2022 Stringking Composite Shaft Review Top Features of the Composite Pro

2022 Stringking Composite Shaft Review Top Features of the Composite Pro

Composite Shafts Provide Superior Durability and Strength

One of the biggest advantages composite lacrosse shafts have over traditional aluminum is their unmatched durability and strength. Aluminum shafts can easily bend, warp, and dent with hard checks, leading to decreased performance and accuracy over time. Composite shafts are engineered using resin-impregnated carbon fibers layered in different orientations to create a shaft that can withstand huge impacts without damage.

In lacrosse, checks are an inevitable part of the game. You want a shaft that can take the punishment of aggressive defenders repeatedly hacking at it and emerge unscathed. Composite shafts like the Stringking Composite Pro use aerospace-grade composite materials to create a shaft more dent and bend resistant than any metal. We’ve all seen players frantically trying to bend back aluminum shafts mid-game after particularly bruising checks. With composite, you don’t have to worry about impact damage affecting your ability to cradle, pass, and shoot. It retains its shape and integrity no matter how hard you get hit.

The carbon fiber layers in composite shafts make them exceptionally stiff and rigid compared to aluminum. This translates to superior strength and resistance to warping. Aluminum fatigues over time, becoming more prone to bending and deforming permanently. The stiffness of carbon fiber prevents those micro-deformations that compromise durability. Engineers carefully orient the carbon layers to tune the flex and stiffness precisely where needed along the shaft’s length. The result is a shaft optimized for maximum power without being too stiff or brittle.

Durability also means resisting wear and tear during day-to-day use. Aluminum surfaces become scratched and rough over time from rubbing against gear, contact with the ground, and general handling. Composite maintains its smooth, consistent finish far longer, reducing friction and improving the feel in your hands. The slick surface also makes stringing easier by reducing string abrasion. Composite won’t degrade from sweat and moisture like aluminum either, maintaining consistent performance in all weather conditions.

Superior strength and impact resistance gives players confidence to play more aggressively. You can check as hard as needed without worrying about damaging your stick. The stiffness provides excellent energy transfer for quicker, more powerful shots. Composite allows engineers to really fine tune flex properties compared to aluminum. The Stringking Composite Pro has a low kick point for excellent power on passes and shots. The bow shape and strategic carbon layering help minimize impacts from checks as well. Composite gives you everything you need in a durable high performance shaft.

Next time you’re in the market for a new lacrosse shaft, strongly consider composite over metal. The strength, consistency, and durability of composite materials like carbon fiber represent a big step forward in lacrosse stick technology. With a composite shaft like the Stringking Composite Pro, you get a stick that will stand up to the rigors of the game and give you an extra edge over defenders trying to wrench the ball away.

Lightweight Composite Improves Maneuverability

The lightweight design of modern composite lacrosse shafts is another major benefit over traditional aluminum options. By reducing overall mass, composite shafts enhance your ability to quickly maneuver the stick for passing, shooting, and dodging defenders. The lightweight build improves speed, quickness, and responsiveness.

Aluminum shafts weigh considerably more than composite designs of equivalent size and length. Excess weight forces you to work harder to transition between different motions. Accelerating the stick into a shot or pass takes more effort with heavier aluminum. Quick stick fakes and jukes also become more challenging when carrying extra mass in your hands. Fatigue sets in quicker over the course of a game as you constantly battle inertia.

Composite allows engineers to pare away everything not essential to performance. Advanced carbon fiber composites weigh up to 35% less than aircraft grade aluminum alloys. Less weight translates directly into quicker hand speed and greater control. You can change directions faster reacting to defenders or breaking to open space. Getting your stick in passing lanes quicker helps connect those split second opportunities. Bringing your stick around for shots generates more whip for added velocity.

The lightweight properties of composite also reduce strain on your hands, wrists, and arms. Fatigue from constantly accelerating a heavy stick takes a toll over 48 minute lacrosse games. Lighter composite shafts make it easier to maintain crisp fundamentals as you get tired. You’ll stay quicker on your feet for dodging around defenders or sliding into passing lanes on defense. Less fatigue means you’re less likely to get caught flat-footed or a step behind the play.

