineering, to collaborate on transforming product ideas into real products.

www.krones.com

 

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Sidel Showcases Its Complete Line Solutions at Saudi Print & Pack 2023 for the First Time

Sidel Showcases Its Complete Line Solutions at Saudi Print & Pack 2023 for the First Time

Sidel, a leading global provider of packaging solutions for beverage, food, home, and personal care products in PET, can, glass, and other materials, will be attending Saudi Print & Pack 2023 from 12-15 June.

Visitors to Sidel’s stand in hall 4, booth 4A-404, at the Riyadh International Convention & Exhibition Centre in Saudi Arabia, will learn about Sidel’s best-in-class equipment, extensive expertise, and references across the region.

Throughout the event, Sidel will be highlighting its complete line solutions for the packaging of products within the water, carbonated soft drinks (CSD), juice, nectar, soft drinks, isotonics, teas (JNSDIT), liquid dairy products (LDP), and food, home and personal care products. Those in attendance will learn how Sidel’s leading packaging equipment has the potential to shorten lead times for customers, enabling new products and formats to be taken to market quickly in line with changing consumer demands. Visitors will also discover Sidel’s award-winning packaging design and innovative digital solutions which ensure the highest levels of efficiency and sustainability. Beyond these topics, Sidel will also deliver insight into its services which guarantee and improve performance throughout a solution’s lifecycle, offering optimum flexibility and reliability to maximise equipment uptime.

With many reference installations across the Middle East, such as Health Water Bottling Company, Oman Refreshment Company, and Mai Dubai, visitors to the stand will be able to see Sidel’s technology in action, including the fastest PET complete line in MENA, through a film demonstration of the 86,000 bottle-per-hour (bph) Super Combi solution at UAE-based company Mai Dubai. Sidel has also established a strategic alliance with automated and integrated intralogistics solutions specialists E80 Group. This partnership, in turn, provides expertise in inbound packaging, warehousing, and logistics to provide complete support to customers.

“Sidel’s leading equipment, coupled with its extensive expertise, is already being utilised to great success by manufacturers within the food, beverage, and home and personal care markets across the Middle East,” said Vedat Guler, Sales Director Middle East, Sidel. “As the Kingdom of Saudi Arabia continues to grow, Sidel is perfectly placed, and ready, to serve the market and support regional brands.”

Saudi Print & Pack 2023 is the largest annual event in Saudi Arabia, bringing innovation and sustainability to the plastics and petrochemicals industry in the Kingdom for the 18th year. As the economic hub for the entire region, distinguished by the development of specialist sectors including oil, energy, medicine, and information technology, Sidel is focused on highlighting how its equipment, expertise, and services can support the economy’s diversification via its local food, beverage, and home and personal care manufacturers.

 

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The Plastics Economy of the Future Will Be More Circular Than Ever, Agree Speakers at the 12th GPCA Plastics Conference

The Plastics Economy of the Future Will Be More Circular Than Ever, Agree Speakers at the 12th GPCA Plastics Conference

The plastics economy of the future will be more circular than ever, agreed speakers at the Gulf Petrochemicals and Chemicals Association (GPCA) Plastics Conference taking place in Al Khobar, Saudi Arabia from 14 to 15 May 2023. Now in its 12th edition, the conference is being held under the theme ‘Investing in New Value Creation: A Sustainable Transformation’.

To win in the plastic economy, GCC countries must create global closed loop supply chains and material marketplaces. They must invest significantly to build world-scale recycling infrastructure, acquire circular or recycling assets and supply chain capabilities, and focus on customer driven sustainability initiatives. Finally, regional economies must continue to proactively shape global and regional standards and policies in order to build a regulatory environment that supports the circular economy, speakers said.

GCC countries have the untapped potential to develop the plastic recycling industry – both mechanical and chemical recycling – and can reap significant socio-economic benefits, with plastic recycling estimated to create around 1,500 direct jobs and have a USD 650 million GDP impact 1 per metric ton. Advanced recycling technologies are providing solutions that serve the dual objective of regulators and customers for greenhouse gas (GHG) abatement.

Policies and advanced technologies will be at the heart of setting the framework for economics and successful circular business models, speakers agreed. Increased plastics “policymaking” and goal setting by stakeholders will help in the push towards a circular economy. At the same time, supporting policy and accelerated scaling of assets will be needed to drive change and address trade-offs to carbon emissions.

Setting the scene on day one was Khalid Sultan Al-Kuwari, CEO, Q-Chem and Vice-Chairman, Plastics Committee, GPCA, during the welcome address at the conference. His speech was followed by an inaugural address by Eng. Ali bin Saeed Al-Ghamdi, CEO, National Center for Environmental Compliance, titled ‘The road ahead – Towards an implementable international instrument on plastic pollution’. A strategic panel featuring Harith Al-Qurtas, Chief Advisor, Ministry of Industry and Mineral Resources, Saudi Arabia, and Martyn Tickner, Chief Advisor,
Circular Solutions, Alliance to End Plastic Waste, discussed the holistic approach needed to build global plastic governance.

