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YAMAHA XT660R(W) XT660X(W) SUPPLEMENTARY SERVICE MANUAL

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Filed Under (Yamaha) by admin on 27-11-2010

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CHASSIS SPECIFICATIONS Item Standard Limit Rear wheel Wheel type Spoke wheel —- Rim Size 17M/C × MT2.75 (XT660R) 17M/C × MT4.25 (XT660X) —- —- Material Aluminum —- Wheel travel 200.0 mm (7.87 in) (XT660R) 191.0 mm (7.52 in) (XT660X) —- —- Wheel runout Maximum radial wheel runout —- 2.0 mm (0.08 in) Maximum lateral wheel runout —- 2.0 mm (0.08 in) Wheel axle bending limit —- 0.25 mm (0.01 in) Front tire Tire type With tube —- Size 90/90-21M/C 54S, 90/90-21M/C 54T (XT660R) 120/70R 17M/C 58 H, 120/70ZR 17M/C 58W, 120/70ZR 17M/C 58W (XT660X) —- —- Model/manufacturer TOURANCE FRONT/METZELER, SIRAC/MICHELIN (XT660R) DRAGON/PIRELLI, SPORTEC M1/ METZELER, RADIAL PILOT SPORT/ MICHELIN (XT660X) —- —- Tire pressure (cold) 0 ~ 90 kg (0 ~ 198 lb) 200 kPa (2.00 kgf/cm, 29 psi) (XT660R) 210 kPa (2.10 kgf/cm, 30 psi) (XT660X) —- —- 90 (198 lb) ~ Maximum load* 200 kPa (2.00 kgf/cm, 29 psi) (XT660R) 220 kPa (2.20 kgf/cm, 31 psi) (XT660X) —- —- * Load is the total weight of the cargo, rider, passenger and accessories. Off-road riding 200 kPa (2.00 kgf/cm, 29 psi) (XT660R) —- Minimum tire tread depth —- 1.6 mm (0.063 in)
- 7 – SPEC CHASSIS SPECIFICATIONS Rear tire Tire type With tube —- Size 130/80-17M/C 65S, 130/80-17M/C 65T (XT660R) 160/60R 17M/C 69H, 160/60ZR 17M/C 69W, 160/60ZR 17M/C 69W (XT660X) —- —- Model/manufacturer TOURANCE/METZELER, SIRACA/ MICHELIN (XT660R) DRAGON/PIRELLI, SPORTEC M1/ METZELER, RADIAL PILOT SPORT/ MICHELIN (XT660X) —- —- Tire pressure (cold) 0 ~ 90 kg (0 ~ 198 lb) 200 kPa (2.00 kgf/cm, 29 psi) (XT660R) 210 kPa (2.10 kgf/cm, 30 psi) (XT660X) —- —- 90 (198 lb) ~ Maximum load* 225 kPa (2.25 kgf/cm, 33 psi) (XT660R) 230 kPa (2.30 kgf/cm, 33 psi) (XT660X) —- —- * Load is the total weight of the cargo, rider, passenger and accessories. Off-road riding 200 kPa (2.00 kgf/cm, 29 psi) (XT660R) —- Minimum tire tread depth —-

Ural Motorcycle Repair Manual

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Filed Under (Ural) by admin on 11-11-2010

