Forget typical cycle times. We’re pushing the boundaries of conformal cooling.  While traditional approaches deliver reductions, at SyBridge, we see further.  By combining our expertise in 3D printing, mold tooling design, and in-house manufacturing, we engineer conformal cooling solutions that unlock the true potential of this transformative technology. Our unique synergy allows us to not just achieve impressive results, but to truly test the limits of what conformal cooling can accomplish for your product.   

Conformal cooling improves throughput 

SyBridge uses conformal cooling designs–either in retrofitting older tooling or as an initial design element–to enhance cooling efficiency, reduce cycle times, and increase productivity (Figure 1).  

In one redesign, after a mold flow simulation revealed hot spots on the tips of the parts, SyBridge experts engineered precision water channels to enhance cooling efficiency. Their unique design focused on cooling the front tip of the part, which enhanced the cooling of the rest of the part. This design change substantially reduced mold-open time. Figure 2 dives deeper into the results of these conformal cooling design enhancements. 

It takes experience to design effective conformal cooling 

Additive manufacturing (AM or 3D printing) is an excellent avenue for designing conformal cooling. AM enables intricate and complex structures that closely conform to every shape of the part in a way that–depending on the part geometry and complexity–is not always possible with subtractive manufacturing. During the design phase, long before the part is molded, SyBridge engineers use mold flow simulation, virtual testing, and digital integration to configure and test the conformal cooling capacities.  

Can we help you reduce cycle times? 

As conformal cooling experts, SyBridge engineers know how to help you get the cycle times and efficiencies your product needs. Contact our team to explore how solutions like conformal cooling can improve your injection molding process.

The post Conformal Cooling: Impact By the Numbers appeared first on SyBridge Technologies.

Forget typical cycle times. We’re pushing the boundaries of conformal cooling.  While traditional approaches deliver reductions, at SyBridge, we see further.  By combining our expertise in 3D printing, mold tooling design, and in-house manufacturing, we engineer conformal cooling solutions that unlock the true potential of this transformative technology. Our unique synergy allows us to not just achieve impressive results, but to truly test the limits of what conformal cooling can accomplish for your product.   

Conformal cooling improves throughput 

SyBridge uses conformal cooling designs–either in retrofitting older tooling or as an initial design element–to enhance cooling efficiency, reduce cycle times, and increase productivity (Figure 1).  

In one redesign, after a mold flow simulation revealed hot spots on the tips of the parts, SyBridge experts engineered precision water channels to enhance cooling efficiency. Their unique design focused on cooling the front tip of the part, which enhanced the cooling of the rest of the part. This design change substantially reduced mold-open time. Figure 2 dives deeper into the results of these conformal cooling design enhancements. 

It takes experience to design effective conformal cooling 

Additive manufacturing (AM or 3D printing) is an excellent avenue for designing conformal cooling. AM enables intricate and complex structures that closely conform to every shape of the part in a way that–depending on the part geometry and complexity–is not always possible with subtractive manufacturing. During the design phase, long before the part is molded, SyBridge engineers use mold flow simulation, virtual testing, and digital integration to configure and test the conformal cooling capacities.  

Can we help you reduce cycle times? 

As conformal cooling experts, SyBridge engineers know how to help you get the cycle times and efficiencies your product needs. Contact our team to explore how solutions like conformal cooling can improve your injection molding process.

The post Conformal Cooling: Impact By the Numbers appeared first on SyBridge Technologies.

Ron Maillet, General Manager of SyBridge Technologies in Fitchburg, Massachusetts, is an injection molding expert who started as an apprentice nearly forty years ago in Fitchburg, Leominster, Clinton, and surrounding areas. 

For the past twenty-four years, Maillet has been working in the same building, in many roles and increasing responsibilities, and even through ownership changes. Now in the leadership role at SyBridge Technologies-Fitchburg, he helps oversee a well-established apprenticeship program with students from Montachusett Regional Vocational Technical School (“Monty Tech”) to learn the art, science, and craft of mold-making. 

“It’s fitting that this area would be home to a thriving apprenticeship program in plastics and mold-making,” said Maillet. “One hundred years ago, Foster Manufacturing – famous for Foster Grant glasses – pioneered plastics and injection molding five miles away in Leominster,” said Maillet. The industry has had a presence here ever since.  