Delegates will return for another jam-packed conference program tomorrow to hear from Nadia Al Hajji, CEO, PIC and Vice-Chairman, Plastics Committee, GPCA, who will deliver the opening remarks, as well as some of the industry’s leading authorities about the macroeconomic trends and their impact on the plastic industry.

Dr. Abdulwahab Al-Sadoun, Secretary General, GPCA, commented: “The GCC region is currently among the least affected regions by plastic pollution in the world and with low levels of municipal plastic waste volume. Nevertheless, the region is home to significant hydrocarbon reserves and is a major producer and exporter of petrochemicals that are used to produce plastic. As such, the GCC countries have a responsibility to take action to address the negative implications of plastic waste and pollution, both domestically and globally.

“The 12th GPCA Plastics Conference opens its doors in Saudi Arabia today to facilitate knowledge sharing and meaningful discussion on how the region can advance action on plastic waste management. Moving to a circular economy will require an enormous effort, collaboration, infrastructure investment and advanced technology adoption, but most of all it will require a culture shift from our existing take-make-dispose approach to a more circular economic and business model that lays the foundations for a more sustainable future for our industry, our communities and the planet.”

Later this afternoon, the conference will host the CIRCUL-A-THON challenge launched by SABIC and Plug and Play to engage with creative and visionary designers in the quest to find solutions facing the future of circularity. The challenge focuses on industrial designs for real-life products having ease of reuse and recyclability of plastics throughout their life cycles.

To learn more, please visit: https://gpcaplastics.com/

 

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BASF’s Coatings Division Appoints Heads for Global Business Units

BASF’s Coatings Division Appoints Heads for Global Business Units

Effective August 1, 2023, the Coatings division of BASF will implement global units for its Automotive OEM Coatings Solutions and Automotive Refinish Coatings Solutions businesses. With the new organizational setup, BASF better serves its global customers who increasingly ask for global support and services.

Patrick Zheng Yu Zhao will take charge of the new Global Automotive OEM Coatings Solutions business unit, based in Hong Kong. Prior to this role, he was Senior Vice President at Coatings Solutions Asia Pacific. Zhao started his career atBASF in 1999 within the Polyurethane business and held various positions across different divisions. He has an MBA degree from Donghua University and a bachelor’s degree in Polymer Science from East China University of Science and Technology.

Chris Titmarsh will assume responsibility for the new Global Automotive Refinish Coatings Solutions business unit, located in Münster, Germany. Most recently, he was Senior Vice President Automotive Refinish Coatings Solutions EMEA, based in Germany. Titmarsh studied Chemistry from 1992 and completed his postgraduate studies of Business Management in 1999. In 2006, he started his career at BASF as a polymer research chemist. He held various positions in marketing and business management before moving to the Asia Pacific Automotive business located in Hong Kong in 2015.

Frank Naber will assume responsibility for the Global Surface Treatment business unit, which operates under the Chemetall brand, in Frankfurt, Germany. In this position, he succeeds Christophe Cazabeau who will prepare for a new assignment.

Prior to this role, Naber was Senior Vice President at Automotive OEM Coatings Solutions EMEA. He studied business administration at the University of Münster and began his career at BASF in 2004. He worked in various regional and global roles in the Polyurethane division in Germany and Belgium. In 2012, Naber joined the Coatings division, where he took on various account and business management functions in the Automotive OEM Coatings business unit in Münster and Hong Kong.

www.basf-coatings.com.

 

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Bunting at Plastics Recycling World Expo 2023

Bunting at Plastics Recycling World Expo 2023

The effective separation of ferrous and non-ferrous metal is a key stage in the successful recycling of plastic and plastic containers. On stand B929 at the Plastics Recycling World Expo Europe (14-15 June, Messe Essen, Germany), Bunting is displaying and discussing proven metal separation technology including FF Drawer Filter Magnets and Eddy Current Separators.

Bunting is one of the world’s leading designers and manufacturers of magnetic separators, eddy current separators, metal detectors and electrostatic separators. The Bunting European manufacturing facilities are in Redditch, just outside Birmingham, and Berkhamsted, both in the United Kingdom.

The Plastics Recycling World Expo brings together professionals from across the plastics recycling industry for two days of networking, knowledge sharing, and innovation. The two-day program of technical presentations, seminars, and industry debates is supported by an exhibition showcasing technology developed by leading companies in the plastic recycling industry.

Secondary plastic, whether post-consumer or generated internally, commonly contains metal contamination. Such metal damages equipment such as granulators, extruders and injection moulding machines. Bunting has developed a wide range of equipment to detect and separate such metal and prevent costly wear and repairs.

