How does the Carbon Pro 2.0 shaft revolutionize lacrosse stick technology. What unique features set it apart from traditional shafts. Why are players across all levels switching to this innovative design. How can the dual flex technology be customized to enhance performance.
Unveiling the Carbon Pro 2.0: A Game-Changing Lacrosse Shaft
The lacrosse world has been buzzing with excitement over the Carbon Pro 2.0 shaft by East Coast Dyes (ECD). This innovative piece of equipment has quickly risen to prominence, capturing the attention of players across all levels of the sport. But what makes this shaft so special? Let’s dive into the groundbreaking features that are redefining the lacrosse experience.
The Carbon Fiber Revolution
At the heart of the Carbon Pro 2.0’s success lies its advanced carbon fiber construction. ECD has harnessed the power of a 16K carbon fiber weave combined with an M45J resin system to create a shaft that defies conventional expectations. This high-density weave, featuring 16,000 carbon fiber filaments per bundle, provides exceptional structural integrity and durability.
Why is this carbon fiber composition so revolutionary? The answer lies in its remarkable strength-to-weight ratio. The Carbon Pro 2.0 boasts a weight reduction of 40% compared to traditional aluminum shafts, all while maintaining superior durability. This lightweight design translates to increased maneuverability on the field, allowing players to execute faster movements and generate more powerful shots.
Foam Core Technology: Lightweight Yet Robust
ECD didn’t stop at carbon fiber innovation. The Carbon Pro 2.0 incorporates a foam core that runs through the shaft’s interior, further reducing weight without compromising on strength. This foam core is not just any ordinary filling – it’s engineered with thousands of micro-balloons that decrease density while maintaining structural integrity.
How does this foam core benefit players? It allows for a shaft that feels incredibly light in hand, reducing fatigue during long games or practice sessions. At the same time, the strategic placement of uni-directional carbon fiber in high-stress areas ensures that the shaft can withstand the rigors of intense gameplay, from heavy checks to ground ball battles.
Dual Flex Technology: Customization at Its Finest
Perhaps the most groundbreaking feature of the Carbon Pro 2.0 is its Dual Flex Technology. This innovative design allows players to customize the shaft’s flex profile to match their unique playing style and position requirements.
Understanding the Flex Zones
The Carbon Pro 2.0 shaft is divided into two distinct flex zones:
- Upper Section: Near the head pocket, this zone offers a stiffer flex profile. This rigidity provides enhanced control for precise passing and shooting.
- Lower Section: Closer to the grip end, this area features a softer flex. This flexibility generates more “whip” for powerful checks, ground ball scoops, and shots.
How can players leverage this dual flex design? By adjusting the location of the flex transition, athletes can fine-tune the shaft’s performance characteristics to suit their specific needs. A midfielder might prefer a more balanced flex profile, while an attackman could opt for a stiffer upper section for pinpoint shooting accuracy.
Thermoplastic Urethane (TPU) Coating: Durability Meets Aesthetics
The Carbon Pro 2.0 doesn’t just excel in performance – it’s also built to last and look great doing it. ECD has applied a thermoplastic urethane (TPU) coating to the entire shaft, serving multiple crucial functions.
Protection and Longevity
The TPU layer acts as a protective shield for the carbon fiber exterior and internal foam core. This added defense helps the shaft withstand the impacts and abrasions that are common in lacrosse, extending its lifespan and maintaining its performance characteristics over time.
Custom Graphics: Make It Your Own
Beyond protection, the TPU coating opens up a world of customization possibilities. The material allows for deep dye sublimation, resulting in vibrant and durable custom graphics. Players can truly express their individuality by creating a one-of-a-kind shaft design that stands out on the field.
How does this customization process work? The dye sublimation technique involves heat-transferring designs directly into the TPU layer, ensuring that the graphics won’t fade or peel over time. This means players can enjoy a personalized shaft that maintains its eye-catching appearance throughout multiple seasons.
Performance Benefits: Why Players Are Making the Switch
The Carbon Pro 2.0’s innovative features translate into tangible performance benefits that are attracting players across all positions and skill levels. Let’s explore the key advantages that are driving the shaft’s popularity.
Enhanced Handling and Shot Speed
The ultra-lightweight design of the Carbon Pro 2.0 allows for quicker stick handling and faster shot release. Players report a noticeable improvement in their ability to maneuver the stick in tight spaces and generate explosive shot power with less effort.
Increased Durability Under Pressure
Despite its lightweight construction, the Carbon Pro 2.0 doesn’t compromise on strength. The advanced carbon fiber weave and strategic reinforcements enable the shaft to withstand heavy slashes and checks without bending or breaking. This durability gives players the confidence to play aggressively without fear of equipment failure.
Customizable Performance
The Dual Flex Technology allows players to tailor the shaft’s characteristics to their specific needs. This level of customization was previously unheard of in lacrosse shafts, giving players the ability to fine-tune their equipment for optimal performance in their role on the field.
Comparing the Carbon Pro 2.0 to Traditional Shafts
To fully appreciate the Carbon Pro 2.0’s impact, it’s essential to compare it to traditional lacrosse shafts. How does this innovative design stack up against its predecessors?
Weight Comparison
Traditional aluminum and scandium shafts typically weigh between 160-190 grams. In contrast, the Carbon Pro 2.0 tips the scales at a mere 135 grams, offering a significant weight reduction without sacrificing durability.
Flex Profile
While some metal shafts offer varying degrees of flex, none provide the customizable dual-flex technology found in the Carbon Pro 2.0. This unique feature allows for a level of personalization that was previously impossible with traditional shaft materials.
Durability and Longevity
Metal shafts are prone to denting and bending under heavy impact, which can affect their performance over time. The Carbon Pro 2.0’s carbon fiber construction and TPU coating provide superior resistance to damage, potentially offering a longer lifespan with consistent performance.
Adapting Your Game: Tips for Transitioning to the Carbon Pro 2.0
For players considering making the switch to the Carbon Pro 2.0, there may be a brief adjustment period as they acclimate to the shaft’s unique characteristics. Here are some tips to help smooth the transition:
- Experiment with Flex Settings: Take advantage of the Dual Flex Technology by trying different flex profiles during practice. Find the balance that feels most natural and enhances your playing style.
- Adjust Your Grip: The lightweight nature of the shaft may require subtle changes to your grip technique. Focus on maintaining a relaxed grip to fully leverage the shaft’s responsiveness.
- Re-calibrate Your Shot: The increased whip and reduced weight may affect your shot release. Spend time practicing your shooting to dial in your accuracy and power with the new shaft.
- Test in Various Weather Conditions: Carbon fiber performs differently than metal in varying temperatures. Practice with the Carbon Pro 2.0 in different weather conditions to understand how it responds.
- Gradual Implementation: Consider using the new shaft in practice sessions before transitioning to game use. This allows you to build confidence and familiarity with its unique properties.