SyBridge Technologies in Fitchburg has partnered with Monty Tech for seven years, bringing students into apprenticeship programs and then on into full employment. All the students that have started as apprentices under Maillet are either still in apprenticeship or are now employed by SyBridge, a testament to the staying power of the training and the industry. 

Kim Curry, Coordinator of Co-operative Education and Placement for Monty Tech, explained the breadth of the apprenticeship program. Monty Tech serves 18 cities and towns in the area and offers 21 vocational programs, including “Advanced Manufacturing.”  For a student to be considered for the co-operative education program, the student must be a junior, maintain grades of 75 or better, and be free of any discipline issues. The co-operative education program has seen a steady growth in interest from students since 2018. 

“It’s been a great partnership between SyBridge and Monty Tech,” said Curry. “When I do site visits there, I see my former students in mentorship and supervisor roles—and it is such a delight!” 

First comes the blueprint 

Every SyBridge apprentice starts in the same way Maillet began: reading a blueprint. From the blueprint, they sort out the cuts and angles, note the dimensions and tolerances, and then schedule the order of each process. The apprentice then moves to a manual milling machine, where they install the tools, calculate cutting speeds, and make their first test cuts.  

“I started reading blueprints,” said Jake Rickan, a 2023 graduate from Monty Tech who recently signed on as an employee of SyBridge. Rickan became interested in tool design and machine tech during his exploratory section in school, where he learned about different functional areas. He had been tinkering with after-market car parts, which involved machining, and the work of the apprenticeship program “caught his eye.” 

“I had always been infatuated with machining,” said Jake. His parents were both educators, but for Jake, machine technology and the finished, machined piece of steel has its own appeal. “It’s very cool to see the finished piece and be like, ‘Hey, I’m the one who did that,’” said Rickan. 

Step by step through the apprenticeship 

“Once they show us they’ve [mastered a particular skill], then we move them on to the next stage,” said Maillet, “For instance, after showing they can run the manual machines, we move them to milling equipment with numerical controls. Then they start programming with computers; using 3D files created by our engineers, they start actually cutting steel.” Eventually, they get to the 16-tool changer and the higher-end work. And then on to another department. 

Along the way, apprentices meet with both the experienced staff at SyBridge and with Monty Tech faculty to review expectations. Each step of advancement through the apprenticeship comes only after demonstrating the ability to perform previous steps.  

“Students record each of the skills they learn every day,” said Maillet. Those records become a valuable reference document throughout their journeys as apprentices, and as they move into full-time employment. 

The Monty Tech/SyBridge apprenticeship program enrolls one student per year. The program alternates weeks students spend attending school and working at SyBridge, so skills can be reinforced in both the apprenticeship program and classes. 

“It’s cool to be able to come to the workplace and say, ‘Oh, what they’re teaching us [at school] is actually very useful,’” said Rickan.  

Learning outside the lecture hall 

One of the highlights of the apprenticeship program is that former students pass on the skills and habits they have learned to newer students. Students share the tacit knowledge they pick up from experienced mold-makers and machinists, like securing workpieces, locating the zero point (starting position) on the workpiece, and keeping their work area very clean. This is especially important for the precision work that SyBridge is known for; starting with a clean mill ensures debris from previous jobs will not alter tolerances for the next job. 

“We have a very strong emphasis on making sure the part [in process] falls within certain tolerances,” said Rickan. In addition to setting up the workspace properly and having the specialized equipment required for precise tolerances, “we need to know how to get the part within those tolerances.” 

Toward expertise that invents tomorrow’s tooling  

Maillet likes to say that while most people divide an inch into quarters, eighths, and sixteenths, he and the highly specialized journeymen machinists at SyBridge divide an inch into 10,000 sections.  Here, tools are regularly manufactured with .0002” tolerances (as compared to a standard sheet of printer paper which is about 20 times thicker at .004”). Observing and maintaining tolerances is critical to any machined part moving forward. That ability to work with very tight tolerances is an uncommon one; it’s also why the new apprentice enters the program only after being vetted by Monty Tech staff and instructors. Throughout their program, class subjects dovetail with real-world experience at SyBridge to reinforce skills that will prove useful over a lifetime.  