Magnetic separators attract and separate ferrous metals, with a range of designs tosuit specific installations and applications. The FF Drawer Filter Magnet is an industry standard for the plastics sector, featuring ultra-strong Neodymium Tube Magnets, mounted in a grid formation, to attract and securely hold even the smallest and weakest magnetic particles. These are easily installed above injection moulding machines and prior to granulators.

Drum Magnets and the HISC or SSSC Separators, also featuring ultra-strong Neodymium magnets, continually and automatically remove ferrous metal from shredded or granulated plastic waste. Such separators commonly operate in conjunction with Eddy Current Separators, which separate large and small non-ferrous metals such as aluminium. The Bunting range of Eddy Current Separators includes designs focused on separating small, millimetre-sized non-ferrous metals.

Whilst magnetic separators separate the bulk of metal contamination, metal detectors focus on finding and removing lower levels of smaller metal contamination. The quickTRON range of gravity free-fall metal detectors detect and separate metal present in granulated plastic, often directly after the FF Drawer Filter Magnet as seen in Metal Cleaning Systems. Pipeline Style Metal Separators (pTRON) detect and then reject any kind of metal from an enclosed pipe system.

Recent projects include the installation of a Metal Separation Module (Drum Magnet and Eddy Current Separator) at HML Recycling (Accrington, UK) for a new line recycling perfume bottle tops. The shredded plastic tops are contaminated by ferrous and non-ferrous metal, which is separated on the module.

“The Plastics Recycling World Expo brings together all the leading plastics recyclers and equipment suppliers,” said Bradley Greenwood, Bunting’s European Sales Manager. “Discussing the metal contamination problems experienced by recyclers helps us understand the challenges and either propose or develop metal separation solutions.”

Drum Magnet and Eddy Current Separator Module at HML Recycling

 

www.bunting-redditch.com

 

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Micrometal Shows Power of Next Generation Photo-Chemical Etching Making an Opthalmic Blade

Micrometal Shows Power of Next Generation Photo-Chemical Etching Making an Opthalmic Blade

Leading photo-chemical etching (PCE) innovator, micrometal, is pleased to be able to demonstrate the power of its next generation precision metal processing technology following some recent work with a manufacturer of opthalmic devices incorporating surgical blades.

PCE offers several specific advantages when it comes to manufacturing intricate blades for eye surgery. Firstly, it allows for the creation of extremely precise and intricate blade designs with sharp edges and tight tolerances, ensuring the highest level of accuracy and consistency during surgery. This is particularly important for eye surgery, where even small variations in blade design can have a significant impact on patient outcomes.

Secondly, PCE can produce very thin blades, down to a few microns in thickness, which are required for many types of eye surgeries. These blades can be manufactured with no burrs or rough edges, ensuring smooth and precise cutting.

In addition, the PCE process is a chemical, non-contact process, which means that there is no physical force applied to the metal during manufacturing, reducing the risk of deformation or damage to the blade. This is particularly important when working with thin, delicate blades that require extreme precision.

Jochen Kern, Head of Sales and Marketing at micrometal says, “For manufacturers of intricate metal parts and components, choosing the right technology is crucial to ensure high-quality, accurate, and cost-effective production. micrometal’s next generation PCE process stands out as the go-to technology for several reasons, first and foremost because it offers unparalleled precision, enabling the creation of geometrically complex designs and shapes with tight tolerances that would be difficult or impossible to achieve with traditional
manufacturing techniques. Additionally, PCE is highly versatile, allowing for the production of a wide range of metal types and thicknesses, and is relatively fast and cost-effective, with low tooling costs and short lead times and parts produced with no stress of burrs.”

micrometal has taken what is already a precise technology in PCE and enhanced it. The company’s process advantages mean that very small feature sizes of 25 microns can be produced, it can achieve a minimum hole diameter 80% of the material thickness, and single digit micron tolerances are attainable repeatably. It was this that attracted the ophthalmic device manufacturer which was specifically looking to make a surgical device and system for extremely delicate eye surgery for the removal of cataracts and vision correction. The blade is used to pierce the lens tissue of the eye with minimal tissue damage to aid better healing, allowing either mechanical removal of tissue or correction of internal eye features.