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FLUID CAPACITIES TOURIST & -10 Models Sportsman Solo Gasoline tank 19 L / 5 Gal 19L / 5 Gal 18.5 L / 4.9 Gal Reserve 2L / 0.5 gal 2L / 0.5 gal 2L- / 0.5 Gal Engine crankcase 2 L / 2 qt. + 3.6 oz. 2.0L / 2.11 qt 2 L / 2 qt. + 3.6 oz. Gearbox 0.9L / 1 qt 0.9L / 1 qt 0.9L / 1 qt Final drive 110 ml / 3.85 oz. 150 ml / 5.25 oz. 110 ml / 3.85 oz. Telescopic Forks (-10 & solo models) N/A on Tourist N/A on Sportsman 135 ml / 4.56 oz. Shock Absorbers 105 ml / 3.55 105 ml / 3.55 oz 105 ml / 3.55 oz
RUNNING GEAR TOURIST / SPORTSMAN SOLO Frame Tubular welded Rear wheel suspension Swing arm with hydraulic spring shock absorbers Sidecar: same as -40 Solo: Lower spring rate Front fork Leading link Telescopic spring Sidecar Cushioned body (on rubber cushions) and wheel on long-lever suspension with hydraulic spring shock absorber N/A Brakes Shoe-type with mechanical drive on front, rear and sidecar wheels, front wheel has dual cams. Tires 4″ x 19″ Front & Side: 22 psi cold Rear: 36 psi cold 3.5″ x 18″ Solo: Front 25 psi cold Rear: 32 psi cold -10′s: Front & side: 25 psi cold Rear: 36 psi cold CLEARANCES mm in Valves with engine cold 0.05 0.002 Between spark plug electrodes 0.50 – 0.65 0.020 – 0.026 Between brake shoes and drum 0.3 – 0.70 0.012 – 0.028 Backlash between tooth faces of bevel gears in final drive 0.1 – 0.3 0.004 Between rotor and ignition pickup 0.3 – 0.4 .012 – .016 FREE TRAVEL / ADJUSTMENTS mm in Hand brake control lever 5 – 8 0.2 – 0.3 Clutch control lever 5 – 8 0.2 – 0.3 Foot brake drive pedal ¼ of full stroke of pedal, 25 – 30 1.0 – 1.2 Toe-in throughout motorcycle center distance (exception: Sportsman 0 ° toe-in) 10 N/A Angle of motorcycle inclination to vertical plane (camber angle of rear wheel) 1° away from sidecar N/A Headlight installation (with motorcycle laden) horizontal (high beam) TORQUE SPECIFICATIONS Metric (in repair manual) US Equivalent Location on Bike 29 to 33 Nm 22 ft/lb. to 30 ft/lb. cylinder heads 22 to 25 kgf-m 175 ft/lb. to 185 ft/lb. fly wheel tightening screws 3.8 to 4.2 kgf-m 30 ft/lb. to 40 ft/lb. cylinder 2.1 to 3.0 kgf-m top 14 ft/lb. to 22 ft/lb. shock absorber 3.6 to 5.0 kgf-m bottom 28 ft/lb. to 36 ft/lb. shock absorber 3.0 to 3.4 kgf-m 22 ft/lb. to 26 ft/lb. bearing nut 3.0 to 3-4 kgf-m 22 ft/lb. to 26 ft/lb. final drive to swing arm bolts 1.6 to 1.8 kgf-m 12 ft/lb. to 14 ft/lb. oil pump bolt .8 to 1.0 kgf-m 5 ft/lb. to 8 ft/lb. engine sump 1.4 to 1.8 kgf-m 10 ft/lb. to 14 ft/lb. final drive case nuts 7 to 9 kgf-m 50 ft/lb. to 66 ft/lb. nut fastening the pinion bearing 2.2 to 2.8 kgf-m 16 ft/lb. to 20 ft/lb. reverse gear brake lever 1.8 to 2.0 kgf-m 14 ft/lb. to 16 ft/lb. generator gear nut 14.0 to 16.8 kgf-m 100 ft/lb to 120 ft/lb steering stem nut CONVERSIONS To convert from mm to in, divide by 25.4 (there are 25.4 mm per inch). To convert from liters to gallons, divide by 3.785 (there are 3.78 liters per gallon). To convert from liters to quarts, multiply by 1.056 (there are 1.056 quarts per liter). To convert from liters to pints, multiply by 2.112 (there are 2.112 pints per liter). To convert from km to miles, multiply by .62 (there is .62 mile per km). To convert from km/hr to mph, multiply by .62. To convert from Newton-meter (Nm) to inch-pound, multiply by 8.86. To convert from cm 3 (cc) to pints, divide by 473 (there are 473 cc per pint). To convert Celsius to Fahrenheit, F° = C° x 1.8 = 32°. To convert Fahrenheit to Celsius,C ° = (F° – 32° ) divided by 1.8