Training students with experienced machinists has proven to be very productive for Maillet. Maillet noted that when he ran an ad for an experienced machinist, “90% of people don’t even know what a machinist is.” Meanwhile, Monty Tech (which is half a mile from SyBridge) has 25 potential students who are already interested and poised to learn new machinist skills. The bottom line is that Maillet can train and then hire experienced workers right into his shop —resulting in a scenario that benefits the students and the company.  

“As an industry, we are actually in a time of rebuilding our skills here in the US,” said Maillet. “Tooling and mold-making were strong in the 1980s and 1990s, but then moved offshore for a lot of years.” After COVID-19 and the renewed focus on supply chain management, Maillet noted that interest in skilled mold and tool making had surged.  

Rebuilding the craft of injection mold tooling means students remain in the community, earn a good salary, and help advance the art and science of mold-making. 

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The GM SQEA award recognizes top-performing suppliers who meet or surpass a stringent set of quality performance criteria and have received cross-functional endorsement from the entire GM organization throughout the 2023 calendar year.

“As we continue to navigate an ever-challenging environment, know that your dedication to quality and shared goals is deeply appreciated. On behalf of our entire Global Supplier Quality Team, congratulations on your remarkable achievements in 2023 and we would like to thank you and your team for consistently providing support and being a valued partner.”

– Rick Demuynck, Executive Director – GM Global Supplier Quality & Development

“It is a great honor to be recognized again. We are committed to continuously exceed quality standards in the auto industry for 2024 and beyond.”

– John Yezback, Vice President – Sales M&IS

This award is a testament to our team’s dedication, outstanding performance and service we provide our customers across their product lifecycle.

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–Leverages Proprietary Artificial Intelligence (AI) Algorithms–

ITASCA, Ill., June 10, 2024 /PRNewswire/ — SyBridge Technologies, a global leader in design and manufacturing solutions, today announced the launch of SyBridge Studio, a state-of-the-art manufacturing insights application, now available on the PTC Onshape® App Store.

This advanced tool integrates a comprehensive suite of design for manufacturability (DFM) features, drawing upon SyBridge’s extensive expertise in injection mold tooling and production-grade additive manufacturing. Leveraging state-of-the-art logic and data-driven artificial intelligence (AI) algorithms built on a vast database of manufactured parts and tools, the application provides users with unparalleled insights to optimize designs early, assess production tradeoffs, and achieve superior results in cost, speed, and quality.

SyBridge is a portfolio company of Crestview Partners, a leading private equity firm with approximately $10 billion of aggregate capital commitments.

SyBridge’s new application integrates directly into Onshape, the industry’s foremost cloud-native CAD software, providing a powerful extension to the existing toolset available to Onshape users. The app’s user-friendly interface and robust features offer a significant enhancement to the design process, enabling engineers to produce high-quality, manufacturable designs efficiently.

Key Features of the SyBridge Studio include:

• Automated Design for Manufacturability (DFM) Checks: Quickly understand manufacturing issues and how to mitigate them with 80+ Design for Manufacturability (DFM) checks across manufacturing processes: injection molding, CNC machining, and multiple 3D printing technologies.
• Injection Mold Action & Insert Identification: Visualize parting directions and automatically identify various common tooling actions like slides, pins, inserts, lifters, bosses, and strippers.
• Part Thickness Analysis: Visualize material distribution with a full-field colored heatmap on your part CAD to easily identify thin, thick, or non-uniform walls that could cause manufacturing quality issues like warpage or sink marks.

In addition to these powerful features, SyBridge is actively developing future enhancements to the application’s capabilities with a comprehensive roadmap including cost insights and analysis tools, a material recommendation engine, and the ability to purchase parts directly from Onshape via SyBridge On-Demand.

“Going from an industrial design to physical parts is a time consuming processes, typically requiring multiple iterations between different technical domains. With the launch of SyBride Studio, we are excited to provide designers and engineers with a tool that not only makes this process easier and more efficient, but works directly in their CAD environment,” said Byron J. Paul, CEO of SyBridge Technologies. “Our application’s integration with Onshape underscores our commitment to delivering innovative solutions that seamlessly integrate into our customers’ existing workflows to help simplify and accelerate the design and manufacturing process.”

“We are thrilled to welcome this app to the Onshape App Store,” said Jon Hirschtick, Co-Founder and Chief Evangelist of Onshape. “This app provides our users with invaluable tools to get feedback as they are designing, ultimately helping them to achieve their business goals more effectively.”