Kern continues, “We worked hard to achieve the extremely exacting tolerances that the ophthalmic device manufacturer required. The customer stated that our etched blades were the sharpest they had ever seen. PCE produces a very smooth and sharp cutting edge compared to conventional mechanical grinding of similar blades. Under a microscope, mechanically sharpened edges show fracturing and rough edges due to process issues and ‘brittle’ material conditions from work-hardening. micrometal’s combination of liquid photoresist and high-resolution tooling produces an extremely sharp cutting edge that does not ‘tear’ tissue.”

micrometal’s next generation PCE process uses a unique and patented wet paint etching system, the coating being 2 – 8 microns thick as opposed to traditional dry PCE coating which are 10 – 50 microns thick. Liquid photo-resist is more suitable for high precision production scenarios and results in higher reproduction accuracy.

micrometal’s high-resolution glass photomask tools are printed at 100,000 dpi, providing superior reproduction and resolution than film photo-tooling used in conventional chemical etching processes. The use of photo-tooling created on glass means the company can cater for applications such as the ophthalmic blade discussed that require extreme precision which traditional PCE cannot achieve. Glass photo tooling can attain tolerances in the range of 1-2 microns (and hole tolerances of < 1 micron can be achieved), and negates issues with distortion due to environmental factors such as humidity that are a constant problem when using film tooling.

www.micrometal.de

 

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Esmito attains AIS156 Phase 2 Certification for L3 and L5 Category Batteries

Esmito attains AIS156 Phase 2 Certification for L3 and L5 Category Batteries

  • The AIS Phase 2 certification emphasizes Esmito’s compliance with Indian automotive industry regulations
  • The attainment of this prestigious certification opens doors to expansion and growth opportunities within the Indian EV market for Esmito
  • Esmito establishes itself as a reliable and capable partner, leading to new business prospects and potential joint ventures

Esmito, a leading provider of energy solutions for electric vehicles (EVs), proudly announces the successful acquisition of the highly coveted AIS156 Phase 2 certification for their L3 and L5 category batteries. This achievement further solidifies Esmito’s unwavering commitment to delivering high-quality, reliable, and compliant energy solutions in the EV industry.

The AIS156 Phase 2 certification represents an exhaustive testing and evaluation process that ensures strict compliance with safety and performance standards, specifically focusing on automotive components, particularly batteries. This certification is a vital requirement for EV manufacturers operating within India. Esmito has successfully completed the meticulous certification process for their L3 and L5 category batteries, which serves as a testament to their dedication to maintaining the highest standards of quality and safety.

Commenting on this milestone, Hasan Ali, Co-founder, Esmito, says, “This certification is going to be a significant step in making us one of the larger organized players in EV Batteries ecosystem. Esmito has multiple models of EV Batteries across the 48 to 72V spectrum and such certifications help to bolster customer confidence at a time when the industry is just starting to grow exponentially.”

The acquisition of this certification holds paramount importance for Esmito and the entire industry. Firstly, the certification guarantees the utmost safety of Esmito’s batteries, instilling confidence in customers, EV users, and the public. Through rigorous testing procedures and unwavering adherence to safety standards, Esmito ensures that their batteries meet all necessary regulatory requirements.

Secondly, the AIS Phase 2 certification emphasizes Esmito’s compliance with Indian automotive industry regulations, solidifying their reputation as a responsible and law-abiding entity. By surpassing the stringent criteria set forth by regulatory bodies, Esmito demonstrates its commitment to upholding the highest quality and safety standards.

Furthermore, the certification enhances Esmito’s market credibility and differentiates them from its competitors. Customers seeking reliable and safe battery solutions for their EVs can place their trust in Esmito’s certified L3 and L5 category batteries. The certification strengthens customer satisfaction, fosters brand loyalty, and provides Esmito with a competitive advantage in the rapidly growing EV market.

The acquisition of the AIS Phase 2 certification propels Esmito into a promising future, opening doors to expansion and growth opportunities within the Indian EV market. As customers increasingly prioritize safety and regulatory compliance, Esmito’s certified batteries position the company as a trusted provider in the industry. By meeting the rigorous requirements of AIS Phase 2, Esmito establishes itself as a reliable and capable partner, paving the way for new business prospects and potential joint ventures.

Moreover, the certification aligns Esmito with the government’s emphasis on sustainable mobility solutions. The Indian auto sales for L3 and L5 category vehicles have witnessed remarkable growth in recent years. As the demand for electric vehicles (EVs) continues to surge, these categories have emerged as significant contributors to the overall sales figures. The availability of affordable and technologically advanced EV models in the L3 and L5 categories has played a crucial role in driving this growth. Government incentives and favourable policies supporting EV adoption have further fueled the sales momentum. Furthermore, improved charging infrastructure, extended driving ranges, and enhanced battery performance have successfully addressed concerns related to EVs’ practicality and range anxiety.