Experience shows the performance benefits of lightweight composite versus aluminum. Stringking’s composite shafts weigh under 190 grams, roughly 40 grams lighter than typical aluminum options. Less rotational inertia makes it easier to transition between motions. Quicker changes of direction can create the extra separation needed from a defender. Faster shots arrive sooner with less wind up, catching goalies off guard. The lighter feel promotes better stick handling fundamentals as well.

Of course, engineers can go overboard removing too much material and undermine durability to cut weight. This is where Stringking’s rigorous design process pays off. They optimize every section of the shaft for maximum lightweight performance without sacrificing stiffness, strength, or balance. The Composite Pro has all the durable power needed for elite play in an ultra lightweight package.

Don’t underestimate the performance benefits of a lighter stick. Less mass coupled with composite’s stiffness gives you a supremely responsive and maneuverable shaft. Compared to aluminum, composite lacrosse shafts reduce fatigue while helping you shoot, pass, and dodge faster. See for yourself the quicker reaction times and improved control possible with composite technology.

Excellent Energy Transfer for Powerful Checks and Shots

The efficient energy transfer properties of composite lacrosse shafts give players an advantage creating powerful checks, passes, and shots. Composite’s stiffness prevents energy loss, ensuring more force gets delivered right to the ball or targeted player.

Aluminum shafts flex and deform when loaded, dissipating energy laterally instead of transferring it efficiently along the shaft’s length. The more an aluminum shaft whips, the less power reaches the end.Composite’s high stiffness keeps the shaft from flexing excessively as you load it for checks, passes, or shots. This allows more energy to travel through the shaft directly into the ball or check recipient.

The carbon fiber construction of composite acts like a spring that compresses then springs back. As you swing the stick, the carbon layers store potential energy, preventing wasted flexing or whipping. Right before impact, the carbon layers rebound, releasing their stored energy. The effect is like a steel baseball bat—the trampoline-like rebound effect generates tremendous power transfer.

Stringking optimizes the Composite Pro stiffness and flex properties all along the shaft length. The low kick point adds a bit of strategic flex to load up for powerful checks and shots. The bow shape where the head connects adds stiffness to withstand impacts. This combination provides hard, accurate passing and shooting with the durability to keep playing aggressively.

In game situations, you’ll immediately notice the difference in shot speed and power. Aluminum shafts lose velocity from whipping and flex. Composite’s efficient energy transfer maintains speed all the way through the head for maximum ball speed on passes and shots. Bringing the shaft through on checks also delivers more force to the opponent for better ball dislodges.

The efficient energy transfer shines when ripping high-velocity shots. You can lean into shots without the shaft absorbing force through flex. Shots maintain speed from windup to release for sizzling shots the goalie won’t react to in time. Blistering shots like the overhand worm-burner become even more potent with composite’s energy return.

On passes, the ball explodes off the pocket fueled by uninterrupted energy through the shaft. Teammates have more time to corral hard passes. Defenders have less chance to intercept. Quick touch passes also retain velocity over shorter distances for tight ball movement.

Overall, composite provides a clear performance edge creating power. The stiffness and energy return keep speed and energy channeled directly into the ball for every pass, shot, and check. Experience the shot speed, passing velocity, and check power only composite shafts like the Stringking Pro can deliver.

Reduced Vibrations Improve Accuracy

Composite lacrosse shafts like the Stringking Pro reduce vibrations for improved accuracy on shots, passes, and checks versus traditional aluminum shafts. The dampened feel provides superior control and responsiveness.

Aluminum shafts vibrate and resonate significantly when the ball makes impact, whether shooting, passing, or checking. These vibrations travel down the shaft into your hands. Too much vibration throws off your ability to control the stick face angle, pocket, and aim accurately.

The carbon fiber construction of composite shafts naturally dampens vibrations. Carbon fibers tightly bonded into unified sheets don’t resonate and vibrate like metal alloys. There is no metallic ringing when you pass or shoot. The smooth composite materials absorb and dissipate vibration energy through the handle.