Onshape users can easily access and install the new application directly from the Onshape App Store, enabling them to quickly take advantage of its powerful features. For more information about SyBridge Studio and to download it, please visit the Onshape App Store.

About SyBridge Technologies

SyBridge Technologies is the global leader in technology-enabled design, prototyping and manufacturing solutions for complex, high-precision parts. Its mission is to use technology to simplify and accelerate how parts are designed and manufactured. SyBridge is one of North America’s largest injection molding tooling platforms and the largest private on-demand digital manufacturer. Our AI/ML technology platform is supported by an industry-leading team of software engineers, computational geometry experts and data scientists.  SyBridge Technologies is backed by Crestview Partners and comprises 15 acquisitions that bring together different products, services, and technologies into a unified technology-enabled platform. SyBridge is headquartered in Itasca, Illinois and operates through 18 locations across North America, Europe, and Asia. For more information, please visit www.SyBridge.com.

About PTC (NASDAQ: PTC)

PTC (NASDAQ: PTC) is a global software company that enables industrial and manufacturing companies to digitally transform how they engineer, manufacture, and service the physical products that the world relies on. Headquartered in Boston, Massachusetts, PTC employs over 7,000 people and supports more than 25,000 customers globally. For more information, please visit www.ptc.com.
PTC.com            @PTC            Blogs

PTC, Onshape, and the PTC logo are trademarks or registered trademarks of PTC Inc. or its subsidiaries in the United States and other countries.

SyBridge Media Contact:
Jeffrey Taufield or Jennings Brooks
Kekst CNC
(212) 521-4800
jeffrey.taufield@kekstcnc.com / jennings.brooks@kekstcnc.com

PTC Media Contact:
Greg Payne
Corporate Communications
gpayne@ptc.com

The post SyBridge Technologies Launches SyBridge Studio, an Innovative Application, on the PTC Onshape App Store appeared first on SyBridge Technologies.

Designing a product is just the beginning. The real challenge lies in ensuring your design is manufacturable, cost-effective, and meets your quality standards. Waiting for design feedback, navigating last-minute design changes, and dealing with manufacturing issues can make this journey feel like an uphill battle. But there’s a solution to make this process smoother and more efficient. 

We’re excited to introduce the SyBridge Studio App, a powerful new tool now available in the Onshape App Store. Developed by leading global manufacturer SyBridge Technologies, the app brings the existing features of SyBridge Studio directly into Onshape. Leveraging insights from millions of parts and tools made combined with the power of artificial intelligence, it codifies a century of manufacturing knowledge to provide you with expert guidance at your fingertips. Easily confirm manufacturability, understand trade-offs, and optimize your design, all while meeting your goals for cost, speed, and quality. 

Manufacturing insights at your fingertips 

After subscribing to the app, you’ll instantly get access to the following features: 

Automated Design Feedback – Quickly find ways to improve part design and reduce costs with manufacturing recommendations. Get feedback on draft angles, non-standard holes, supported surfaces, surface imperfections, and more. Understand how to mitigate potential manufacturing risks with a collective 80+ Design for Manufacturability (DFM) checks available across six manufacturing processes: injection molding, CNC machining, and four 3D printing processes (DLS, FDM, MJF and SLA). 

Injection Mold Action & Insert Identification – See where your tooling requires actions such as slides, pins, inserts, lifters, bosses, or strippers. Use this to make informed design modifications that minimize witness marks and enhance the aesthetic quality of your part. Identify opportunities to reduce tooling complexity and costs, streamlining the manufacturing process and improving overall efficiency. 

Part Thickness Analysis – Visualize the material distribution in your part with a full-field colored heatmap to easily identify thin or thick wall issues. Maintaining consistent wall thickness ensures uniform cooling, minimizes warping, and enhances part strength, durability, and aesthetic quality. Use this analysis to make informed design modifications that improve part quality and reduce costs by normalizing wall thickness throughout your design, resulting in a more efficient and effective manufacturing process. 

More features in an expanded view – SyBridge Studio’s Onshape extension currently houses the most important features, but even more are available on the SyBridge Digital Platform, including instant quoting, parts ordering, and additional analysis tools. Log in here using the same email used to sign in to the SyBridge Studio Onshape app to continue working in a more immersive, full-screen view. 

