Tag Archives: Ashton-under-Lyne

Climbing Physics — Avoiding the “Whiskey Wheelie”

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How seat tube angles and chainring leverage keep your front wheel on the ground.

When trails get steep and technical, the battle isn’t just against your cardio fitness—it’s against physics. Every rider has experienced that frustrating moment on a steep climb where the front wheel starts to lift, wander, or wash out, threatening to cause a “whiskey wheelie” and throw you off balance.

While core strength and body position matter, your frame’s geometry dictates how hard you have to fight to keep that front tyre biting the dirt.

The Biomechanics of the 74.5° Seat Tube Angle

Your position while seated on a climb is governed entirely by the Effective Seat Tube Angle (ESTA). On modern progressive trail frames, this sits around a steep 74.5 degrees.

  • The Forward Shift: A steeper seat tube angle positions your hips directly over or slightly ahead of the bottom bracket.
  • The Mechanical Advantage: By pushing your weight forward, it naturally keeps your center of gravity firmly planted in the middle of the chassis. This keeps constant downward pressure on the front fork without requiring you to awkwardly hunch over the nose of your saddle.

Drivetrain Leverage: The 34t Chainring Factor

Upgrading a drivetrain—for instance, moving up to a larger 34t chainring—doesn’t just alter your top-end speed; it actively impacts how the bike climbs.

A larger chainring alters the anti-squat characteristics of your frame. Combined with a steep 74.5-degree seating position, it helps you apply smooth, continuous torque. Instead of the bike dipping or “squatting” into its travel under hard pedal strokes—which lifts the front end—the suspension remains stable, keeping your front wheel tracking straight as an arrow up the steepest Oldham inclines.

Need Your Drivetrain or Climbing Setup Optimized?

If your gears are slipping under load or your climbing position feels inefficient, it’s time for a professional setup tweak. Check out my verified technical qualifications on the Cytech Directory, browse local workshop and drivetrain indexing options on the Services & Repairs page, or book a gear tuning slot via my Google Maps Profile.

Workshop Update: The On-One Inbred Gets Rugged

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​The classic steel On-One Inbred frame build is moving along nicely on the workstand, and today was all about custom fabrication and getting the stopping power sorted.

​The 42mm Chainring Grind

​When you need a bash guard but want to work with what you’ve got in the workshop, you improvise. I took a stock 42t chainring and spent some quality time grinding it down into a custom, heavy-duty 42mm bashguard. It’s a little on the large side, but it gives the drivetrain a massively aggressive, bulletproof look while keeping everything shielded.

​Old-School Braking Power

​For the front stopping power, I dug out a classic mechanical setup: an old-school Tektro mechanical disc caliper paired up with an Avid Speed Dial 1.9 lever. If you know these levers, you know how good they are—that Speed Dial dial lets you adjust the leverage rate on the fly to tune the exact bite and modulation you want from a mechanical cable brake.

Avid Speed Dial 1.9 lever

​The Rear Mech Puzzle: Shimano Deore XT Shadow

​I also managed to unearth a classic Shimano Deore XT (RD-M772/M771) Shadow rear derailleur for the build. It’s sleek and sits tucked out of harm’s way, but there’s a catch: it doesn’t have a built-in barrel adjuster. The next task on the operating table is hunting through the spares bins or fabricating a custom inline barrel adjuster solution to get the indexing dialed.

​What’s next for the Inbred?

​The mock-up is fast becoming a complete bike. Drop a comment below if you’ve ever fabricated your own parts to make a custom build work, or hit the Facebook page if your own rig needs some custom optimization on the stand!

The Magic Ratio: Understanding Bike Stack and Reach

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Why manufacturer frame sizes lie, and the two numbers that actually dictate your bike’s fit.

When buying a new mountain bike, most riders rely entirely on standard sizing labels like “Medium” or “Large.” The problem is, a “Large” from one brand can feel completely different from a “Large” from another.

If you want to know exactly how a bike will handle especially when you stand up on the pedals to tackle technical trails, jumps, or steep descents you need to look at two critical measurements: Stack and Reach. Together, they form a “Magic Ratio” that defines the true personality of your chassis.

What is Reach?