Express ATVS -250cc Cobra Setup/ Installation Manual

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Filed Under (Cobra) by admin on 10-11-2010

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Unpacking your Cobra Installing the front shock Installing the front tires Installing rear shocks Installing the rear tires Installing seats and harnesses Steering wheel installation Roll cage installation Safety checks / Adjustments General maintenance Unpacking your Cobra First off you should pull the carton off from your new 250 Cobra cart. Inspect the cart thoroughly to make sure that your new Cobra has not been heavily damaged. You will notice that the product has a metal frame holding it in place; you may want to start removing bolts from the shipping steel frame. The next step is to remove the metal frame and lift it off of the cart. Remove any of the metal frame that may afford resistance when working on the cart it self. Be careful the metal frame may be heavy and sharp. Now would also be a good time to inspect your Cobra a little more thoroughly. In the box with the Cobra you should have found a box containing miscellaneous hardware. Installing the front shock Using some of the bolts you found in your box, install the front shocks sliding the bolt through the brackets and tighten the nut down. Next, you will need to place the ball head into the turning arm, then tighten the castle nut and insert a cotter pin so that the castle nut doesn’t loosen and become a hazard. Installing the front tires
Find the front tires and place them on the front hub and place the lug nuts on the studs. Tighten them down. Make sure that all of the lug nuts are on tightly. Installing the rear shocks Moving to the rear of the Cobra you will notice the rear shocks are not inserted. Place the rear shocks into the bracket on the rear of the Cobra. Slide one of the provided bolts through the bracket and shock eyelet and tighten the bolt down. Installing the rear tires Now that the shocks have been placed properly you can install the rear tires, place the tires onto the axle then place the rear rim lined up onto the axle and tighten the provided castle nut down. Place the cotter pin through the axle and bend off to the side. This is so the castle nut does not loosen under load. Installing the seats and harnesses
(The arrow points to an example of where the seat bolts mount) Find the two racing seats shipped in the box with the Cobra. You will need to affix them to the frame by sliding the bolts up through the bottom of the frame. This can be tricky so have patience. Once both seats have been placed in the cart and tightened find the harnesses. Once found the harnesses mount to a bracket behind the seats. Place a bolt through the bracket and bolt the harnesses down tightly. Installing the steering wheel Find the steering wheel and place it onto the steering wheel mount. Grab the six small screws and place them through the steering wheel and mount, tighten them down but also make sure the top of the wheel is facing up. Installing the roll cage

Brakes, Wheel Assemblies, and Tires tips

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Filed Under (Tips and Review) by admin on 09-02-2012

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BRAKING SYSTEMS The braking systems used on motorcycles and ATVs, like virtually any type of braking system, reduce the machine’skineticenergyby transforming it into heat energy known as friction heat . Therefore, a brake is an energy-conversion device that converts the energy of motion (kinetic energy) into heat energy. Motorcycle braking is accomplished by the friction (resistance to movement) produced when a brake lining is forced against a rotating drum or disc. Friction between the linings and drum or disc serve to slow and eventually stop wheel rotation. The brakes used on motorcycles fall into two categories: Mechanical drum, sometimes called expanding shoe Hydraulic disc Motorcycle brakes commonly use either hydraulic (fluid pressure) or mechanical (cable or linkage) mechanisms to apply the brakes. Brakes, Wheel Assemblies, and Tires 1 Mechanical Drum Brakes First, let’slookatthedrum brake, sometimes called the mechanical, expanding double-shoe brake ( Figure 1 ). Generally used for rear wheels, this brake is also used on some front wheels. With this kind of brake, a backing plate that’sconnectedtothe forks holds the two brake shoes. The wheel and brake drum rotate around the brake shoes. When the rider applies the brake, a cam pushes the two semicircular shoes outward. The circle formed by the two shoes expands. When the shoes expand, they press against the rotating drum, thereby limiting its free rotation

KAWASAKI VULCAN 1600 / NOMAD 1600 INSTALLATION INSTRUCTIONS

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Filed Under (Kawasaki) by admin on 25-10-2010

