Case Study Archives - SyBridge Technologies https://sybridge.com/resource/case-study/ Bridging the gap between innovation and mass production Tue, 30 Apr 2024 14:36:27 +0000 en-US hourly 1 https://wordpress.org/?v=6.6.2 https://sybridge.com/wp-content/uploads/2023/01/SBTArtboard-1FR-Blue-Ico-80x80.png Case Study Archives - SyBridge Technologies https://sybridge.com/resource/case-study/ 32 32 Optimizing Your Injection Molding Process for Cost-Effective Manufacturing Excellence https://sybridge.com/optimizing-your-injection-molding-process/ Tue, 30 Apr 2024 13:33:10 +0000 https://sybridge.com/tackling-football-head-injuries-with-manufacturing-innovation-2/ 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 …

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Injection Molding

Optimizing Your Injection Molding Process for Cost-Effective Manufacturing Excellence

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.

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.

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How SyBridge Expertise Optimizes Your Process and Lowers Costs https://sybridge.com/how-sybridge-expertise-optimizes-your-process-and-lowers-costs/ Thu, 11 Apr 2024 16:59:58 +0000 https://sybridge.com/how-sybridge-expertise-optimizes-your-process-and-lowers-costs/ 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 …

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How SyBridge Expertise Optimizes Your Process and Lowers Costs

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.

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.
SyBridge

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Tackling Football Head Injuries With Manufacturing Innovation https://sybridge.com/tackling-football-head-injuries-with-manufacturing-innovation/ Wed, 11 Oct 2023 12:21:22 +0000 https://sybridge.com/?p=3414 The post Tackling Football Head Injuries With Manufacturing Innovation appeared first on SyBridge Technologies.

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Tackling Football Head Injuries With Manufacturing Innovation

To provide NFL and D1 players with enhanced protection with greater comfort, VICIS collaborated with the advanced manufacturing team at SyBridge, 3D printer/materials manufacturer Carbon and the digital customization experts at Toolkit3D to create player-specific 3D printed pads for ZERO2 MATRIX football helmets.

SNAPSHOT

Challenge

The team at VICIS was seeking a way to manufacture football helmet pads that offer greater comfort, safety and durability to provide players with improved protection against head injuries.

Solution

Drawing upon the expertise of the teams at SyBridge and Carbon, VICIS 3D printed these advanced new helmet pads with Digital Light Synthesis™ (DLS) technology, utilizing lattice structures made from a new energy-damping, strain-rate-sensitive elastomer (EPU 45). To achieve a truly custom fit, VICIS turned to sports body equipment customization specialists Toolkit3D to perform 3D head scans of individual players. With SyBridge’s digital manufacturing capabilities and expertise in 3D printing, VICIS was able to create pads that conform to each player’s unique head shape, providing custom-fit comfort, enhanced protection and greater durability.

Outcome

Worn by some of the world’s best football players, VICIS helmets featuring these individually-customized 3D printed pads are now the top rated helmets for safety according to the NFL and NFLPA.*


*Data and rankings as of April 2023

“Just as in football, precision, speed and agility were key components when selecting a manufacturing partner for the 3D printed pads used in the Zero2 Matrix helmet. With SyBridge’s engineering expertise and advanced manufacturing technologies like Carbon® DLS™ and the Fast Radius Portal, we were able to incorporate feedback from the field to develop this helmet with player-specific customization in mind, bringing next-level design, protection and performance to the D1 and professional players of this sport we love.”

Cord Santiago, Senior Design Engineer, VICIS

In the world of professional football, player safety is of utmost importance. With a growing concern about head injuries and the long-term effects they can have on athletes, leading helmet manufacturer VICIS set out to create an improved football helmet that would reduce impact force during head collisions.

To make this possible, the team at VICIS turned to SyBridge and Carbon in order to design and manufacture protective helmet pads, leveraging the digitization and customization expertise of Toolkit3D to achieve a custom fit for each player’s unique head shape.

Matrix Helmet

The Challenge

REPLACING FOAM AROUND THE DOME

With traditional football helmets, including many of those used by professional and D1 athletes, foam is used as the primary material for padding and impact absorption. However, there are several key issues with foam pads that prevent them from being ideal for this application.