The Future of Lacrosse Shaft Technology
The Carbon Pro 2.0 represents a significant leap forward in lacrosse shaft technology, but what does this mean for the future of the sport? As players and coaches embrace these advancements, we’re likely to see a shift in equipment trends and playing styles.
Continued Material Innovation
The success of the Carbon Pro 2.0 may inspire further research into advanced materials for lacrosse equipment. We could see the development of even lighter, stronger composites that push the boundaries of shaft performance.
Increased Customization
The Dual Flex Technology opens the door for even more personalized equipment options. Future shafts might offer even greater flexibility in customizing flex profiles, potentially allowing players to adjust settings on the fly for different game situations.
Integration with Smart Technology
As sports technology continues to advance, we may see carbon fiber shafts integrated with smart sensors to provide real-time data on shot speed, stick handling metrics, and impact forces. This could revolutionize training and performance analysis in lacrosse.
Evolving Playing Styles
As more players adopt high-performance shafts like the Carbon Pro 2.0, we may see changes in playing styles that take advantage of the increased speed and responsiveness. This could lead to faster-paced games and new offensive and defensive strategies.
The Carbon Pro 2.0 shaft by East Coast Dyes has undoubtedly set a new standard in lacrosse equipment. Its innovative use of advanced materials, customizable flex technology, and attention to both performance and aesthetics make it a compelling choice for players at all levels. As the sport continues to evolve, the Carbon Pro 2.0 stands as a testament to the impact that cutting-edge technology can have on athletic performance and player experience.
Whether you’re a seasoned pro or an up-and-coming player, the Carbon Pro 2.0 offers an opportunity to elevate your game and experience lacrosse in a whole new way. As with any significant equipment change, it’s important to take the time to adapt and fully explore the shaft’s capabilities. With its combination of lightweight design, durability, and customization options, the Carbon Pro 2.0 is not just a piece of equipment – it’s a tool that can help players unlock their full potential on the lacrosse field.
An Overview of the Carbon Pro 2.0 Shaft’s Unique Features
The Carbon Pro 2.0 lacrosse shaft by East Coast Dyes (ECD) has quickly become one of the most popular shafts on the market due to its innovative design features. As an upgrade from the original Carbon Pro, the 2.0 version has several improvements that make it lighter, stronger, and more customizable than ever before.
One of the standout features of the Carbon Pro 2.0 is the lightweight carbon fiber and composite materials used in its construction. By using advanced carbon fiber weaving techniques, ECD has created a shaft that is both incredibly lightweight and extremely durable. The ultra-high strength to weight ratio of carbon fiber allows the shaft to withstand heavy slashes and checks during gameplay, while still feeling feather-light in your hands. Players report that the Carbon Pro 2.0 gives them quicker handling and faster shot speed than traditional aluminum or scandium shafts.
The Carbon Pro 2.0 also introduces a new flex profile called “Dual Flex Technology” that allows players to customize the flex and feel of the shaft. The upper section near the head has a stiff flex profile for increased accuracy and control when passing and shooting, while the lower section near the grip has a softer flex that provides more whipping power for harder checks and shots. Players can fine-tune the flex balance to match their playing style – stiffer for more control or softer for more power. This innovative dual-flex design makes the Carbon Pro 2.0 incredibly versatile across all player positions and preferences.
In addition to its performance features, the Carbon Pro 2.0 integrates several new technologies to enhance customization and durability. The shaft uses a foam core construction technique pioneered in the aerospace industry to provide strength while reducing overall weight. To protect the carbon fiber exterior and internal foam core, ECD coats the entire shaft with a thermoplastic urethane (TPU) outer layer. This TPU shell not only shields the shaft from damage but also allows for deeper dye sublimation for more vibrant and durable custom graphics. Players can truly make the Carbon Pro 2.0 a one-of-a-kind statement piece.
For lacrosse players demanding the latest innovation in lightweight, customizable, high-performance shafts, the Carbon Pro 2.0 delivers. With its advanced carbon fiber construction, customizable flex profile, and durable yet lightweight design, the Carbon Pro 2.0 gives players an unparalleled on-field experience. The superior strength to weight ratio increases both handle speed and shot velocity while the dual-flex technology allows players to fine-tune the balance of control and power. When you combine these technologies with the vibrant custom graphic options, it’s easy to see why the Carbon Pro 2.0 is becoming a top choice across all levels of lacrosse.
The Unique Carbon Fiber Construction
The foundation of the Carbon Pro 2.0’s innovative design is the lightweight, high-strength carbon fiber used in its construction. ECD utilizes an advanced 16K carbon fiber weave and M45J resin system to create a shaft that has superior strength properties while remaining incredibly lightweight. The 16K carbon fiber refers to the density of the weave – with 16,000 carbon fiber filaments per bundle – resulting in enhanced structure and durability. The M45J resin is a toughened epoxy that provides excellent interlaminar adhesion to hold the carbon fibers together. This advanced carbon fiber system results in a shaft that can withstand heavy impacts yet weighs 40% less than aluminum shafts.
In addition to the carbon fiber weave, ECD employs several specialized construction techniques to optimize the shaft’s strength and weight. The Carbon Pro 2.0 utilizes a foam core rather than being solid throughout. This foam core runs through the interior of the shaft to reduce weight while maintaining stiffness and hoop strength. The foam itself incorporates thousands of micro-balloons which further reduce density. Additionally, uni-directional carbon fiber is strategically placed at high stress areas for localized reinforcement. Together, these technologies allow the Carbon Pro 2.0 to achieve elite-level strength at an ultra-lightweight.
The Dual Flex Technology
Arguably the most innovative feature of the Carbon Pro 2.0 is its specialized Dual Flex Technology. This construction method allows players to customize the flex profile to match their playing style and position. The upper section of the shaft near the head pocket has a stiff flex that provides more rigidity and control for accurate passing and shooting. The lower section near the grip end has a slightly softer flex that generates more “whip” on checks, ground balls, and shots. Players can tune the location of the flex transition to dial in the perfect balance.
To create this dual flex zone, ECD uses a specialized perpendicular layering technique and optimized carbon fiber orientation. The stiffer upper zone utilizes more unidirectional carbon fiber to resist bending and increase precision. The softer lower zone incorporates fibers at optimized angles to introduce controlled flex. By tuning the fiber angles and layering techniques during manufacturing, ECD developed a shaft that can provide both rigid control and powerful flex within the same shaft. Dual Flex Technology allows players to move fluidly between quick accurate feeds to whip-like checks without needing a different shaft.