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Remove seat and fuel tank. Consult service manual for proper removal of tank. 2. Remove left side cover and loosen the four bolts inside. Route the two 6-pin connectors between the side cover and frame as shown by the dotted line. Tighten the four bolts. (Fig 1) 3. Route 6-pin connectors under frame and up left side of engine. (Fig 2) 4. Locate the 6-pin connector next to the ignition coil. Disconnect and connect the Fuelpak 6-pin connectors in-line on the stock connector. (Fig 3) 5. Route single black wire to the front of engine and down to the horn. (Fig 4) 6. Disconnect the factory black/white wire from horn. Plug Fuelpak into horn and plug Fuelpak black/white wire to Fuelpak connector. Be sure Fuelpak connector cannot short to frame or radiator. 7. Route black and green wires to battery negative. 8. Attach Fuelpak to Fuelpak harness and mount in left side cover. (Fig 5a 49 State) (Fig 5b Caliornia Models) 9. Before reassembling the bike, make sure handlebar switch is in the engine off position and turn the key on. Fuelpak should light up. Sound the horn. If Fuelpak turns off when the horn is sounded, recheck the black wire connection on the horn and that it is connected to the correct wire from the factory harness. 10. Use supplied zip ties to hold Fuelpak wire harness away from engine. 11. Follow the service manual to reinstall the gas tank

URAL 2004 Model Retro Solo SPECIFICATIONS And Owner's Manual

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Filed Under (Ural) by admin on 11-11-2010

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SPECIFICATIONS GENERAL Retro Maximum speed of motorcycle 120 km/h 74 mph Reference fuel consumption at 85% of 14 km/L 33 mpg Dry mass of motorcycle 680 lb. Maximum load-carrying capacity 400 lb. Noise level below 80db OVERALL DIMENSIONS Length 2500 mm / 8 ft Width 1700 mm / 5 ft 6 in Height 1100 mm / 3 ft 6 in Road Clearance 125 mm / 5 in Seat height 840 mm / 33 in Wheel base 1470 mm / 58 in ENGINE Type 4 stroke, overhead valves, opposed twin-cylinder Displacement 745 cc Cylinder bore 78 mm Piston stroke 78 mm Compression ratio 9.0 :1 Rated horsepower 33 KW / 44.2 BHp Rated rotational speed 5600 RPM Rated torque 36 ft.-lbs @ 3750 RPM Lubrication system Dual system of forced lubrication and splashing Lubricant SAE 20W/50 CARBURETOR Carburetor type 32 CVK Keihin Number of carburetors 2 Air cleaner Paper Filter Element Lifetime JR Fuel 91 octane premium unleaded gasoline PCV Valve Internal Breather 8 ELECTRICAL Ignition system 135.3734.COM-2 (CDI) Ignition coil 135.3705-2 Spark plugs NGK BP7H Ignition timing Automatic spark timer Alternator 35 amp / 12 Volt Battery Interstate #YB18L-A or equivalent Headlight Sylvania Halogen 6024, 7″ round sealed beam TRANSMISSION Clutch Dry double-disk clutch Gearbox 4 speed gearbox with reverse gear lever GEAR RATIOS I gear 3.6 II gear 2.28 III gear 1.56 IV gear 1.19 Reverse gear 4.36 Speedometer drive ratio 0.4 Final drive ratio 3.86 FLUID CAPACITIES Fuel tank 5 Gal / 19L Reserve .5 Gal / 2L Engine 68 oz / 2L Transmission 30.6 oz / .9 L Final drive 3.74 oz / 110 ml Shock Absorbers 3.5 oz / 105 ml RUNNING GEAR FrameTubular welded Rear wheel suspension Swing arms with spring shock absorbers Front fork Telescopic Brakes Hydraulic Disk on front, Hydraulic Drum on rear Tires 110 / 90 – 18″ Front 22 psi cold (1.5 Bar / 150 kPa) Front 22 psi cold Rear 36 psi cold (2.5 Bar / 250 kPa) Rear 36 psi cold

Baja SC50 SCOOTER OWNER'S MANUAL

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Filed Under (Bajaj) by admin on 26-11-2010