Esmito’s successful acquisition of the AIS Phase 2 certification for their L3 and L5 category batteries exemplifies their dedication to safety, compliance, and superior battery solutions. By meeting the stringent standards set by regulatory authorities, Esmito assures customers of their commitment to delivering products of exceptional quality and reliability. This certification grants Esmito a competitive edge, enhances their market credibility, and positions them for an exponential growth in the thriving Indian EV market. With this achievement, Esmito is poised to make a significant impact on the future of sustainable transportation, actively supporting India’s transition to a greener and more sustainable future.

www.esmito.com

 

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Acquisition of 3DPRINTUK by Solid Solutions Expands Service Offering for Clients

Acquisition of 3DPRINTUK by Solid Solutions Expands Service Offering for Clients

It was announced today that leading 3D printing service supplier, 3DPRINTUK, has been acquired by Solid Solutions and will become part of the TriMech Group. The acquisition significantly augments 3DPRINTUK’s service offering and allows it to benefit from the resources of a bigger company as it continues to serve its UK customer base.

Nick Allen, CEO at 3DPRINTUK says, “We’re thrilled about the acquisition. For over a decade, the team at 3DPRINTUK has been committed to providing exceptional service to our customers. Throughout the years, we’ve grown organically, expanded our range of services, remained cost-competitive, and set a high standard for the quality of our 3D printed parts. Those who have followed us closely can attest to our consistent investment in technology and personnel, always with the goal of optimising customer outcomes. Joining forces with Solid Solutions is the natural next step, as it will accelerate our growth potential, broaden and enhance our services for our customers, and enable them to benefit from the expertise and resources of a larger group of companies.”

3DPRINTUK, founded in 2011, is a specialist in low-volume production using SLS (selective laser sintering) and MJF (multi-jet fusion) additive manufacturing (AM) systems, along with a range of post-processing capabilities. The company bridges the gap between prototype and injection moulding for clients spanning a range of sectors, from consumer products to marine and aerospace.

Solid Solutions is a UK-based technology and business solution partner for design engineers and manufacturers which was acquired by TriMech in 2022. The acquisition of 3DPRINTUK demonstrates that Solid Solutions continues to focus on building a comprehensive set of services to help support customers from design to production, its overall strategy since the TriMech acquisition being to expand and diversify service offerings.

Alan Sampson, TriMech’s Group CEO says, “Clients are seeking more depth of expertise and a single technology partner who can advise and guide them, while providing products and services that influence all aspects of their business. Professional, reliable services fill clients’ gaps quickly and keep their work on track. Adding 3DPRINTUK alongside other sympathetic acquisitions enhances our ability to always bring the right mix of tools to the job.”

Earlier in 2023, Solid Solutions acquired recruitment specialists Solid People and Solid Print 3D, a reseller of workbench manufacturing solutions. At the same time as 3DPRINTUK also acquired GRM Consulting, which provides design optimisation services. All acquisitions enhance Solid Solutions position as a best-in-class partner to the advanced design, engineering, and manufacturing sectors across the globe.

Allen continues, “One of the most important outcomes of the Solid Solution acquisition is that 3DPRINTUK will maintain business as usual with our current management and staff. We now have the resources to significantly enhance and expand our services. The move aligns with our goal to provide optimal service and remain the go-to resource for our customers for 3D printing endeavours. We all feel very comfortable that working with Solid Solutions helps us to achieve our goals for our customers efficiently and timely.”

3DPRINTUK will serve as the dedicated 3D printing service team for the TriMech Group in the UK. The company will also be able to collaborate moving forward with TriMech’s advanced manufacturing services experts in North America, and to work internationally to deploy best practices and emerging technologies for its customers.

www.3dprint-uk.com

 

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The Challenges of Boomerang Projects in Micro Molding: A Customer Perspective

The Challenges of Boomerang Projects in Micro Molding: A Customer Perspective

INTRODUCTION 

In the world of micro molding, where precision and efficiency are paramount, the concept of boomerang projects can present significant challenges for both customers and micro molders.

Traditionally, boomerang projects in this context refer to situations where a customer’s project returns to the micro molding company for rework or modifications. These projects “boomerang” back to the manufacturer due to various reasons, such as design changes, quality issues, or unforeseen challenges during the manufacturing process. Instead of progressing smoothly from concept to completion, these projects require additional attention and adjustments before they can be finalized.

However, in our experience at Accumold, it is projects undertaken by alternative micro molders that end up boomeranging back to us, as customers seek an expert organization that can dig their project out of a hole, a hole that their originally selected micro molder does not have the wherewithal to extricate themselves from.

This can be extremely costly for the micro molding customer, but I am happy to give you a road map which will detail your route to market avoiding elephant traps along the way.

LIKE A BOOMERANG, ITS GONNA COME BACK

First of all, let’s look in more detail at why a project may “boomerang.”

Well, most obviously as already mentioned, there may need to be design changes. Customers may realize the need for design modifications after the initial manufacturing process has begun. These changes could be out of their or the micro molder’s ability to foresee (for example as a result of new requirements or regulations), but more often than not they are because the customer requires improved functionality, or design flaws are discovered during the production stages. Or simply it may be that designs are just impossible to mold successfully.