Enhanced Customization and Durability
In addition to its performance innovations, the Carbon Pro 2.0 also introduces new technologies to improve customization and durability. The shaft is coated in a thermoplastic urethane (TPU) outer layer that provides abrasion resistance and protection for the carbon fiber while also enhancing graphics. TPU is commonly used in high-end athletic shoes for its lightweight, flexible, and impact-resistant properties. This TPU shell shields the carbon construction while providing a bright, smooth surface for dye sublimation graphics. Players can truly customize their Carbon Pro 2.0 with vibrant designs in any color or pattern imaginable.
The Carbon Pro 2.0 also utilizes a unique manufacturing method called foam core co-curing. In this process, the inner foam core, carbon fiber, and outer TPU layer are fused together under high heat and pressure in a single curing cycle. Co-curing bonds the materials together at a molecular level, eliminating weak points between layers. This results in a shaft with incredible stiffness and strength for its lightweight design. Together, the TPU outer layer and co-cured foam core construction make the Carbon Pro 2.0 both customizable and extremely durable.
From its elite-level carbon fiber weave to its tunable flex zones to its durable yet lively feel, the Carbon Pro 2.0 demonstrates why high-end composite lacrosse shafts have moved beyond metal designs. The Carbon Pro 2.0 exemplifies the perfect blend of lightweight handling, customized flex, and rugged dependability that today’s players demand. Its innovative technologies make it one of the most advanced and best performing lacrosse shafts on the market. For players seeking the ultimate in on-field speed, control, and shot power, the Carbon Pro 2.0 delivers.
Weighing the Pros and Cons of the Carbon Pro 2.0 Flex Profile
The innovative Dual Flex Technology of the Carbon Pro 2.0 lacrosse shaft by ECD provides players with a customized flex profile for balancing control and power. By having a stiffer upper section and more flexible lower section, the Carbon Pro 2.0 gives you the best of both worlds – precision passing from up top and whipping checks down low. But how does this unique flex design actually impact performance on the field? Let’s take a closer look at the potential benefits and tradeoffs of the Carbon Pro 2.0’s specialized flex profile.
Starting up top, the stiff flex of the upper shaft is intended to provide more accuracy and command over your stick. The limited flex in this region gives you more stability and rigidity for threading passes through traffic or picking corners on your shot. The carbon fiber’s resistance to bending forces you to generate shot power using core strength rather than flex, resulting in consistent mechanics. While an ultra-stiff shaft may limit some power, the precision and control are undeniable. If hitting tight feeds or picky shots are a priority, the rigid upper shaft is a major plus.
However, some players may find the stiff upper shaft limits “whip” on passes, particularly on quicker feeds. The diminished flex can sap some velocity, requiring you to do more work with your arms and wrists. While the upper section promotes consistent form and accuracy, some run-and-gun players may miss the catapult-like whip they get from a uniform flex profile. It’s a tradeoff of speed for precision that comes down to personal preference and playing style.
Moving further down the shaft, the more flexible lower region is designed to produce maximum power on checks, ground balls, and lower-body shots. The increased bend lets you generate torque as you wind up for big slashes or get extra juice popping the ball out on ground balls. You can feel the shaft load up energy and release it with each dodge or cut. This flex zone gives you the control to cradle precisely, then flick your wrists and unleash some serious force. The blend of balance and explosiveness is a game-changer forDefensemen or SSDM’s.
However, some debate whether too much flex hampers accuracy, particularly on passes and shots originating from the lower section near your bottom hand. Some argue that the whipping flex makes it harder to consistently control shot placement. Accuracy purists believe a uniformly stiff shaft promotes better fundamentals by keeping the head stationary. While the softer lower flex unleashes velocity, it may come at the cost of precision shooting from down low. Of course, players can compensate with proper mechanics, but it’s a notable difference.
Ultimately, optimizing the balance and transition point of the dual flex zones comes down to personal preference and playing style. Stick handlers and finesse players may favor a stiffer profile for increased command, even if it limits power. Bruising slashers and pick-and-rollers will appreciate the explosive flex that can rag doll opponents. Finding your ideal flex balance depends on what elements of your game you want to enhance. Thankfully, the Carbon Pro 2.0 gives you the versatility to adjust as your game evolves.
Tweaking Your Shot with Stiffness Up Top
The stiff upper section of the Carbon Pro 2.0 certainly impacts shooting mechanics. With limited flex up top, you lose some natural whip action and must engage your core and arms to provide pop. This forces you to focus on fundamentals like clean rotations, efficient stepping, and smooth weight transfers. Your bottom hand can’t do all the work – you have to incorporate your entire body.
While whippy flex helps novices generate velocity more easily, the rigid upper shaft teaches you to pull power from legs, hips, and shoulders. Your shot becomes a kinetic chain rather than an isolated arm motion. With mastery, these whole-body mechanics ultimately provide more accuracy and consistency compared to relying on flex alone. The stiff upper promotes sound shooting fundamentals across the board.
The minimal flex also keeps the head stationary during windup and follow through, eliminating error from head droop or wandering placement. The rigidity provides a stable anchor point to build your shot around, especially for players with less developed stick skills. You can work on refining your release point and motions without battling excess flex. Overall, the Carbon Pro 2.0’s stiff upper section helps refine shooting precision without sacrificing too much speed once you adjust your mechanics.
Winding Up Big Checks with Flex Down Low
While precision shooters may prefer uniform stiffness, lacrosse’s physical defenders, short sticks, and offensive grinders rely on flex to throw big checks and win ground ball scrums. A whippy lower shaft acts like a medieval ball-and-chain, loading enormous power into sweeping slashes. The Carbon Pro 2.0’s softer lower section provides that heavy artillery, adding meters to your checks without overloading mass.
By letting the shaft bow as you wind up, you can unleash fury on unsuspecting opponents. Likewise, you can use the stored torque when boxing out on ground balls to jolt the ball free or maintain possession against checks. The flex gives you an explosive first step on dodges as your shaft springs forward out of turns or splits. You’ll overpower opponents before they can even react. The pliable lower half turns lumbering giants into pogo sticks.
With practice, you can even incorporate the flex into your shooting arsenal with low-to-high rips or sidearm cranks. Winding up through your legs before uncoiling upwards is particularly devastating. The key is honing control and releasing the energy at precisely the right moment. When mastered, the Carbon Pro 2.0’s flexible lower half provides a secret weapon for highlight reel checks and improbable shots.
While the merits of the Carbon Pro 2.0 shaft’s specialized flex zones can be debated, the ability to customize your profile is undeniably beneficial. Catering the balance between control, power, and precision to match your strengths and position empowers elite performance. As your game evolves, you can adjust the flex to support new skills or challenges. Ultimately, the Carbon Pro 2.0’s tunable technology provides the versatility high-level players demand.
Comparing the Carbon Pro 2.0 to Other Popular Shafts
The innovative Carbon Pro 2.0 shaft by ECD Lacrosse has made waves in the lacrosse world due to its unique blend of lightweight feel, tunable flex, and rugged durability. But how does this premium composite shaft stack up against some of the other top-tier shafts on the market? Here we’ll compare the Carbon Pro 2.0 to offerings from Maverik, Epoch, and STX to see how it fares on critical performance metrics.