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Engine oil level a) Check for leaks b) Tighten filler cap securely. c) Add oil if required. 2. Fuel level a) Add fuel as necessary. b) Do not overfill (no fuel in the filler neck). c) Do not mix oil with gas. d) Replace cap tightly. e) Do not refuel a hot engine. Allow engine to cool before adding fuel. 3. Warning decals a) Make sure all warning decals are legible and securely attached. b) Replace as necessary. 4. Tires a) Ensure that both tires have at least 1/8 in. tread depth at center. b) Both tires must be inflated to the pressure indicated on the tire sidewalls. c) Replace the tires id tread height is less then 1/8 in. at the center of tires. 5. Drive chain a) Check condition and tension. b) Lubricate and adjust tension as necessary. 6. Throttle a) Check for smooth operation. Make sure the throttle “snaps” back to idle. b) Check for frayed cable or damaged cable housing. Replace damaged cable. c) Check for mud, debris and ice in the throttle cable/mechanism. Clean out any contamination.

Suspension Basics for BMW Motorcycles

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Filed Under (BMW) by admin on 30-11-2010

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tires: Tires are the first part of any suspension system. The design of the tire and even the pressure you run can have a profound affect on the way your motorcycle handles. Stiff, low profile tires will give a sharper feel to the bike, as will higher tire pressures. Those of us who ride our GS’s off the road will decrease the tire pressure to about 50% of the street spec when we are in the dirt. The tire then becomes a very active part of the suspension, but will wallow like an old pig if not re-inflated when pressed back into pavement duty. It still surprises me when we have a customer complain that his BMW needs new shocks when they come in with nearly flat tires. It is possible that the best dollars-per- unit improvement you can make to your BMW may be in keeping the tires inflated. Chassis: There is not much that we can do about the chassis design, unless we are Troy the Welder, but it is a fact that different frames and swing arms flex differently and therefore are part of the suspension. On the Airheads, we often braced various parts of the frame and swing arms, resulting in improved handling that even mere mortals could appreciate. On the latest BMW’s it would take the likes of a Valentino Rossi to even notice if the parts were stiffened. Stiffer is not always better. One of the Japanese racing bike manufactures controls the stiffness of the frame in various areas to allow some flex for better handling. So, Mr. Rossi might not even like it if Troy stiffened his new BMW. Springs: Springs control the ride height of the motorcycle and the ability to allow for different loads. On most BMW’s there is a way to adjust the spring preload to some extent so that the ride can be optimized for a light rider or two-up operation with luggage. Dampers: Dampers control the speed and frequency at which the suspension operates by changing the kinetic (moving) energy to thermal (heat) energy. Without the damper, the suspension would oscillate as each movement occurred, resulting in decreased vehicle control. Dampers on BMW’s fall into two main groups. On airheads, older K bikes, F and G models, and the R1200 HP-2, the front dampers are integrated into the forks. On the rear of the above mentioned -3 – models, and on both ends of all the rest of the bikes, there is a more common shock absorber, around which the spring is located. The HP-2 uses an air spring and air dampened rear shock. Seat: OK, folks, this is here for my old buddy Jeff. We know that a seat isn’t part of suspension, but a bad one sure can make you miserable. We have sent dozens of seats to our friend Mike Harris for inexpensive mods that might improve your riding enjoyment more than any suspension changes you could make! Let us know if we can help you with this most important item

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MZ 125 SXJSM Repair Manual

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Filed Under (MZ) by admin on 18-11-2010