Less vibration keeps the shaft stable and controlled even through hard checks and passes. You can place shots more precisely on goal when vibration isn’t influencing stick angle and pocket shape. Passes arrive on target without flutter from residual vibrations. Checks also connect with precision targeting the opponent’s stick sweet spot thanks to reduced vibrations.

Dampened vibrations give composite shafts like the Stringking Composite Pro a very solid and smooth feel. The stability promotes better fundamentals for cradling, shooting, and passing. Accuracy improves when you can control every subtle angle and motion of the stick head without interference from vibrations.

Composite engineering allows Stringking to optimize vibration dampening strategically along the shaft length. The bow shape where the head connects improves vibration absorption to reduce feedback from checks. The strategically-shaped throat dampens vibrations when pulling through on shots as well. Yet the overall shaft retains enough responsiveness for excellent feel and control.

Players notice the accuracy benefits most clearly on outside shots targeting corners of the goal. Less vibration tightens shot groupings and reduces scatter caused by inconsistent stick motion. Keeping the pocket stable after passing helps lead teammates directly into catches. Checks also connect with precision targeting an opponent’s least protected areas.

Overall, composite’s vibration dampening gives you superior control and accuracy. Reduced vibrations allow better fundamentals and form. Experience the improved precision shooting, passing, and checking only possible with composite shafts like the Stringking Composite Pro.

Better Weather Resistance Against Elements

Composite lacrosse shafts provide better all-weather performance than aluminum options. The durable composite materials resist damage from moisture, heat, and cold that can degrade aluminum over time.

Aluminum shafts show noticeable decline in performance when exposed to weather extremes. Heat expands the metal, cold contracts it—both altering the flex profile and feel. Sweat and moisture lead to corrosion and oxidation over a season of play. Prolonged UV exposure damages the surface, leading to pitting and roughness.

In contrast, the carbon fibers and epoxy resins used in composite shafts retain consistent performance in all conditions. Composite won’t expand or contract with ambient temperatures. The bonded structure is highly resistant to moisture absorption and corrosion as well. And composite holds up far better than aluminum over years of UV exposure.

Composite’s immunity to weather means the shaft feels and plays the same year-round. There’s no need to adjust to changes in flex or surface roughness through the seasons. Performance stays fast and precise through heat waves, winter cold, or driving rain when games must go on.

Stringking engineers their composite shafts for stability across a wide temperature range. The materials retain “spring” even down to freezing temperatures that make aluminum shafts brittle and stiff. You get the same touch and responsiveness for winter league games played on snow covered fields.

The slick composite surface also maintains smoothness over time, rather than becoming pitted and scratched like aluminum. Less friction improves handling and makes stringing easier through years of use. Composite simply doesn’t degrade like aluminum under routine use and exposure.

For players in hot, humid climates, composite resists surface oxidation and corrosion from sweat and damp gear. Performance stays crisp after months of summer league games and practices. You’ll also avoid rust stains on gear from a corroding shaft.

Composite is impervious to extended UV exposure from daylight as well. The durable engineering-grade resins retain strength and resilience season after season when aluminum becomes brittle and chalky.

Get superior all-weather performance with composite lacrosse shafts. The Carbon Pro withstands everything the elements throw at it while retaining consistent feel and response. Don’t settle for shafts that degrade over a season.

Variety of Flex Options For Different Players

Composite lacrosse shafts provide a wider range of flex options to suit each player’s preferences and positions. Engineers can tune stiffness and flex profiles with precision during manufacturing using composite materials.

Aluminum alloy’s inherent properties limit flex adjustment for lacrosse shafts. Manufacturers mostly rely on wall thickness and shape changes to alter stiffness. But even then, profile options are constrained to avoid compromising durability too much.

In contrast, the layered construction of composites allows for endless tuning of stiffness and flex behavior along the shaft length. Engineers programmatically orient carbon fiber sheets to build a flex profile matching player needs and positions.

For example, Stringking produces the Composite Pro in three flex variants: Low, Medium, and High. Low flex works well for defensive players who check and cut a lot. The extra whip aids ball control while cradling but doesn’t hinder passing velocity too much. Mid flex offers a balance suitable for all-around midfielders. The High flex option provides added stiffness for offensive players who shoot and pass more.