Reach is the horizontal distance measured from the center of the bottom bracket straight over to the center of the top of the head tube.

  • Why it matters: Unlike top tube length, Reach doesn’t care about your seat position. It tells you exactly how much room your upper body has when you are standing up on the pedals.
  • The Ride Feel: A longer reach keeps you stable at high speeds and stops you from feeling like you’re going over the handlebars on steep drops. A shorter reach makes the bike nimbler and easier to throw around, but it can feel cramped on fast, rough terrain.

What is Stack?

Stack is the vertical distance measured from the center of the bottom bracket straight up to the center of the top of the head tube.

  • Why it matters: Stack dictates how high your handlebars sit relative to your feet.
  • The Ride Feel: A higher stack height gives you a more upright, confident position on steep descents, reducing that “OTB” (over the bars) sensation. A lower stack pins your weight closer to the ground, keeping your front tyre weighted for aggressive cornering traction.

The 1.42:1 “Magic Ratio”

When you divide a frame’s Stack by its Reach, you get a ratio that instantly tells you what the bike was designed to do.

Let’s look at a real-world technical blueprint: a modern progressive hardtail frame featuring a 652mm Stack and a 459mm Reach.

652mm ÷ 459mm = 1.42:1

A 1.42:1 ratio sits right in the aggressive “sweet spot” for modern trail riding. It provides a long enough reach to keep the bike incredibly stable when charging through rough terrain, combined with enough stack height to ensure your weight stays balanced over the front wheel without feeling like you’re hunched over a road bike.

Understanding this ratio allows you to make precise cockpit adjustments. For example, if you want a more upright stance without sacrificing your standing reach, you can tweak your handlebar rise or adjust your spacer stack under the stem to perfectly dial in your biomechanics.

Is Your Bike Cockpit Set Up for Your Geometry?

Small changes to your stem length, spacer layout, or handlebar roll completely alter your effective reach and control. If you’re based in Greater Manchester and want your bike setup perfectly tailored to your measurements, check out my verified credentials on the Cytech Directory, view local mobile workshop services on the Services & Repairs page, or book a workspace slot directly via my Google Maps Profile.

Understanding Dynamic Geometry: Hardtail vs. Full Suspension

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​Why your bike’s handling changes the second you hit the trail.

Offishal Cytech Bicycle anatomy diagram
Bicycle anatomy diagram

​When comparing mountain bikes, most riders look at the static numbers on a manufacturer’s geometry chart. But the moment you drop into a trail, those static numbers disappear.

​MTB geometry is entirely dynamic—meaning the angles, wheelbase, and weight distribution constantly shift the moment your suspension moves through its travel. Understanding how different frame designs respond to compression is the secret to mastering your bike’s handling and setting up your suspension perfectly.

​The Hardtail: The “Stapler” Effect

​On a hardtail, only the front fork compresses. Because the rear end remains completely rigid, front-end movement radically alters the bike’s stance over terrain.

The Pivot Point: The entire chassis effectively pivots around the rear axle as the fork compresses.

The Geometry Shift: Under heavy braking or hard impacts, the head angle gets steeper, the bottom bracket drops, and the Reach and Stack numbers shift forward.

Stability Impact: Because the rear axle height never changes relative to the bottom bracket, the rear end can feel hyper-responsive but twitchy under full compression.

Chainstays & Ride Feel: Hardtails naturally feature shorter chainstays, making the bike incredibly easy to whip, pump, and snap out of tight corners.

Optimal Travel Layout: For most aggressive trail riding, 100mm–130mm of front travel is considered the sweet spot. Running too much travel on a hardtail causes massive, unstable geometry swings when the fork dives.

​Standard Full Suspension: Balanced Movement

​A standard full-suspension bike compresses at both ends, meaning the front and rear travel work together to maintain a more consistent chassis level.

Chassis Balance: Because both wheels move, the head angle and seat angle stay significantly more consistent throughout the stroke compared to a hardtail.

Bottom Bracket Height: The static Bottom Bracket (BB) is usually set higher to allow for clearance, but it drops drastically lower as both ends compress, lowering your center of gravity right when you need cornering traction.

Wheelbase Dynamics: As standard rear suspension compresses, the rear wheel typically moves upward and slightly forward in an arc, causing the overall wheelbase to get shorter.