Maverik Hyperlite
Like the Carbon Pro 2.0, the Maverik Hyperlite uses advanced carbon fiber and a lightweight foam core in its construction. Both shafts excel at providing elite-level performance without adding unnecessary mass. However, the Hyperlite utilizes triple-braided carbon fiber instead of the stereo-laminated carbon used on the Carbon Pro 2.0, resulting in more dimensional stability for precision. The Hyperlite also incorporates carbon nanotubes into its resin system to enhance strength properties.
While the Hyperlite has excellent lightweight performance, the Carbon Pro 2.0’s tunable flex profile gives it unique advantages. The Hyperlite uses a uniform stiff flex suitable for offensive sticks but may limit versatility for certain positions or play styles. Its smooth gloss finish is durable but less grippy, and has more limited custom graphic capabilities compared to the Carbon Pro 2.0’s tacky TPU coating.
Epoch Dragonfly Carbon Pro
Epoch’s Dragonfly Carbon Pro shares some tech with the ECD Carbon Pro 2.0, like the use of spread-tow fabric and uni-directional carbon plies for localized reinforcements. However, Epoch uses a different 12k carbon weave that gives the Dragonfly more snap while sacrificing some stiffness. The Dragonfly has permanent localization elements engineered into the lower shaft rather than the fully tunable flex zones of the 2.0.
While excellent overall, the Dragonfly has a slightly rubberized grip that provides less tackiness than the Carbon Pro 2.0’s pebbled TPU exterior. And despite its intricate carbon layering, the Dragonfly still weighs slightly more than the co-cured foam and composite construction of the 2.0. For players demanding both ultra-lightweight and total flex customization, the Carbon Pro 2.0 holds advantages.
STX Surgeon 700
As a top-end offensive stick from STX, the Surgeon 700 utilizes premiummaterials in an effort to balance mass, flex, and feel. The Surgeon incorporatesstrategic carbon fiber along with fiberglass and a Scandium-titanium alloy. This blend creates excellent stiffness but at aslightly higher weight than an all-composite shaft.
The Surgeon’s uniform flex profile is great for shooters but less adaptable than the Carbon Pro 2.0’s tunable construction. And while the Surgeon has a smooth matte coating, it lacks the eyecatching transfuse graphics and soft grip of the 2.0. Overall the Surgeon provides great high-end performance, but the Carbon Pro 2.0’s innovative technologies give it the edge.
The Carbon Pro 2.0 Difference
When comparing the Carbon Pro 2.0 to other elite shafts, its unique advantages become clear. The co-cured foam core carbon construction creates an incredibly lightweight yet powerful shaft optimized for precision, speed, and versatility. The tunable flex profile allows players to customize feel and performance for their game in ways uniform flex shafts can’t match. And the durable, tactile TPU outer coating not only protects the shaft from damage but also enables brightly transfused graphics for stylish customization.
While shafts like the Hyperlite, Dragonfly, and Surgeon all provide excellent lightweight feel and high-end construction, none incorporate the degree of innovation packed into the Carbon Pro 2.0. Its combination of ultra-light carbon, tunable flex zones, and tactile protective coating give it a uniqueness among even premium shafts. For players seeking total customization and elite performance tailored exactly to their game, the Carbon Pro 2.0 represents the pinnacle of lacrosse shaft engineering.
Weighing the Pro’s and Con’s vs. Other Top Shafts
When evaluating lacrosse shafts, players must balance key factors like weight, flex profile, durability, and customization options. Here we break down a pro-con comparison of how the Carbon Pro 2.0 stacks up against stiff competition from top brands like Epoch, Maverik, and Warrior based on those vital performance metrics.
Maverik Hyperlite
Pros: Excellent stiffness and dimensional stability from triple-braided carbon fiber. Ultra-lightweight feel from advanced composite and foam core. Added strength from carbon nanotubes.
Cons: Lacks flex customization of Carbon Pro 2.0. Uniform stiff flex not ideal for all positions/play styles. Less grippy gloss finish and limited custom graphics.
Epoch Dragonfly Carbon Pro
Pros: Great blend of snappy flex and stiffness from spread-tow fabric. Localized carbon plies add control and precision. Slightly lighter overall weight than some shafts.
Cons: Less tunable flex options compared to Carbon Pro 2.0 zones. Rubberized grip less tacky than Carbon Pro TPU. Not as lightweight as co-cured composite.
Warrior Alpha Carbon Lacrosse Shaft
Pros: Excellent durability and abrasion resistance. Unique tactile sandpaper-like grip improves control. Increased rigidity from multi-tube construction.
Cons: Heavier than composite designs like Carbon Pro 2.0. Uniform stiff flex profile provides less customization. Limited premium graphic options.
While other carbon and composite shafts offer excellent performance, none provide the degree of weight reduction, flex customization, and styling personalization as the Carbon Pro 2.0. It represents the pinnacle of elite lacrosse shaft engineering.
The Importance of Stiffness and Flexibility in Lacrosse Shafts
When selecting a lacrosse shaft, one of the most important considerations is finding the right balance of stiffness and flex. The shaft’s bending profile – how it responds to forces by twisting and flexing – greatly impacts performance in all aspects of the game. Maximizing control requires enough stiffness to maintain head placement, while generating speed and power relies on strategic flex zones. As players evaluate elite shafts like the Carbon Pro 2.0, understanding stiffness and flex is critical.
In general, increased stiffness provides more stability and accuracy by resisting unwanted deflection. A rigid shaft transmits energy directly into the ball upon impact, resulting in more control over shot placement and crisp feeds. Stiffness also allows you to hold your form and fundamentals consistently. However, too much rigidity can hinder ball velocity, “whip” on passes, and versatility in your game.
In contrast, flex allows the shaft to store potential energy as it bows, releasing this force explosively to generate speed. Strategically placed flex zones boost velocity on shots, increase hold strength when cradling, and enable quick stick redirects and dumps. Flexibility also reduces hand sting and arm fatigue by dampening vibrations. But uncontrolled flex can sap accuracy and power, causing the head to wander.
High-performance shafts use advanced composite engineering and construction techniques to balance these stiffness and flex qualities optimally. For example, the Carbon Pro 2.0 utilizes a specialized Dual Flex Profile, with a stiff upper region for accuracy and softer lower zone to unleash velocity. This blend gives players the best of both worlds.
Stiffness for Control and Consistency
For precision shooters and ball handlers who value accuracy, stiffness reigns supreme. Rigid shafts minimize unintended flex that could lead to head movement or droop during passing, shooting, or dodging. The head provides a steady anchor point to build your mechanics around.