And more coming soon

More advanced features to help you design more effectively and bridge the gaps between design and manufacturing are on the way, including: 

Instant pricing and cost insights – Receive estimated part and tool pricing at various quantities, access cost-saving design recommendations, understand cost breakdowns, and view other key cost drivers (e.g., cycle time) for 6 manufacturing processes. 

Purchase parts – Easily place an order for your part when you’re ready to check out, directly inside Onshape.  

Recommended and customizable manufacturing orientation – Use our recommended manufacturing direction or adjust it based on aesthetic requirements. Easily visualize and understand the impact on design recommendations and tooling requirements. 

Injection molding tool visualization – View a mock-up of the mold core and cavity to get a sneak peek at how your tool will be made. 

Additional insights – Intelligent systems meet intelligent design. Stay tuned for more insights coming your way: material insights, more advanced DFM checks, and additional injection molding guidance. 

Assembly support – The SyBridge Studio app currently analyzes individual components that you select. Next up is support for full BOMs/assemblies. 

Elevate your design process today 

The SyBridge Studio App is here to change the way you approach design and manufacturing. By integrating advanced manufacturability analysis and optimization tools directly into your Onshape workflow, this app aims to help you overcome common challenges and achieve your design goals more efficiently. 

Ready to take your design process to the next level? Head to the Onshape App Store and subscribe to the app today to experience firsthand how this powerful tool can transform your workflow and bring your designs to life with greater ease and precision. 

The post AI-Powered DFM Analysis by SyBridge, Now Available in the Onshape App Store  appeared first on SyBridge Technologies.

Get the full article at MoldMaking Technology

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In today’s competitive landscape, manufacturers are constantly seeking ways to streamline their processes, reduce costs, and increase output. At SyBridge, we understand these challenges and are dedicated to partnering with you to achieve your manufacturing goals.

Our expertise in design, engineering, and tooling for injection molding goes beyond simply creating high-quality molds. We are your strategic partner, offering expert guidance to optimize your entire process, resulting in measurable improvements to your bottom line.

Case Study

Optimizing a Pail Mold for Increased Efficiency and Cost Saving

A recent collaboration with a client perfectly exemplifies the value SyBridge brings to the table. We were tasked with re-engineering an existing pail mold. The original design presented several challenges, including:

• Average cycle times: The initial cycle time was 20 seconds, limiting overall production output.
• Limited output: The mold could produce 1 million parts per year; however, growing demand required additional output.

SyBridge’s Expertise Delivers Remarkable Results:

Our team of engineers meticulously analyzed the existing mold and identified optimization opportunities. By leveraging our expertise in precision tooling and complex high-cavitation tools, we were able to:

• Reduce cycle time by 15% (3 seconds):
  This seemingly small improvement translates to significant production volume increase over time.
• Increase output by over 30%:
  The new design allows for the production of 1,350,000 parts per year, exceeding the client’s initial requirements.
• Consolidate production:
  The optimized mold’s increased efficiency enabled the client to manufacture at the same rate as four presses while using only three, eliminating the need for additional equipment and tooling costs.

The Impact

Measurable Cost Savings and Increased Profitability

These improvements translate into tangible financial benefits for our client. They were able to:

• Avoid the significant expense of purchasing and integrating a new injection molding press.
• Eliminate the cost of additional tooling required for a four-press operation.
• Realize increased production capacity to meet growing demand and potentially capture new market opportunities.

Beyond Efficiency

Maintaining Product Integrity

It’s important to note that these improvements were achieved while maintaining the product’s critical performance requirements. The new mold design successfully met all drop testing, shipping testing, and leak testing specifications, ensuring product integrity without compromising efficiency.

SyBridge

Your Partner for Optimal Injection Molding Solutions

This case study is just one example of how SyBridge’s expertise can help manufacturers optimize their injection molding processes and achieve significant cost savings, increased output, and improved profitability. Our commitment to precision engineering, innovative solutions, and collaborative partnerships makes us your ideal partner for navigating the ever-evolving landscape of injection molding.

The post Optimizing Your Injection Molding Process for Cost-Effective Manufacturing Excellence appeared first on SyBridge Technologies.

In the fast-paced world of manufacturing, efficiency is paramount. Every second shaved off a cycle time translates directly to higher profits and a competitive edge. And when it comes to injection molding, tooling design is often the foundation upon which everything rests. At SyBridge, we understand this, and it’s why we’ve become the industry leader in design, engineering, and manufacturing of injection mold tooling.