Foam pads:

  • Offer little ability to fine-tune for specific impacts, limiting performance and safety
  • Lack durability and require frequent reconditioning
  • Cannot be customized without machining or other labor or material-intensive processes
  • Trap heat and moisture

Recognizing the limitations of traditional foam pads, VICIS aimed to create helmet pads that not only remain structurally intact over time but also prioritize player comfort and offer unparalleled safety against head impacts. This required an innovative manufacturing approach, along with expertise in material science and engineering, leading VICIS to the advanced manufacturing experts at SyBridge and Carbon, and the sports body equipment customization specialists at Toolkit3D.

About EPU 45

EPU 45 is a new energy-damping elastomer developed by the material science engineers at Carbon. It prints four times faster than traditional elastomeric polyurethanes and is a strain-rate sensitive material that stiffens to absorb energy at higher impact rates, enabling the design of highly breathable lattice structures tuned for comfort at low-impact speeds and energy absorption at high-impact speeds.

Advantages of Lattice Structures

In addition to enhanced breathability, the lattice structures of the 3D printed helmet pads allow for optimal energy distribution upon impact. Combining this structural design with the unique properties of EPU 45 makes these advanced helmet pads a superior alternative to foam padding traditionally used in football helmets, as they offer greater durability with superior impact absorption.

The Solution

CRAFTING A NEW PLAYBOOK FOR IMPROVED CRANIAL PROTECTION

Working closely with the designers and materials scientists at Carbon and manufacturing engineers at SyBridge, VICIS determined that Digital Light Synthesis™ (DLS) was the right technology to manufacture these advanced helmet pads due to material compatibility and a focus on customization. With a lattice-structure design consisting of the new EPU 45 material, the 3D printed helmet pads would offer an ideal combination of enhanced protection and greater durability.


To create a truly custom fit for each player, VICIS leaned on the expertise of Toolkit3D, specialists in digitizing and automating the customization of high-performance medical and sports body equipment, to create a digital model of each player’s unique head shape. Then, collaborating with the engineers at SyBridge and Carbon, VICIS was able to optimize each pad’s design for manufacturability and cost-effectively 3D print the custom elastomeric helmet padding.
For additional customization and traceability, each pad is printed with the player’s name, pad set, print date and serialization, ensuring that players use the correct pads for their specific cranial geometries.


In the event a replacement pad is needed, utilizing the design flexibility that 3D printing provides combined with the on-demand digital manufacturing capabilities of SyBridge’s Fast Radius Portal, players can receive new pads that match their original head scans in as fast as 2 days, ideal for reconditioning equipment during bye weeks.

The Outcome

LEADING THE LEAGUE IN HELMET SAFETY

The agility of digital manufacturing and the rapid production times that 3D printing offers have allowed VICIS to manufacture these new pads for their Zero2 Matrix helmets with mass customization in mind. When it comes to comfort, one size doesn’t fit all, and sacrificing safety for an improved fit should never be a consideration.

Worn by some of the world’s best football players, VICIS helmets featuring these individually-customized 3D printed pads are now the top rated helmets for safety according to the NFL and NFLPA.*

With these helmets, players get enhanced safety without the impediment of additional size or weight, and a truly customized fit for improved security and performance.

*Data and rankings as of April 2023


The NFL in collaboration with the NFLPA, through their respective appointed biomechanical experts, annually coordinate extensive laboratory research to evaluate which helmets best reduce head impact severity. The results of those tests, which are supported by on-field performance, are set forth on this poster.

The helmet models are listed in order of their performance, with a shorter bar representing better performance. The rankings are based exclusively on the ability of the helmet to reduce head impact severity measures in laboratory testing. Performance variation related to helmet fit, retention, temperature-dependence, and long-term durability are not addressed in these rankings.

All helmets in green are recommended for use by NFL players. Based on a statistical grouping analysis, helmets in the Top-Performing group have been further distinguished into two green categories. The darker green group represents those that performed similarly to this year’s top-ranked helmets, while the light green group performed similarly to the lowest ranked dark green helmet. Helmets with poorer laboratory performance were placed in the yellow or prohibited groups. Yellow and newly prohibited red helmets are not permitted for new players and players who did not wear them during the 2022 NFL season. Newly prohibited helmets will be prohibited for all players in 2024.

The laboratory test conditions were intended to represent potentially concussive head impacts in the NFL. The results of this study should not be extrapolated to collegiate, high school, or youth football.

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