As a result, the project boomerangs for adjustments to the mold, tooling, or other manufacturing aspects.

In some cases, boomerang projects are caused by quality issues that are identified during quality control checks or customer inspections. If the product does not meet the specified quality standards, it may be necessary to rework it or to address the underlying manufacturing issues.

Boomerang projects can also arise due to material-related challenges or unexpected complications during the production process. Issues such as material shrinkage, warping, or difficulty in achieving the desired tolerances may require the project to be returned for adjustments or alternative manufacturing techniques.

Poor communication or incomplete information between the customer and the micro molder can also lead to boomeranging. If the project requirements, specifications, or changes are not effectively communicated or documented, it can result in misunderstandings or misalignment between the customer’s expectations and the manufacturing process.

How can all these pitfalls be avoided, you may ask? Well, “the answer my friend is blowin’ in the wind”.

You need to nurture a partnership with your chosen micro molder as close to design conception as possible, have a laser focus on design for micro molding (DfMM), and stimulate an air of collaboration in product development.

Efficient communication, proactive expectation management, and a collaborative approach are vital to mitigate the occurrence of boomerang projects. By fostering a strong working relationship, customers and micro molders can work together to minimize the need for project returns and ensure smoother and more successful manufacturing processes.

Oh, and of course, it does help to select a best-in-class micro molder from the get go. I will give you an insight into how to do this later.

BOOMERANGS CAN BE COSTLY

Here is a scenario that I am all too familiar with. For the sake of this article we will call it a boomerang RFQ (request for quote).

A customer comes to Accumold requesting a quote on a tight tolerance micro molding project, or a micro-sized or micro featured component. Post-quote, the customer goes somewhere else for prototype or production tooling and/or parts. The alternative micro molder fails to fulfil the project satisfactorily — perhaps unable to make the part, hold the required tolerance, or unable to scale in production. The customer comes back to us asking if our original quote is still good.

Immediate customer implications are compellingly dire.

A knee jerk attraction to go with the lowest quote means paying for non-recurring engineering (NRE) costs twice. The low cost quote may be because the alternative micro molder does not have the assets in place to undertake a true micro molding project (micro molding is not just molding but smaller), and it may not be vertically integrated, a vital pre-requisite for micro molding success. Success is predicated on looking beyond the quoted cost and instead focussing on the values, experience, capabilities and assets the micro molder can bring to a customer project.

Delays are another obvious consequence. Not just because the starting pistol sounded some time ago, and now the customer is back at the starting line, but also because the RFQ process typically has to start again.

And the apocalyptic consequence? The project is scrapped or dumbed down and the new innovative technology the customer was seeking never sees the light of day.

AVOIDING PITFALLS

When you need to produce precision micro plastic parts, you will necessarily begin to approach specialist molding companies, and most likely the ones that brand themselves as micro molders. So the success of a micro molding related product development program, and the way to avoid boomeranging is primarily a lesson in supplier selection. Customers need to realise that their chosen micro molding partner is not just a job shop that produces miniature plastic parts.

Also, not all micro molders are the same, despite outward appearances. Best-in-class micro molders are companies with in-depth design experience, material expertise, tooling expertise, validation expertise, and of course production and assembly expertise. This combination of capabilities coupled with decades of expertise and knowledge is 99% of the battle when it comes to cost-effective, timely, and efficient micro product development.

DfMM & SUPPLIER SELECTION – THE KEY TO RIGHT FIRST TIME

Perhaps the most fundamental key to success and way to avoid boomeranging is a firm grasp of Design for Micro Manufacturing (DfMM).

In a very real way, a micro plastic part manufacturer is so much more than a company that sells small plastic parts, and instead should be seen as a company that sells Design for Micro Molding (DfMM). The plastic parts are the end result, but the engine for success is ensuring that the design of the part is optimized, tooling is optimized, it can be made efficiently, it can be measured effectively, and if necessary it can be automatically assembled.

As such, your chosen supplier must be vertically integrated, with all stages of the product development process being considered in early customer / supplier collaborative design meetings, and teams of experienced experts being able to influence the ultimate success of a project.

Fundamental to the success of the production of micro plastic parts is tolerance attainment. As such, product development is all about risk mitigation, ensuring that tolerance “drift” is managed and kept within the parameters that ensure integrity of end-use parts and components.

So saying, the focus is on control, and to fully control the development of a product from initial design to final automated assembly all expertise and technology used must be under one roof. A fundamental question from the get-go is to ask whether your chosen supply partner can offer in-house design expertise and material assistance, micro tooling fabrication (vital), micro molding (and micro additive manufacturing) technologies, validation, and automated assembly.

Another important aspect of successful product development is scalability. In terms of production, is the infrastructure big enough to support volume requirements over an extended period of time? You see, some customers require millions and millions of parts with a continuity of supply running over years. Put quite simply, without the space to accommodate this scale of supply and the associated manufacturing cells, then your chosen partner may be found wanting.