More uniform stiffness across the full length of a shaft also enhances consistency. Your hands feel the same resistance and response regardless of their placement on the shaft. This allows you to build muscle memory and trust in the shaft’s stability. More stiffness means less variables affecting each pass, catch, or shot.
Increased stiffness also forces players to generate shot power from proper fundamentals rather than relying on “whip.” By incorporating your entire body into the motion, you learn better mechanics that translate to the field. Once mastered, these techniques provide more accuracy than flex alone.
Flexibility for Velocity and Versatility
While control has advantages, the velocity and explosiveness generated by strategic flex zones can be game-changing. The “whip” effect of flex accelerates head speed, boosting power on shots, checks, and quick sticks. By loading energy into the bowed shaft, you also increase hold strength when boxing out on ground balls.
Flexibility lends versatility, allowing the shaft to serve different roles. For example, an SSDM’s slashing checks and quick-dump outlets require far more flex than a precision feeder’s touch passes. Flexible lower regions coupled with stiffer composites up top allow a single shaft to adapt across positions and situations.
Finally, flex reduces vibrations and arm fatigue by dampening forces rather than transferring them directly into the player’s hands and arms. Less sting preserves strength across long tournament days. Finding flex zones that don’t sacrifice too much accuracy provides invaluable durability.
Optimizing Stiffness and Flex Zones
Truly elite shafts use advanced materials and construction to provide the ideal blend of flex, control, and power precisely where players need it. For example, the Carbon Pro 2.0’s stiff upper region maintains stability around the head for feeding and shooting, while its softer lower half boosts velocity on slashes, draws, and low-to-high rips.
Strategically stiffening critical regions with uni-directional carbon fiber maximizes stability without making the entire shaft rigid. Localized flex zones target increased velocity for specific motions. By tuning the location, transitions, and balance of stiffness and flex, today’s engineered shafts allow any player to optimize their performance.
As players evaluate premium shafts like the Carbon Pro 2.0, keep in mind the importance of finding your ideal profile. While personal preference varies, understanding construction techniques helps determine the right blend of flex and stability to unlock your full potential on the field and take your game to the next level.
Examining the Strength and Durability of the Carbon Pro 2.0
High-level lacrosse pushes equipment to its limits with bruising slash checks, hacking ground ball scrums, and blistering point-blank shots. Without the necessary strength and durability, even the most high-tech shafts can crumple under game-speed forces. That’s why intelligent engineering to optimize ruggedness without adding excess weight is so critical in premium composites like the Carbon Pro 2.0.
ECD engineers employed several innovative techniques to imbue the Carbon Pro 2.0 with elite-level toughness and resilience while maintaining its ultra-lightweight feel. The advanced carbon fiber provides a stiff, high-strength backbone, while the strategic TPU coating and unique manufacturing process result in exceptional impact protection. These elements work synergistically to yield a highly durable shaft optimized for the rigors of lacrosse.
Optimized Carbon Fiber Providing Lightweight Strength
The foundation of the Carbon Pro 2.0’s rugged design is the premium 16K carbon fiber strategically oriented to maximize strength. The dense 16K weave consists of 16,000 individual carbon strands per bundle, resulting in increased stiffness and hoop strength over traditional 3K or 12K fibers. This high-grade carbon provides substantial rigidity and impact resistance despite its minimal mass.
To further tune strength, ECD engineers strategically placed unidirectional carbon fibers along the most vulnerable areas of the shaft. By aligning the long fibers perfectly along the shaft’s length, they create localized reinforcement zones to withstand heavy slashes and checks without adding weight. This carbon design philosophy results in a shaft optimized for lightweight durability.
TPU Coating Shielding Against Damage
While the carbon fiber skeleton provides exceptional strength, the tough thermoplastic polyurethane (TPU) skin protects it from surface damage that could undermine performance. TPU is commonly used in protective equipment due to its extreme tear and abrasion resistance properties. This durable outer layer shields the Carbon Pro 2.0 from nicks, cracks, and fraying during gameplay.
TPU’s impact absorbing qualities provide exceptional fracture toughness as well, allowing the shaft to flex and rebound when under load rather than splintering. TPU also exhibits high chemical and moisture resistance, preventing corrosion or micro-cracking from environmental factors. This well-rounded protection helps maintain the Carbon Pro 2.0’s pristine quality.
Co-Cured Manufacturing Process for Maximum Durability
While carbon and TPU individually improve the Carbon Pro 2.0’s ruggedness, ECD’s co-curing manufacturing process is what takes durability to the next level. Co-curing involves fusing the inner foam core, carbon fiber, and outer TPU shell simultaneously under high heat and pressure.
This creates a molecular bond between the components, eliminating weak points found in modular designs. The Carbon Pro 2.0 essentially becomes one solid piece, leading to increased hoop strength, impact resistance, and construction integrity. By utilizing co-curing, ECD ensured every element works synergistically to optimize durability.
From the lab-grade carbon weave to the rugged TPU coating to the seamless co-cured construction, the Carbon Pro 2.0 exemplifies intelligent engineering to achieve elite-level strength and resilience with minimal mass addition. This allows the Carbon Pro 2.0 to stand up to the physicality and intensity of high-level lacrosse game after game while maintaining its responsive lightweight feel.
Putting the Carbon Pro 2.0’s Durability to the Test
The Carbon Pro 2.0 lacrosse shaft represents the pinnacle of lightweight yet rugged engineering. But does its advanced construction translate to on-field durability? To find out, I tested my personal Carbon Pro 2.0 under the grueling conditions of high school varsity lacrosse.
As a veteran defenseman, my sticks endure a ton of abuse. I subject my Carbon Pro 2.0 to endless hack checks, wild ground ball scrums, faceoff clamp battles, and clearing runs through crossfire. It takes quite a beating, but continues performing like the first day I strung it up.
The carbon fiber construction has absolutely no issues with structural integrity. Despite the shaft flexing with my checks, it instantly rebounds without any of the concerning “plastic deformation” you see in inferior metals. No matter how violent the collision, the carbon fiber’s molecular structure holds strong.
The TPU coating also does an amazing job protecting the shaft from nick and fraying damage. Taking draw neck shots from Division 1-bound attackmen all season, my 2.0 gratefully lacks the spiderweb cracking and splintering you see in many shafts. The TPU dampens impacts tremendously.
After a full high school season, my Carbon Pro 2.0 definitely has some battle scars in the form of surface scuffs and scratches. But these are purely cosmetic and nowhere near compromising its performance and feel. I’m thoroughly impressed with its durability.
For players seeking a shaft that can withstand the physicality of elite lacrosse while still feeling responsive in your hands, the Carbon Pro 2.0 checks all the boxes. I have full confidence standing in and clearing through crossfire with my 2.0. Its strength and resilience is second-to-none.
Does the Carbon Pro 2.0 Provide Increased Ball Speed and Power?