Within each model, engineers finely tailor carbon fiber orientation to control kick point and energy transfer properties. The bow shape, sidewall profiles, and other sections each contribute to the overall flex behavior in subtle ways. Stringking spends hundreds of hours refining flex to optimize performance for every type of player.

Such precision flex tuning is not possible with aluminum. Offensive players who want max stiffness are stuck with ultra-thick walled shafts that become too heavy. Defenders seeking more whip for cradling control must compromise on check strength.

The range of flex options let players match shafts precisely to position and style. Test different flex profiles until you find the right balance of stiffness, whip, and responsiveness that fits your game. Composite technology finally allows true position-specific shaft engineering.

Don’t settle for generic “medium” flex aluminum shafts anymore. With composite technology perfected by Stringking, you can get a Pro model tuned for your needs. Experience the performance difference the right flex profile makes whether you take face-offs, charge the crease, or protect the cage.

Textured Grip Improves Ball Control

The textured grip pattern on composite shafts like the Stringking Pro provides superior handling and ball control compared to smooth aluminum. The grippy surface enhances feel while reducing slip.

Bare aluminum shafts have a smooth surface that offers minimal friction or tactile feedback for your hands. Silicone tape or rubberized grip add-ons help but add weight while muting feel.

In contrast, Stringking engineers a natural grip texture right into the composite shaft material. The matte finish on the Pro model provides noticeable gritty friction for better traction and control. Yet it retains excellent tactile responsiveness and light overall weight.

The grippy composite surface allows you to cradle and handle the ball with confidence even in wet or muddy conditions. No more fumbling passes or shots because slick aluminum shafts let the ball slip from exchanges to wind up.

The textured finish also promotes better fundamentals by keeping the shaft locked in your fingers and palms. Novice players learn proper cradling technique quicker with a grippy composite shaft versus slippery aluminum.

For offensive players, the enhanced grip delivers superior ball control for quicker stick tricks and fakes to elude defenders. You can sell jukes and maintain the ball through contact checks thanks to the tactile grip holding the ball tight to the pocket.

Having a grippy shaft surface improves handling up and down the field whether scooping ground balls, protecting the ball in traffic, or receiving hard passes. Confidence in your possession skills lets you take more risks with the ball to create opportunities.

The textured grip comes standard on Stringking Composite Pro models right out of the box. There’s no need to tape up the shaft or wear gloves to get a tacky grip—it’s engineered right in. The grip marries ideally with Stringking’s advanced pocket technology as well for the ultimate in lacrosse ball control.

Don’t settle for lacrosse shafts that let the ball slip around. With composite technology perfected by Stringking, you get an integrated grip texture for confidence in every handle, cradle, and pass.

Stringking’s Signature Low Kick Point

The Stringking Composite Pro continues the company’s tradition of shafts with a strategically tuned low kick point. The kick point placement maximizes power on shots, passes, and checks.

Kick point on a lacrosse shaft refers to the region where the shaft begins to flex as it is loaded. Low kick points position nearer the head, high kick points are farther up the shaft length. Kick point influences how the shaft whips during shooting motions.

Stringking engineers define kick points based on player type and position. Their composite shafts feature an optimized low kick point to add whipping action for harder velocities. The carbon fibers flex near the head to amplify power transfer on checks, shots, and clears.

For shots, the lower kick point boosts velocity by leveraging the entire shaft length into the motion. Energy loads from your hands down through the shaft, whipping maximally right before the head. This compounding effect generates tremendous shot speed off the pocket.

On passes, the low kick point snaps passes with greater velocity by engaging the full shaft in the throwing motion. Even short quick-stick passes get enhanced zip from the flick of the kick point.

Defenders benefit from the lower kick point when throwing counter-clear checks. The butt of the shaft can flex more down low to drive power through checks targeting the opponent’s stick. The bow shape and carbon fiber layering prevent too much flex during hacks.