Another key to success is the relationship you have with your chosen supplier which ideally should be a true product development partnership, and this demands a healthy client supplier relationship. You want to remain in touch, involved, and influencing outcomes, not just handing over control to your chosen micro plastic part expert who holds all the secret sauce. Yes, you are working with your chosen partner as they have the expertise, capabilities, scalability, and sustainability to see your project through. But you must insist upon —  and see evidence of — collaboration and transparency in client supplier dealings.

Your chosen micro molder should have a solutions-oriented focus, and a demonstrable reputation in the various industry sectors for high quality, timely, and cost-effective results.

SLINGSHOTS BEAT BOOMERANGS

The achievement of — for want of a better phrase — a slingshot project rather than a boomerang project boils down almost entirely to supplier selection, and fundamentally the key to success in supplier selection is to see evidence. Claims are easily made, but when you seek evidence of experience, longevity, vertical integration, capability, scalability, and sustainability, it is a little harder to perfume the rose. Don’t be shy about asking questions, and where possible, visit your shortlisted suppliers. You are about to embark on a project that may cost hundreds of thousands of dollars, so scrutiny is essential and should be welcomed by your product development partner. You owe it to yourself to avoid paying for your product development twice!

www.accu-mold.com

 

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AM Post-Processing: Benchmarking Alternative Technologies

AM Post-Processing: Benchmarking Alternative Technologies

Colin Spellacy, Head of Sales, AM Solutions UK

Additive manufacturing (AM) has been a game-changer in the manufacturing landscape, offering unparalleled design freedom, material efficiency, and rapid production times. Despite these advantages, post-processing remains a critical aspect of ensuring the desired surface finish, accuracy, and functionality of AM parts. With a variety of post-processing technologies available, it is essential to understand their capabilities and limitations. In this article, we will benchmark different post-processing technologies and explain why mass finishing technologies are the best fit and the most efficient solution.

AN OVERVIEW

Post-processing encompasses various techniques to improve the surface quality, dimensional accuracy, and mechanical properties of printed parts. There are four common post-processing technologies: hand finishing; CNC machining; chemical finishing; and mass finishing technologies

Hand Finishing. Hand finishing is a traditional AM post-processing method that involves manual sanding, grinding, and polishing to achieve the desired surface finish. The key advantages of hand finishing include the ability to achieve precise, custom finishes that may be difficult to achieve with automated methods, as well as the ability to quickly identify and correct errors or imperfections in the part. However, hand finishing can also be time-consuming and labour-intensive, leading to increased costs and reduced efficiency. Additionally, the consistency of the finish may vary from part to part, depending on the skill and experience of the operator. As such, hand finishing may be suitable for small-scale or custom projects where precision is critical, but may not be ideal for large-scale or high-volume production due to its time and labour requirements.

CNC Machining. CNC machining is a subtractive manufacturing process that can be used as a post-processing method for AM parts. The key advantages of CNC machining include the ability to achieve high precision and accuracy, even for complex geometries. CNC machines are also highly customizable and can accommodate a wide range of materials, including metals, plastics, and ceramics. Additionally, CNC machining can be automated, reducing labour costs and increasing production efficiency. However, there are also some disadvantages to using CNC machining as a post-processing method for AM parts. One of the main drawbacks is the high cost of equipment and setup, which can be a barrier to entry for some manufacturers. Additionally, CNC machining may not be suitable for parts with intricate internal features or fine details

Chemical Finishing. Chemical finishing is a post-processing method that involves treating AM parts with chemical solutions to alter the surface finish or properties of the part. The key advantages of chemical finishing include the ability to achieve precise and uniform finishes across complex geometries, as well as the ability to alter the material properties of the part, such as corrosion resistance or biocompatibility. However, there are also some disadvantages to using chemical finishing as a post-processing method for AM parts, key among which is that the effectiveness of chemical finishing may depend on factors such as the material of the part and the specific chemicals used, which can make it difficult to achieve consistent results across different parts or applications. In addition, chemical finishing may not be suitable for parts that require precise tolerances or that have complex internal features, as the chemical solutions may not be able to penetrate or reach these areas. Overall, while chemical finishing can be an effective and cost-efficient post-processing method for additive manufactured parts, careful consideration must be given to the potential drawbacks and limitations of this approach.

Mass Finishing Technologies. Mass finishing technologies, such as vibratory and centrifugal finishing, utilize abrasive media and mechanical energy to smooth and polish printed parts. These processes are highly scalable, and capable of handling large volumes of parts simultaneously. They are also versatile, working with various materials and part geometries. Moreover, mass finishing technologies are cost-effective, fast, and environmentally friendly.

WHY MASS FINISHING?