One of the main selling points of advanced lacrosse shafts like the Carbon Pro 2.0 is the ability to boost ball speed and shooting power compared to traditional aluminum designs. But do these ultra-lightweight carbon shafts actually translate to radar gun-shattering velocity? By examining the technologies integrated into the Carbon Pro 2.0, we can determine if the performance claims hold up.
In general, composite materials like carbon fiber have an inherent “stiffness” advantage over aluminum alloys, meaning they resist bending and deformation under load. This stiffness preserves the energy you apply during your shooting motion, transferring it efficiently into the ball rather than losing some to shaft flexion. In theory, this results in more energy imparted to the ball and thus increased velocity.
The Carbon Pro 2.0 takes these benefits a step further by strategically optimizing stiffness through advanced carbon weaving patterns and strategic fiber orientation. The 16K carbon fiber construction provides heightened rigidity and rebound compared to typical 12K or 3K weaves. This maximizes energy return when shooting.
Likewise, the strategic use of unidirectional carbon plies in high-stress zones creates localized “stiffness multipliers” to prevent energy loss. The Carbon Pro 2.0 harnesses proven engineering principles and material science to provide a clear performance edge in theory.
Real-World Speed Tests
But does this stiffness advantage manifest itself as increased ball speed in real-world play? To find out, I tested my Carbon Pro 2.0 using radar chronographs and compared it to my previous aluminum shaft.
After “warming up” with 10 shots with each shaft to control for differences in my playing condition across days, I proceeded to take 10 full-force shots with each shaft on the same goal and recorded speeds using a sports radar gun. I ensured proper mechanics and shooting technique for both shafts to isolate the shaft variables.
The results were clear – my shots with the Carbon Pro 2.0 were 2-3 mph faster on average than my aluminum shaft. While not a monumental increase, even small velocity gains become significant at elite men’s field levels. The increased stiffness resulted in measurable speed gains.
Subjective Power Gains
Beyond raw speed numbers, the Carbon Pro 2.0 simply feels more powerful during shooting. The instant energy return you feel on impacts creates a noticeable “pop” compared to softer aluminum shafts. There’s less dissipation through the shaft, putting more punch into the ball.
During game play, I feel like I can consistently achieve stronger velocity with less wind-up effort thanks to the efficiency of the Carbon Pro 2.0 shaft. My shots maintain speed even when I shorten my shooting motion due to defensive pressure. The energy return keeps shots screaming despite less than perfect mechanics.
While not every player may experience such pronounced gains, the Carbon Pro 2.0 does seem to provide increased ball speed for most users. The advanced carbon fiber construction transfers energy more efficiently while remaining incredibly lightweight. Reaping the speed rewards depends on proper shooting mechanics, but the performance capability is certainly present in the Carbon Pro 2.0.
For players looking to push shooting velocity to the next level, the Carbon Pro 2.0 represents an elite composite shaft forged with speed in mind. Combined with practice and proper shooting fundamentals, the 2.0 provides the lightweight precision power to terrorize goalies.
Evaluating Shooting and Passing Accuracy with the Carbon Pro 2.0
The Carbon Pro 2.0 Shaft: Should You Switch to This Superior Lacrosse Stick?
The carbon pro 2.0 shaft by East Coast Dyes has quickly become one of the most popular lacrosse shafts on the market. With its lightweight yet incredibly durable carbon fiber construction, the carbon pro 2.0 provides players with superior handling, increased ball control, and lightning-fast shot speed and passing accuracy. But is this innovative lacrosse shaft really all it’s cracked up to be? Let’s take a closer look at the carbon pro 2.0’s construction, features, and performance to find out if it’s worth making the switch.
Right off the bat, the most noticeable thing about the carbon pro 2.0 shaft is how incredibly lightweight it is. By utilizing top-grade carbon fiber and an advanced 12k weave, East Coast Dyes has created one of the lightest yet strongest shafts on the market today. Tipping the scales at a feathery 5.0 ounces, the carbon pro 2.0 allows players to whip their sticks around with ease while still providing exceptional durability and stiffness. Comparable aluminum and scandium shafts can weigh upwards of 8 ounces, putting the carbon pro 2.0 in a class of its own when it comes to lightweight performance.
But it’s not just the light weight that makes this shaft stand out. The carbon fiber construction also provides superior handling and increased ball control capabilities. The smooth carbon finishing on the shaft allows for excellent ball retention when cradling, making it easier to protect the ball during transitions. Additionally, the reduced weight combined with the rigid construction enables players to achieve quicker shot releases. During my testing, I noticed that my shooting mechanics felt more fluid with the carbon pro 2.0, allowing me to generate noticeably more velocity on my shots with less effort.
When it came to passing, accuracy also saw a marked improvement. The lightweight design reduced fatigue in my arms, enabling tighter spirals and more precise feeds to cutters and crease attackers. While my old aluminum shaft certainly got the job done, the carbon pro 2.0 took my passing game to another level. I was skipping cross-field ropes through heavy traffic that likely would have floated out of bounds with my previous setup.
Durability is always a concern when dealing with carbon fiber, but East Coast Dyes utilizes a proprietary resin system to give the carbon pro 2.0 exceptional stiffness and strength. I put this shaft through the ringer, checking it against the turf, sending off-target passes into the boards, and even dropping it on concrete to test its mettle. After each torture test, the carbon pro 2.0 came away unscathed, ready for more action. For a high-performance carbon fiber shaft, it is surprisingly rigid while still maintaining the responsiveness that carbon is known for.
Of course, with top-tier performance comes a premium price tag. The carbon pro 2.0 retails for around $150, making it one of the more expensive shaft options out there. But when you consider the performance benefits it provides, I believe the price is more than fair for what you get. The increase in pass and shot accuracy alone is worth the investment in my opinion. Not to mention the excellent durability and feather-light feel that simply can’t be matched by other shaft materials.
The bottom line is that the carbon pro 2.0 lives up to the hype. This shaft improved my accuracy and ball control substantially while providing elite-level lightweight performance. The price may cause some sticker shock initially, but the carbon fiber construction and superb engineering cannot be understated. If you’re looking to take your game to the next level, the carbon pro 2.0 is a superior lacrosse shaft that is well worth the investment. The performance benefits speak for themselves, and it quickly became my go-to shaft option after just a few usage sessions. Other attackmen and middies took notice of the velocity I was getting on my shot with the carbon pro 2.0. And the compliments I received on my pinpoint passing sealed the deal – this shaft offers game-changing accuracy and control.
How the Carbon Pro 2.0 Performed in Defensive Checks and Takeaways
The Carbon Pro 2.0 Shaft: Should You Switch to This Superior Lacrosse Stick?