Chainstay Behaviour: Chainstays usually lengthen slightly at the very beginning of the stroke before shortening, allowing the bike to maintain a nimble, snappy “pop” that makes it easy to jump off obstacles.

​High Pivot Suspension: The Rearward Axle Path

​High pivot designs place the main frame pivot much higher above the chainring, completely altering how the rear wheel tracks over obstacles.

The Rearward Axle Path: Unlike a standard layout, the rear suspension actually gets longer as it compresses. The wheel moves backward and upward, perfectly matching the direction of trail impacts.

Unmatched Traction & Stability: This rearward path allows the bike to carry immense momentum through harsh, square-edged “chatter” and rough rock gardens. The growing wheelbase makes the bike feel incredibly stable at high speeds.

The Trade-off: Because the wheelbase is actively growing rather than staying tight, you lose some of that traditional, snappy “pop” when trying to pump the bike or hop over trail features. It trades playful agility for pure, high-speed tracking compliance.​🔧 Need Your Suspension Dialed for the Trails?

​Whether you need a precise sag setup for the Oldham hills, a full fluid bleed, or custom token tuning to control your dynamic geometry, I’ve got you covered. Check out my background on the official Cytech Directory, view my full breakdown of local mobile workshop services on the Services & Repairs page, or connect with me instantly on Google Maps Profile to book a workspace slot.

Bike Check: Custom Trek X-Caliber (Precision Commuter & Urban Rig)

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​High-end component integration built for daily street versatility.

​While a lot of my workshop time is spent servicing everyday commuter bikes, my personal fleet allows me to test innovative setups for specific environments. This custom Trek X-Caliber is built with one clear goal: to be the ultimate high-performance, flat-free street commuter capable of handling asphalt, potholes, and light trail shortcuts with zero compromise.

​Every element of this bike has been hand-selected to blend gravel-style flat protection with a highly responsive, robust urban drivetrain.

Custom Trek X-Caliber Gary Fisher Edition 2010 Commuter
Trek X-Caliber (2010) Gary Fisher Edition, Custom

​Technical Specifications & Urban Optimization:

The Wheelset & Flat Protection: Rolling on high-end Mavic Crossmax 29 wheels, this setup features integrated Vittoria gravel tyre inserts. Running inserts inside a commuter tyre means ultimate peace of mind—drastically reducing the risk of pinch flats on sharp curbs and potholes.

Cockpit & Control Layout: Built for agile street handling, featuring a premium Renthal cockpit mounted to a 70mm stem with a precise 48mm spacer layout underneath for the perfect riding height.

Custom Braking System: A highly unique hybrid braking setup for maximum stopping power—combining a high-power Shimano M6000 Hydraulic front brake with an Avid BB7 Road mechanical caliper on the rear, controlled via an ultra-responsive Odyssey Monolever.

Drivetrain & Gearing: A durable, low-maintenance 10-speed Shimano drivetrain matched with an efficient 32t chainring—perfectly geared for spinning up local hills and maintaining speed on flat urban straights.

Finishing Details: High-attention aesthetic touches including clean, durable white Jagwire cable routing to round out the custom build look.

Tyre Pressures: Optimised strictly for street rolling efficiency and rim protection at 22 PSI Front / 24 PSI Rear.

​Building an urban rig isn’t just about putting parts together; it’s about engineering reliability so you never get stranded on the way to work. This Trek is visual proof of that standard.

Want to bulletproof your daily commuter, upgrade your braking system, or convert to a robust insert setup?

View my official credentials on the Cytech Directory, check out my professional network on LinkedIn, or find me over on Google Maps Profile to discuss your local bike servicing needs.

Bike Check: Custom Voodoo Bizango Pro (Optimized Trail Hardtail)

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​Precision suspension tuning and progressive trail ergonomics.

​While my day-to-day work keeps local commuters and school fleets moving safely, my personal bikes are where I test the limits of component pairing and custom tuning. This build focuses entirely on aggressive trail riding—specifically optimized to handle the fast, demanding terrain of the Pennines and local trail networks.