Our expertise goes beyond simply creating high-quality tools. We are experts in optimization, and our dedication to understanding your specific needs allows us to craft solutions that streamline your entire injection molding process.

A Real-World Example

Supercharging Production

One client, a manufacturer of plastic dosing scoops, faced a common challenge: production couldn’t keep up with demand. They were running four 175-ton injection molding machines 24/7. Each existing 12-cavity tool had a 9.5-second cycle time and produced 110,000 parts per day, but it simply wasn’t enough.

Phase 1

SyBridge engineers evaluated the customer’s existing equipment, systems, and output needs, then designed a new 12-cavity tool using innovative solutions for filling and cooling the component. Upon installation, they realized a remarkable 5.0-second cycle time, a 47% reduction from their previous 9.5-second cycle time. This translated into an 88% increase in daily production with the same machine, producing an impressive 207,000 parts per day.

Phase 2

But SyBridge didn’t stop there. Building on this success, we engineered another tool, this time with 16 cavities; as before, the cycle time was at 5-seconds, and the higher-cavitation tool was still able to run in the same 175-ton presses. This powerhouse pushed daily production even further, reaching 275,000 parts – a 150% increase from the original tool.

The Proof is in the ROI

The impact was undeniable. The manufacturer not only met demand but was also able to get ahead of it, opening up opportunities for new sales growth. SyBridge tooling solutions delivered such significant production gains that the customer was able to recoup their tooling investment in less than 6 months, a testament to the immediate value delivered by SyBridge expertise. But even beyond the initial investment payback, with the increased output, the customer was able to better schedule planned maintenance, extending the life of the tools and leading to additional long-term financial benefits. This is just one example of how SyBridge empowers our partners to achieve remarkable results. Our commitment to precision engineering, coupled with our in-depth understanding of the injection molding process, allows us to:

• Reduce cycle times through innovative tool design, leading to greater output and increased production efficiency.
• Lower your Total Cost of Ownership (TCO) through more efficient tooling that drives lower direct and indirect material costs for molded products.

Ready to unlock the full potential of your injection molding process?

At SyBridge, we are more than just toolmakers; we are your optimization partners. We understand the unique challenges you face and are committed to developing solutions that not only meet your needs but exceed your expectations.

Contact us today to discuss your specific needs and discover how our expertise can help you achieve breakthrough results:

• Faster cycle times
• Increased production output
• Reduced total cost of ownership
• A competitive edge in the marketplace

The post How SyBridge Expertise Optimizes Your Process and Lowers Costs appeared first on SyBridge Technologies.

In this fast-paced market, where consumers crave both luxury and sustainability, staying ahead of the curve is crucial. This article delves into the key trends transforming the industry, from captivating design elements to eco-conscious solutions, empowering you to create packaging that not only looks good but resonates with today’s savvy consumers. 

Product differentiation drives sales 

In an increasingly crowded marketplace, creating a unique style for cosmetic packaging is key to catching the eye of consumers and building brand loyalty. Consumers look for details in the design, such as embossed logos on caps, custom colors, unique materials like copper and aluminum, and exclusive shapes (Figure 1). 

Figure 1. Distinctive shapes and mixed materials help products stand out in the beauty market.  

Consumers also expect a luxe feel when purchasing a beauty product with a high price point. Using substantial materials in packaging gives even miniature products a high-end feel.  

Additive manufacturing supports new product development  

Developing products with novel designs requires expertise and options for scaling if products become popular. Since the cosmetics industry moves quickly, bringing a new product from conception to design to reveal is essential for its relevance. And because customer preferences can pivot rapidly, manufacturing a limited number of new products using cost-effective techniques to test the market is also important.  

Additive manufacturing processes like 3D printing meet both requirements—they can produce parts quickly and don’t require huge upfront costs (Figure 2). 

Figure 2. Carbon® Digital Light Synthesis™ is one of SyBridge’s many 3D printing techniques 

Companies can scale production with high cavitation injection molds or other production techniques if the product is commercially viable. Although specialty tooling capabilities may have a higher upfront cost, their ability to support higher production runs and longer lifetime cycles ensures they remain cost-effective. The ability to start small and scale ultimately results in the lowest overall cost of ownership for brand owners.  