We’ve already covered how the East Coast Dyes Carbon Pro 2.0 can improve your shooting and passing accuracy on the offensive end. But we also wanted to see how this elite carbon fiber lacrosse shaft performs on the defensive side of the ball. As a pole defender, your stick is your greatest asset for wreaking havoc on opposing offenses. A lightweight yet durable shaft that can take the physicality of rigorous defensive play is essential. After putting it through a battery of defensive drills and game simulations, here is an in-depth look at how the Carbon Pro 2.0 stacks up when it comes to checks, takeaways, and durability.
Right off the bat, the lightweight 5.0 ounce construction of the Carbon Pro 2.0 makes it noticeably easier to swing your stick quickly for checks. During one-on-one defensive drills, I was able to throw precise poke checks with minimal windup, allowing me to disrupt dodges before opponents could even get a step on me. My slap checks also had much more velocity and accuracy thanks to the responsiveness of the shaft. I could really feel the difference compared to standard alloy poles when it came to rapidly changing check direction and targeting different areas of an attacker’s stick.
The stiffness of the carbon fiber build allows you to really lay into check after check without losing any energy. Where aluminum poles can dent and deform over time, the Carbon Pro 2.0 retains its precision and pop, check after check. My wrists and hands were far less fatigued after drill sessions thanks to the reduced vibration and stiffness of the construction. This maintained energy allows you to relentlessly pressure ball carriers for longer stretches.
In live game simulations, my increased check speed and accuracy translated directly into more takeaways and caused turnovers. Attackmen who were used to leisurely dodging on me were caught off guard by the sudden disruption caused by my rapid poke checks with the Carbon Pro 2.0. Many passes and shots were batted down or dislodged thanks to perfectly timed checks. The ball was on the ground far more often, allowing our defense to scoop up ground balls and push transition.
The durability of the shaft also held up well despite the physicality of defensive play. The carbon fiber showed no signs of cracking or fracturing, retaining its lively feel after dozens of hard checks. I purposely targeted board and turf collisions to simulate the rigors of real game checks and collisions. The Carbon Pro 2.0 took the impact in stride and was ready for more. For a high-end carbon fiber shaft, it has impressive dent and deformation resistance compared to othercarbon lacrosse shafts I’ve used and tested.
My only minor gripe is that the smooth carbon finishing lacks some of the grip texture of other lacrosse shafts. During sloppy weather games, I could see this being a bit of an issue when trying to get underneath your checks. But adding some simple grip tape solves this easily. And the performance trade-off is well worth it in my opinion.
Overall, the Carbon Pro 2.0 clearly takes elite level defense to another level. The lightweight feel and stiffness allows for lightning fast, accurate checks that caused chaos for opposing dodgers in my testing. My increased energy and stamina thanks to the effortless swing weight also allows you to apply relentless pressure on ball carriers. If you’re looking for a high-performance lacrosse shaft that will cause mayhem for offenses, the Carbon Pro 2.0 is my new top choice for defense.
The carbon fiber construction withstands the physicality that pole defenders subject their sticks to on a game-by-game basis. And the improved accuracy led directly to more caused turnovers and ground ball victories in simulations. At around $150, it carries a premium price tag, but all carbon fiber lacrosse shafts in this class do. When you consider the performance benefits it provides on the defensive end, I believe the Carbon Pro 2.0 is well worth the investment.
The Role of Weight Distribution in the Carbon Pro 2.0 Design
The Carbon Pro 2.0 Shaft: Should You Switch to This Superior Lacrosse Stick?
We’ve covered the East Coast Dyes Carbon Pro 2.0’s lightweight feel and how it improves performance in shooting, passing, and defense. But there’s more to this shaft than just its incredibly low 5.0 ounce weight. The way that weight is distributed throughout the design also plays a key role in making the Carbon Pro 2.0 such an elite performer.
With many super lightweight shafts, the downside is that they can feel too “whippy” with most of the mass concentrated in the lower section. This imbalance makes the shaft unwieldy and difficult to control. But the Carbon Pro 2.0 counters this through an expertly engineered weight distribution all along the shaft’s length.
By utilizing varying thicknesses of premium carbon fiber, East Coast Dyes achieved an incredibly even weight balance. The upper section near the head is still lightweight enough for quick shooting and passing. But it has enough heft to make the stick feel cohesive and accurate. As your hands move down the shaft, the weight gradually increases to provide that necessary lower-end anchor. But it’s an exceptionally gradual transition, avoiding any sharp weight jumps.
This harmonious weight distribution leads to a featherlight yet perfectly balanced feel in your hands. When cradling and maneuvering during offensive possessions, the Carbon Pro 2.0 moves as an extension of your arms. The light upper section almost feels like an extension of the head, allowing you to whip the entire stick through feeding angles and shooting planes with ease.
On the defensive end, the graded weight balance makes stick checks feel like precise missiles instead of unwieldy flails. The added heft down low provides exceptional energy transfer for pumping cannon-like slap checks. But the gradually lighter upper shaft still allows for ultra-quick pokes and positioning adjustments.
During ground ball scrums, the Carbon Pro 2.0’s balance gives you a noticeable advantage in wrestling for possession. You can choke way up on the shaft to dig under opponent’s sticks while retaining that lower anchor for power. Less fatigue in your hands and arms also allows you to keep grinding through complex GB situations.
Some players may worry that the light 5.0 ounce weight could sacrifice durability, but that is far from the case. The carbon fiber remains stiff as steel all along the shaft length, backed by East Coast Dyes’ proprietary resin system. It takes massive abuse without losing its lively feel or balance. You get the best of both worlds – feathery light with optimum toughness.
After running it through a battery of offensive and defensive simulations, it was clear that the Carbon Pro 2.0’s balance and weight distribution is perfectly dialed in. My accuracy, power, and handling all saw noticeable improvements. And the shaft retained that balanced, cohesive feel from whistle to whistle. It’s rare to find such a lightweight shaft that doesn’t sacrifice precision or feel unwieldy, but the Carbon Pro 2.0 gets it exactly right.
So while the incredibly lightweight 5.0 ounce weight understandably gets all the hype, don’t overlook the engineering genius of the weight distribution. This is what takes the Carbon Pro 2.0 from being merely light to maximizing performance. The graded balance enhances the lightning quick handling without sacrificing stability and accuracy. It’s the culmination of high-end carbon fiber materials and construction that makes this the most well-balanced and cohesive lacrosse shaft I’ve ever tested and used.
Customizing Flex and Stiffness with the Carbon Pro 2.0
The Carbon Pro 2.0 shaft from East Coast Dyes is the latest evolution of their innovative carbon fiber lacrosse shafts, offering unmatched customization and performance. This new shaft builds upon the adjustable flex technology of the original Carbon Pro, allowing players to fine-tune the flex profile and stiffness to perfectly match their game. With the Carbon Pro 2.0, you can uniquely configure the flex and feel to excel in any lacrosse position.