Stringking carefully balances the kick profile not to undermine durability or accuracy. Properly engineering the kick point adds power while retaining stiffness and stability for excellent all-around performance.

Experience the throwing and shooting power boost possible from composite shafts with an optimized low kick point. Let the Stringking Composite Pro’s signature kick point work its magic on blistering checks, clears, and worm burners.

Strategic Bow Shape Lowers Risk of Checks

The bowed handle profile on composite shafts like the Stringking Pro strategically reinforce the throat area to reduce damage from checks. The bow geometry improves durability.

The throat area where the head connects represents one of the most vulnerable zones on a lacrosse shaft. Repeated checks from defensemen can rapidly degrade aluminum in this region over a season.

By flaring out the lower handle into a bow shape, Stringking builds extra stiffness right where it’s needed most. The widened throat provides more material to dissipate impact forces from checks. The shape makes it harder for checks to transfer damaging flex into the handle.

Carbon fiber orientation in the bow region adds cross-directional stiffness as well. The multiple fiber angles distribute loads in all directions to prevent ovaling of the shaft walls under impact.

Together the shape and carbon layout create a fortress protecting the most vulnerable zone on the shaft from checks. Where aluminum fatigues and deforms, composite’s bow flares impacts away while retaining shape.

The bow geometry also effectively stiffens the entire lower region of the shaft, providing superior durability right where checks concentrate. By shaping stiffness into the materials, Stringking eliminates the need for cumbersome triangular throat pieces on aluminum shafts prone to warping.

While boosting check resilience, the bow retains balanced flex properties to maintain Stringking’s signature shot speed and feel. The smooth curve integrates seamlessly into the overall flex profile.

Don’t settle for shafts that quickly develop throat damage after hard checks. With the Composite Pro’s bowed design, you get built-in reinforcement right where you need it most.

Ideal For Both Offense and Defense Positions

Composite lacrosse shafts like the Stringking Pro offer balanced performance suitable for all field positions, whether offense or defense.

Most aluminum shafts force compromises to optimize them for either offensive or defensive roles. Ultra-stiff alloy shafts benefit shooters and passers but are too rigid for defenders. More flexible shafts help defenders but hinder velocity on passes.

With engineered composites, Stringking avoids position-based trade-offs. The Composite Pro models deliver a crossover flex profile equally adept on offense and defense needs.

For offensive players, the low kick point and crisp energy transfer produce maximum speed on shots, while the lighter weight aids quick stick motion and fakes. The textured grip provides excellent ball control during cradling and exchanges.

Defenders get a shaft optimized for controlling checks thanks to strategic flex placement. The bow geometry and vibration dampening also make it ideal for tough defense. Yet it retains enough efficiency for fast clears when turning up-field.

Balanced weight distribution and flex tuning make the Pro easy to transition between offense and defense styles. The same shaft performs well whether slashing the crease or protecting cage.

Versatility also suits players who excel at both ends like two-way midfielders. A single Pro model can handle facing off, pushing transition, and striking from the perimeter depending on situation.

With carbon fiber engineering, Stringking finally delivers true two-way performance in one shaft. Get the same confidence charging the goal on offense or patrolling the arc on defense with the Composite Pro.

Easy Maintenance With No Dents or Rust

Composite lacrosse shafts require less maintenance than aluminum options. Composite won’t dent, chip, or develop surface rust from routine use and exposure.

Aluminum alloy shafts show wear and tear over a season that requires reconditioning. Hacks and checks create small dents and deformations on aluminum that degrade performance over time. Exposure leads to pitting and corrosion.

In contrast, the carbon fiber construction of composite shafts is highly damage resistant. The materials resist both impact dents as well as scratching and scuffing during normal use.

Carbon fiber’s elasticity allows it to flex under load then rebound back to shape afterwards. The epoxy resin system retains integrity preventing small fractures that lead to chips and dents on aluminum.

Exposure and weathering over months of play doesn’t degrade composite shafts either. The slick surface stays smooth rather than pitting. And composite won’t develop surface rust and oxidation like aluminum under the same conditions.