​The Voodoo Bizango Pro is already a highly regarded trail hardtail frame, but this specific setup has been systematically stripped back, upgraded, and tuned to drop weight, sharpen shifting response, and dial in the perfect cockpit layout. Sitting at an optimized weight of 13.88kg, every single component change has a clear performance purpose.

Custom Voodoo Bizango Pro Trail Hardtail
Voodoo Bizango Pro (2022)

​Technical Specifications & Custom Tuning:

Suspension Profile: The 130mm RockShox 35 Gold RL fork is custom-tuned with 3 volume tokens, running at 95 PSI to lock in an exact 25–32mm sag range. This delivers an incredibly supple initial stroke over small bumps while maintaining strong mid-stroke support to prevent diving on steep descents.

Cockpit & Control Ergonomics: Upgraded from the stock setup to a DMR Defy 50mm stem paired with robust ODI lock-on grips, giving a highly responsive, direct steering feel.

Shifting Precision: Swapped the stock Shimano Deore 12-speed shifter for an ultra-crisp, multi-release Shimano XT 12-speed shifter, keeping gear changes instantaneous under heavy climbing loads.

Drivetrain Tuning: Accelerated power delivery and climbing efficiency by stepping up the drivetrain to a robust 30t chainring.

Wheelset & Tyre Setup: Front wheel upgraded to a wide, stiff WTB STi30 rim to support a high-volume Kenda Helkat Pro (29×2.40) front tyre. Both tyres are set up completely tubeless for maximum traction and compliance, running strict trail pressures of 22 PSI Front / 25 PSI Rear.

Finishing Kit: Swapped the stock quick-release seatpost clamp for a beautifully engineered Hope bolt-on clamp (SCBST349N), completed with wide Crankbrothers Stamp 1 Large composite pedals and an upgraded comfort saddle.

​For an aggressive trail hardtail, striking the balance between traction, weight optimization, and compliance is everything. Keeping this machine completely silent and dialed across rough terrain is proof of what meticulous maintenance and component matching can achieve.

Looking to upgrade your own trail rig, convert to tubeless, or precision-tune your suspension fork?Verify my professional technical credentials on the official Cytech Directory, check out my professional background on LinkedIn, or visit my live Google Maps Profile to get in touch.

Bike Check: Custom NS Majesty Park (Rigid Street & Park Build)

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Custom NS Majesty Park Street Dirt
Custom NS Majesty Park

A masterclass in clean, high-load urban engineering.

​While my daily work as a freelance technician keeps Greater Manchester’s commuters and school fleets running safely, my personal builds are where I dive deep into discipline-specific engineering. This project is focused entirely on street, park, and light freeride riding where simplicity, bulletproof reliability, and perfect geometry are everything.

​The heart of this rig is the legendary NS Majesty Park frame, paired with a completely rigid Identiti Rebate 450mm Fork. By opting for a 450mm axle-to-crown rigid setup, the bike retains an incredibly nimble, responsive street geometry without the weight or energy-loss of a suspension fork. Without suspension to soak up heavy impacts, every single component has to be flawlessly installed, spaced, and torqued to handle high-load urban riding.

​Technical Specifications & Setup:

The Frame: NS Majesty Park (Dirt/Park specific geometry).

The Front End: Identiti Rebate Fork (Rigid, 450mm axle-to-crown) keeping the front end stiff and predictable.

Cockpit & Ergonomics: 90mm high-rise bars paired with a low-stack street stem and robust odi grips, delivering a minimalist, direct street-trials feel and maximum pull-up leverage.

Drivetrain & Gearing: A super-clean, high-tension single-speed setup driven by a punchy 26t chainring for instant, crisp acceleration between features.

Tyre Setup & Pressures: High-volume street tyres set strictly to 40 PSI Front / 40 PSI Rear. This specific 40/40 baseline delivers the ultimate balance between fast rolling speed on concrete, maximum rim protection on hard drops, and a predictable, solid landing platform.

​As a certified mechanic, keeping a stripped-back street bike performing quietly and tightly is the ultimate test of build precision. No creaks, no chain slap—just pure, direct performance.

Need your own custom project built, a professional component upgrade, or a reliable safety check on your daily ride? >

Check out my professional credentials via the official Cytech Directory, browse my services on LinkedIn, or head over to my live Google Maps Profile to book a service or see local repair options.