Using sustainable materials and designs to appeal to consumers  

Sustainability continues to be a trend for consumer products in 2024, including cosmetic packaging. However, most consumers are unwilling to compromise on increased prices for more sustainable products. Manufacturers must find a way to produce sustainable packaging that is also cost-effective.  

Toward more sustainable cosmetic packaging  

Refillable and reusable packaging is emerging as a more environmentally friendly alternative to single-use packaging. Other sustainability trends include using either post-consumer recycled (PCR) plastic or aluminum for manufacturing or creating products made of single, recyclable plastics (mono-material) instead of a mixture of plastic and metal (Figure 3).  

Figure 3. Material selection simplifies sustainability for consumers 

Mono-material packaging simplifies recycling but does come with challenges, such as finding plastic alternatives to metal springs and other traditional metal components. Manufacturers are also limited in design by choosing mono-material packaging because they can’t use decorative metal coatings.  

A simple way to meet the demand for sustainable packaging without making consumers pay more for beauty products is by choosing a minimalist design (Figure 4). Sleek designs without added decorative features can reduce production complexity and material usage. The challenge to choosing minimalist designs is standing out in a market that relies so much on eye-catching products.  

Figure 4. Minimalist designs can reduce material usage and simplify production  

Design services help meet manufacturing challenges  

Producing flawless cosmetic packaging with the luxe feel consumers expect using sustainable materials is a serious challenge. That’s where working with companies with design services and a range of manufacturing capabilities becomes essential. SyBridge experts can complete design for manufacturability (DFM) checks and simulation analysis to identify production issues before production begins, reducing design iterations and saving on production costs (Figure 4). 

Figure 5. DFM checks help determine how to manufacture the highest-quality part at the lowest possible cost per unit. 

Design services are essential not only for testing novel ideas but also for optimizing current production. SyBridge experts can use product data and analytic tools to create a digital thread — a centralized source of truth for the part. We use the digital thread to gain insights about a part’s lifecycle (design to final production) and see opportunities for increased efficiency and improved quality (Figure 5).  

Novel dispensing methods make for more hygienic products  

A carryover from the COVID-19 pandemic continuing to influence health and beauty products is an emphasis on hygiene. Where many skincare and makeup products require brushes or even a fingertip for application, consumers are now choosing contactless options like droppers, misters, products with internal applicators, and airless pumps.  

Airless pumps reduce the chance of harmful bacteria getting into beauty products during use or illnesses spreading between people sharing the product (Figure 6). Pump dispensers also give customers precise control over how much product they use because each pump produces an exact volume. Companies can use pumps as an opportunity to provide instant brand recognition through contoured pump heads and other unique details.  

Figure 6. Airless pumps help reduce the spread of microbes and regulate dosing. 

In addition to enhanced hygiene and dosing control, the airless packaging used in pumps and sprays can preserve the chemical composition of the formula by not introducing oxygen during use. This extends the product’s shelf life. Airless packaging can help reduce waste, and it is often made from mono-material, making it 100% recyclable.  

Manufacturing for optimal user experience and safe shipping 

A challenge for manufacturing novel dispensing methods is ensuring function. Consumers can easily become frustrated and dissatisfied when features such as pumps malfunction, ultimately costing brands the loyalty they have worked hard to gain. Precise manufacturing is essential to avoid warpages, stress cracks, and other flaws that can cause packaging to malfunction. 

E-commerce companies selling cosmetics also need packaging that meets shipping standards. Products must have the strength to withstand rough handling during transportation, sortation, and distribution.  

SyBridge helps companies manufacture uniform, strong products by incorporating quality inspection services and advanced designs, such as conformal cooling, in our manufacturing technology. Our precision manufacturing can help companies achieve high-feature, aesthetic parts that are also functional. 

Partnering with SyBridge  

Manufacturing partnerships help cosmetics companies maintain a competitive edge in the fast-paced industry. Since needs vary by product, partners with multiple capabilities are especially valuable and critical to support reduced overall tooling costs. SyBridge experts can help cosmetics packaging manufacturers wherever they are—whether seeing if a novel design is achievable or choosing the best manufacturing technology for a proven product.  

Staying ahead of 2024 beauty trends is possible with the right partners. Connect with a SyBridge expert today to learn how our comprehensive services can help you meet your goals this year.  

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