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Front suspension · Design Telescopic fork · Spring travel 220 mm Rear suspension · Design long swinging fork · Spring travel/adjustment 220 mm/adjustable spring base Steering bearing Deep groove ball bearing Clutch lever and throttle twist grip · Play in the clutch lever 3-5 mmattheendofthe clutch · Play in throttle Bowdencable 2-3 mmatthetwist grip flange Wheels – spoked wheels Variant MZ125 8X Variant MZ125 8M Front tire 90/90 -21 110170-17 Tire pressure 190 kPa/1,9 bar/28 psi 180 kPal1,8 bar/26 psi Rim size 1.85×21 3.00 x17 Rim wobble limit vertical 0,5mm 0,5mm side 0,5mm 0,5mm Rear tire 120/80 – 18 130170-17 TIre pressure (value at perm. axle load) 200 (250) kPa/2 (2,5) bar/29 (36) psi 230 (260) kPal2,3 (2,6) bar/33 (66) psi Rim size 2.50 x18 3.50 x17 Rim wobble limit vertical 0,5mm 0,5mm side 0,5mm 0,5mm Front wheel brake · Design hydraulic single-disc brake with a two-piston floating caliper I and manually operated cylinder · Outside diameterxplate thickness 280x4mm · Thickness of the brake pad 5,Omm · Wear limit <2,Omm · Main brake cylinder inside diameter 11 mm · Brake caliper cylinder inside diameter 2×25,4 mm · Brake fluid DOT4 Rear wheel brake · Design hydraulic single-disc brake with a two-piston floating caliper and manually operated cylinder · Outside diameterxplate thickness 220x4mm · Thickness of the brake pad (wear limit) 5,Omm · Wear limit <2,Omm · Main brake cylinder inside diameter 13mm · Brake caliper cylinder inside diameter 2x 25,4mm · Brake fluid DOT4 Brake level and brake pedal · Play in brake lever 2-5 mmattheendofthe brake lever · Position of brake pedal 25 mmunderthe footrest rubber surface

2001 – 2002 GL1800/ GL1800A Rear Tire Inspection

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Filed Under (Honda) by admin on 27-11-2010

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1. Inspect the motorcycle for a punch mark as described in Identification on page 2. If a punch mark is present no further action is necessary, return the unit to the customer. 2. Qualify the unit/customer as follows: •Is the tire on the motorcycle the original factory installed tire? •Is the air pressure loss more than three psi per month? Note: Refer to page 145 in the Owner’s Manual. “Even tires that are in good condition may lose one to two psi per month if not checked and adjusted regularly” . If the GL1800 meets the above qualifications, proceed with the repair procedure. 3. Place the motorcycle on a lift and secure it on the centerstand. 4. Remove the rear wheel as described on page 14-9 of the Service Manual. 5. Starting at the valve stem/balance mark area, carefully remove the rear tire from the wheel. Be sure to use plenty of commercially available tire lubricant on the inside and outside of both beads. 6. Carefully inspect the entire circumference of both tire beads. Inspect both the inside and outside of the bead for any distortion or injuries. See examples of injuries below. 2001 – 2002 GL1800/GL1800A Rear Tire Inspection GL1800 #6 OCTOBER 2001 MTB 9430 (0109) CUSTOMER INFORMATION: The information in this bulletin is intended for use only by skilled technicians who have the proper tools, equipment, and training to correctly and safely maintain your Honda. These procedures should not be attempted by “do-ityourselfers,” and you should not assume this bulletin applies to your Honda, or that your Honda has the condition described. To determine whether this information applies, contact an authorized Honda dealer. Service Bulletin American Honda Motor Co., Inc. 2001-2002 GL1800/GL1800A Rear Tire Inspection 0110 GL1800 #6*GL1800 #6*0110*2001-2002 GL1800/GL1800A Rear Tire Inspection*GL1800/GL1800A, Rear Tire Inspection, Bead, Tread*Motorcycle*1800 2 of 4 ©2001 American Honda Motor Co., Inc. – All Rights Reserved GL1800 #6 OCTOBER 2001 Inside BeadInjury Outside BeadInjury Outside BeadInjury 7. Carefully inspect the entire circumference of both tire beads. Inspect both the inside and outside of the bead for any distortion or injuries. See examples of injuries below. 8. If there is no evidence of bead damage, re-install the tire on the rim. Be sure to use plenty of commercially available tire lubricant on the inside and outside of both beads. Be sure to align the balance dot with the valve stem. Inflate the tire to 41 psi. Install the wheel assembly on the motorcycle and proceed to the Identification and then to the Warranty section. 9. If any damage or injury is present replace the tire and valve stem. Be sure to use plenty of commercially available tire lubricant on the inside and outside of both beads. Balance the new tire as necessary

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