Mass finishing technologies offer several advantages over other post-processing methods, making them the preferred choice for AM parts.

Scalability. Scalability is important for several reasons. First, mass finishing enables the treatment of a large volume of parts at once, which can significantly reduce the time and labour required for finishing compared to treating parts individually. This can improve overall efficiency and reduce production costs. Also, mass finishing ensures consistent finishing results across a large batch of parts, which can be difficult to achieve with manual or individual finishing methods. This can help ensure that parts meet specified requirements for surface finish, roughness, and other critical parameters.

Treating a large batch of parts simultaneously can also help reduce variability in the finishing process, as each part is treated in the same way for the same duration. This can help reduce the risk of defects or inconsistencies in the finished parts.

The scalability of mass finishing also makes it a cost-effective method for finishing a large volume of parts, as the cost per part decreases as the batch size increases. This can be particularly important for industries such as aerospace and automotive, where large quantities of parts are required.

Material Compatibility. Mass finishing technologies work with a wide range of materials, including metals, polymers, and ceramics. This versatility enables manufacturers to use a single post-processing method for various AM applications, simplifying the production process. By using a single post-processing method for multiple materials, manufacturers can reduce the need for separate equipment or processes for each material. This can help reduce equipment costs, space requirements, and maintenance needs.

Using a single post-processing method across multiple materials can also help improve process control and consistency. Manufacturers can develop a standardized process for finishing that can be applied to different materials, reducing variability and improving overall quality.

In addition, standardizing on a single post-processing method can help increase overall efficiency by reducing the need for additional equipment, reducing setup times, and streamlining the finishing process. This can help manufacturers produce parts faster and at a lower cost.

Mass finishing technologies can be adapted to various shapes and sizes of parts, making them a versatile post-processing method for various AM applications. This means that manufacturers can use mass finishing to finish a wide range of parts, regardless of their material, shape, or size.

Uniformity and Consistency. Mass finishing technologies can achieve uniform surface finishes across complex part geometries, even in hard-to-reach areas. This consistency ensures that all parts meet the required specifications, enhancing product quality and reducing the need for additional finishing processes.

AM parts often have complex geometries with hard-to-reach areas that can be difficult to finish with traditional methods. Mass finishing technologies, however, can achieve uniform surface finishes across the entire part. Achieving uniform surface finishes across complex geometries is critical to ensuring product quality. By achieving consistent finishing results, mass finishing technologies can help ensure that all parts meet the required specifications for surface finish, roughness, and other critical parameters.

Mass finishing technologies can be adapted to various shapes and sizes of parts, making them a versatile post-processing method for various AM applications.

 

Mass finishing technologies can also help reduce variability in finishing results, even across complex geometries. This can help reduce the risk of defects or inconsistencies in the finished parts, improving overall quality. Achieving consistent surface finishes across complex geometries can reduce the need for additional finishing processes, such as hand finishing or secondary machining. This can help reduce the time and cost required for finishing, improving overall production efficiency.

It can also improve the aesthetics of the finished parts, making them more visually appealing. This can be particularly important for consumer-facing products or parts that will be visible in the final product.

Reduced Labour Costs. Mass finishing technologies are largely automated processes that require minimal manual intervention, reducing labour costs and the potential for human error. The automation of mass finishing technologies can also increase efficiency, as machines can work continuously, without breaks or interruptions. This can help reduce the time and cost required for finishing, improving overall production efficiency.

Mass finishing technologies can also incorporate quality control features, such as sensors and feedback mechanisms, that can detect and correct errors or deviations in the finishing process. This further reduces the potential for human error and improves overall product quality.

PARTNERHIP & COLLABORATION

It is important when choosing a mass finishing post-processing technology supplier to locate one with the expertise in process development and optimization that is vital in achieving repeatable end results. Expert engineers should be able to work closely with clients to develop tailored post-processing solutions that optimize cycle times, minimize waste, and ensure the desired surface finish and dimensional accuracy.

Suppliers should also demonstrate a focus on providing exceptional customer support, and also offer a range of services, including equipment installation, training, maintenance, and troubleshooting. Such commitment to customer satisfaction ensures that clients can rely on their chosen supplier for ongoing assistance and expertise.

The chosen supplier should also have expertise that spans a wide range of mass finishing technologies. By offering a comprehensive portfolio of products and services, suppliers effectively become a one-stop-shop for addressing the diverse post-processing needs of their clients.

It is also advantageous if your chosen mass finishing post-processing technology supplier offers a wide range of abrasive media and finishing compounds, specifically tailored to the needs of AM applications. By understanding the unique characteristics of different materials and part geometries, a supplier should be able to provide customized technology / media solutions that yield optimal surface finishes while preserving part integrity.

Mass finishing technologies can achieve uniform surface finishes across complex part geometries, even in hard-to-reach areas.

 

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