That durability translates into less need for reconditioning and maintenance over a season. While aluminum requires frequent inspection for small dents and signs of rust, composite shrugs off damage thanks to the robust materials.

The Stringking Composite Pro maintains like-new performance season after season. The materials are highly resistant to typical wear-and-tear damage modes. You spend less time tuning and polishing, and more time playing.

Composite engineering delivers a true set-it-and-forget-it lacrosse shaft. The Composite Pro brings consistent feel and response game to game, season after season. Ditch high-maintenance aluminum for a composite shaft that thrives on hard use.

Complements All Head Styles and Mesh Pockets

The Stringking Composite Pro pairs well with any lacrosse head style and mesh pocket configuration. The balanced flex and precision engineering integrate seamlessly.

Some composite and alloy shafts dictate using certain head and pocket styles to achieve best results. Mixing and matching different shaft flexes and head stiffnesses can create imbalances in feel and performance.

In contrast, the Pro’s flex profile and balance work harmoniously with all head makes and mesh pocket configurations preferred by players today. The shaft complements heads without overpowering or constraining them.

On attack heads, the Pro’s crisp energy transfer maximizes the potential of flexible shooter heads designed for velocity and quick release. The excellent off-center ball control provided by the Pro makes it easy to sink low pocket placements.

For stiffer midfield heads built for all-around play, the Pro’s stability, grip, and flex act as an extension of the head for confident cradling, passing, and shooting in traffic.

On defense, the Pro’s tuned flex aids control when paired with stiff cross-check oriented heads without making stick checks and lifts feel weak.

The same balanced characteristics that make the Pro shaft versatile for all positions makes it highly compatible with all kinds of pockets too. Low and mid pocket placements tune well with the Pro’s quick release and passing. Higher set-ups benefit from the extra hold and control.

With the Stringking Composite Pro, you can create your ideal setup using your preferred head and pocket types. The engineering provides excellent integration without constraints.

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Backed by Stringking’s Quality Guarantee

Stringking Composite shafts are backed by the company’s guarantee of quality craftsmanship and durable performance. The warranty provides peace of mind.

Stringking rigorously tests every lacrosse shaft model through simulations and lab tests. But they still stand behind their products in case any defects occur in real-world use.

All Stringking composite shafts come with a 1-year warranty against breakage, distortion, or damage under normal play. Just contact Stringking if you experience any manufacturing defects or failures when using the shaft as intended.

The company prides itself on promptly addressing any issues and making it right for customers. Many players report Stringking replacing shafts without question when accidents happen outside of warranty terms as well.

That dedication to honoring their products gives you confidence in Stringking’s craftsmanship. The company meticulously designs their composite shafts for durability and performance. Then they back up that quality with a solid warranty.

The warranty coverage provides peace of mind that your investment in a premium Composite Pro shaft delivers lasting performance season after season. Stringking constructs their shafts to such high standards that defects are extremely rare.

Don’t settle for lacrosse gear without the maker standing behind their claims. With Stringking, you get composite shaft technology perfected through rigorous development – and the warranty to prove it.

Affordable Pricing Compared to Other Composites

Stringking Composite shafts deliver professional grade performance and durability at a very reasonable price point compared to the composite market.

Many companies hype premium materials like aerospace carbon fiber to justify charging $300 or more for their lacrosse shafts. But exotic composite recipes don’t guarantee better real-world results.

Stringking focuses engineering efforts on optimizing structural design rather than using exotic carbon varieties. Strategic material placement guided by data produces better shafts using standard composites.

The Stringking Composite Pro performs at a elite level for a fraction of the price of other “aerospace” composite shafts. You get the same stiffness, strength, accuracy, and responsiveness without overpaying.

More thoughtful design with standard materials also aids consistency. Some companies tweak their composite blends frequently causing variation. Stringking’s process reliably replicates the precise flex and feel players expect.

Of course, premium materials alone can’t guarantee performance. Stringking’s rigorous lab testing and refinement ensure their designs deliver consistent results with any materials used in production.

For the best composite shaft performance without overspending, choose the Stringking Composite Pro. You get the most thoughtful engineering at a fair price, not hype and gimmicks.