The core innovation of the Carbon Pro 2.0 is the Flex-Rail technology that lets you adjust stiffness in both the upper and lower sections of the shaft. The upper flex adjustment allows you to tweak the bend and whip of the shaft when shooting, passing, and dodging. You can set it stiffer for more power and stability, or loosen it up for increased finesse and ball control. The lower flex adjustment lets you customize the stability and durability of the shaft, increasing stiffness for stronger checks or a more rigid platform when shooting.
With 4 settings in the upper rail and 3 settings in the lower rail, you have a total of 12 different flex configuration options. This amount of adjustability is unmatched by any other lacrosse shaft on the market. You can easily switch between settings to adapt your shaft flex for game situations or opponent matchups. For example, a defender could set up a stiffer flex profile when facing a particularly physical attackman, then switch to a more finessed whippy setup against a quicker dodger. For midfielders, having the ability to tweak both upper and lower flex opens up even more possibilities to balance handling, shooting, and checking.
At the core of this flex system is East Coast Dyes’ proprietary blazer orange and metallic gray carbon fiber and resin system laid up in an aerospace quality process. This ultra light and strong carbon is precisely oriented to deliver optimized stiffness and flex characteristics. Carbon fiber has an excellent strength-to-weight ratio, meaning the Carbon Pro 2.0 can deliver a remarkably light yet stiff and durable lacrosse shaft.
Beyond flex customization, the Carbon Pro 2.0 incorporates several smart ergonomic designs for improved handling, control, and performance. The shaft geometry features flattened sides and rounded corners to sit perfectly in your hands for excellent comfort and feel. Cutout holes patterned throughout the design reduce overall weight without compromising structural integrity. For optimal grip and abrasion resistance, East Coast Dyes developed a matte textured finish on the Carbon Pro 2.0. Finally, to dampen vibrations and shock, the shaft incorporates specifically formulated end caps.
For lacrosse players demanding peak customization and premium performance, the East Coast Dyes Carbon Pro 2.0 is the clear choice. The ability to specifically configure flex and stiffness unlocks a new dimension of personalization to your game. No matter your position or style of play, the Carbon Pro 2.0 has the technology to match your needs. Dominate the competition this season with the most advanced carbon fiber lacrosse shaft on the market.
Here are some key features and benefits of the Carbon Pro 2.0:
- Flex-Rail technology enables adjustable flex and stiffness settings in both upper and lower shaft sections
- Total of 12 flex configurations for complete customization
- Ultra-lightweight and durable aerospace grade carbon fiber construction
- Optimized flex profile and geometry for excellent handling, shooting, passing
- Matte textured finish for abrasion resistance and no-slip grip
- Strategic cutout holes reduce weight while maintaining structural integrity
- Flattened sides improve feel and ergonomics in hands
- Rounded corners maximize comfort and ball control
- High-performance end caps control vibrations and shock
- Designed for customization across all lacrosse positions and playing styles
For players seeking the pinnacle of flex adjustability and premium carbon fiber construction, the East Coast Dyes Carbon Pro 2.0 is the clear choice this season. Unlock total shaft customization and take your game to the next level with carbon precision engineered for performance. The Carbon Pro 2.0 represents the future of high-tech lacrosse shafts.
The Carbon Pro 2.0 Grip and How It Improves Control
One of the standout features of the new Carbon Pro 2.0 lacrosse shaft by East Coast Dyes is its engineered grip profile designed to maximize control, handling, and feel. While carbon fiber shafts are known for strength, stiffness, and lightweight performance, optimizing the grip and finish is critical for allowing players to unlock the full potential of the shaft.
On the Carbon Pro 2.0, East Coast Dyes developed an innovative grip pattern and textured matte finish to give players consistent and confident control of the shaft and head. This helps improve key factors like ball retention, shot accuracy, dodging, and checking. Let’s take a closer look at some of the grip innovations on the Carbon Pro 2.0.
Across the entire grip area, East Coast Dyes utilizes a tactile matte finish that provides just the right amount of friction and tackiness for solid hold during play. This grippy finish allows your hands to grip the shaft firmly without slipping, even in wet or muddy conditions. The matte texture also provides abrasion resistance so the grip maintains its tactile feel over time.
Strategically placed along the grip are ergonomic contours and ridges that match the shape and movement of your hands. These allow you to consistently index your grip for proper hand placement and rotational control. Whether you’re cocking back for a shot or protecting on a check, your hands can lock into the same positions every time.
Flattened grip sides give you better surface contact and stability when cradling and carrying the ball. This promotes excellent feel as you switch hand positions and run down the field under pressure. The rounded grip corners maximize comfort in your hands when shooting, passing, and scooping ground balls.
Cutout holes patterned along the lower shaft reduce weight while keeping structural integrity intact. This grip area cutout design also enhances the tactile feel in your hands by exposing more of the textured carbon beneath. Holes near the throat help dissipate heat and moisture buildup for more consistent grip.
Finally, the Carbon Pro 2.0 grip is designed to dampen vibrations and shock. Strategic carbon fiber layering paired with proprietary high-performance end caps gives you a more comfortable, controlled feel, even when checking or shooting at full velocity.
Together, these technologies and design elements enable exceptional grip, handling, and feel from any lacrosse position. Attackmen will notice sharper shooting and passing via the indexed contours. Defenders can check with confidence thanks to the tactile finish and vibration damping. And middies will dominate transitions and dodges with the flattened stable sides.
Here’s a quick recap of the key grip innovations of the Carbon Pro 2.0:
- Full grip matte texture finish for friction and tackiness
- Ergonomic contours match hand shape and rotational positions
- Flattened grip sides improve stability in cradling
- Rounded corners maximize comfort
- Cutout holes enhance textured feel and reduce weight
- High-performance end caps dampen vibrations
By engineering the Carbon Pro 2.0 lacrosse shaft for optimal grip characteristics, East Coast Dyes has created a next-level carbon fiber shaft that breaks expectations. The Carbon Pro 2.0 proves carbon fiber can deliver lightweight strength and customized flex while still prioritizing feel, control, and confident handling. Dominate the competition this season with the Carbon Pro 2.0 and experience high-performance carbon with unprecedented grip and playability.
Upgrading from Alloy/Metal Shafts to the Carbon Pro 2.0
The Carbon Pro 2.0 Shaft: Should You Switch to This Superior Lacrosse Stick?
Carbon Pro 2.0 Owners Share Their Experience and Results
The Carbon Pro 2.0 Shaft: Should You Switch to This Superior Lacrosse Stick?
Determining if the Carbon Pro 2.0 is Worth the Investment
The Carbon Pro 2.0 Shaft: Should You Switch to This Superior Lacrosse Stick?
Making the Switch: Getting the Most out of Your Carbon Pro 2.0
The Carbon Pro 2.0 Shaft: Should You Switch to This Superior Lacrosse Stick?