2003 suzuki 110

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1994-2003 Suzuki GSXR750 and 1997-2004 Suzuki GSXR600 Superbike Kit INSTALLATION INSTRUCTIONS

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Filed Under (Suzuki) by admin on 10-01-2011

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Step 1: Identify the key components that complete our Superbike kit: You should have 2 lines (front kit), 1 double banjo bolt and 2 lower adapters. There are also a total of 7 washers. 5 will be used, and 2 are spares. We strongly suggest having a professional mechanic install these brake lines; all other installations VOID warranty. Inspect your brake system after every race. Step 2: To ensure no paint damage from a brake fluid spill, completely cover the front end of the bike. This process is messy, and brake fluid WILL drip! Step 3: Uninstall stock hoses; be aware of how the stock system was routed in case you need to re-install it. Step 4: Install the Galfer adapters onto the right and left calipers. Thread each adapter into the calipers with one washer, and torque at 12 to 13 ft pounds. (See picture S4) Step 5: Install the right and left lines to the calipers, using the shorter line on the right side. These lines will travel from the master cylinder to the calipers; a double banjo bolt (see picture S5) is included to run two lines down. The positioning sequence on the master cylinder is as follows: Master cylinder, washer, straight banjo (from right line), washer, 12-degree banjo (from left line), washer, and double banjo hex. Double banjo bolt torque level is 12 FT Pounds. ( See picture S6) Make sure that the 90-degree fittings on each caliper are pointing away from the bike just a little bit (see pictures S7 through S9 of calipers) . Thread each banjo end into the adapter, and torque to 6 ½ Ft pounds. Before you proceed to the next step, please check for clearance of the lines. Compress the front end to make sure that the lines are not binding with anything. When the front end is fully extended or fully compressed, double check that the lines are traveling correctly and clear from any obstructions. Once the lines have been checked for clearance, we recommend using a zip-tie to bring the lines together about an inch above the lower triple clamp area. (Picture S10) Step 6: Bleed brake system according to owner’s manual, and build appropriate pressure. Finishing with DOT 4-brake fluid is recommended.

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2003 SUZUKI SV 1000 Service Manual

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Filed Under (Suzuki) by admin on 26-02-2011

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HOW TO USE THIS MANUAL TO LOCATE WHAT YOU ARE LOOKING FOR : 1. The text of this manual is divided into sections . 2. The section titles are listed in the GROUP INDEX . 3 . Holding the manual as shown at the right will allow you to find the first page of the section easily . 4. The contents are listed on the first page of each section to help you find the item and page you need . COMPONENT PARTS AND WORK TO BE DONE Under the name of each system or unit, is its exploded view . Work instructions and other service information such as the tightening torque, lubricating points and locking agent points, are provided . Example: Front wheel SYMBOL Listed in the table below are the symbols indicating instructions and other information necessary for servicing. ENGINE OIL SUZUKIrecommends the use of SUZUKI PERFORMANCE 4 MOTOR OIL or an oil which is rated SF or SG under the API (American Petroleum Institute) service classification. The recommended viscosity is SAE 1 OW-40 . If an SAE 1 OW-40 oil is not available, select an altematice according to the right chart . BRAKE FLUID Specification and classification: DOT 4 A WARNING Since the brake system of this motorcycle is filled with a glycol-based brake fluid by the manufacturer, do not use or mix different types of fluid such as silicone-based and petroleum-based fluid for refilling the system, otherwise serious damage will result . Do not use any brake fluid taken from old or used or unsealed containers . Never re-use brake fluid left over from a previous servicing, which has been stored for a long period. FRONT FORK OIL Use fork oil L01 or an equivalent fork oil . GENERAL INFORMATION 1-5 ENGINE COOLANT Use an anti-freeze/engine coolant compatible with an aluminum radiator, mixed with distilled water only . WATER FOR MIXING Use distilled water only . Water other than distilled water can corrode and clog the aluminum radiator . ANTI-FREEZE/ENGINE COOLANT The engine coolant perform as a corrosion and rust inhibitor as well as anti-freeze . Therefore, the engine coolant should be used at all times even though the atmospheric temperature in your area does not go down to freezing point. Suzuki recommends the use of SUZUKI COOLANT anti-freeze/engine coolant. If this is not available, use an equivalent which is compatible with an aluminum radiator . LIQUID AMOUNT OF WATER/ENGINE COOLANT

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Harley-Davidson Camshaft TC, EVO, Shovelhead, XL EVO, Iron Head, XR Specifications

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Filed Under (Harley Davidson) by admin on 02-11-2010

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EVO Black Widow PP8833-2 – 29 55 62 25 264 267 54 103 109 105.8 0.600 0.602 EVO Black Widow PP8826-2 – 27 61 63 29 268 272 56 107 107 107.0 0.602 0.602 EVO Black Widow PP8817-2 – 254 254 0.590 0.590 EVO Carl’s Speed Shop CM4 – 28 44 52 20 252 252 48 98 106 102.0 0.495 0.495 EVO Carl’s Speed Shop CM495F Y 19 47 50 16 246 246 35 104 107 105.5 0.495 0.495 0.179 0.168 EVO Carl’s Speed Shop CM580 – 19 47 50 16 246 246 35 104 107 105.5 0.580 0.580 0.194 0.163 EVO Carl’s Speed Shop CM612 – 36 60 68 28 276 276 64 102 110 106.0 0.612 0.612 0.277 0.235 88 EVO Carl’s Speed Shop CM660 – 38 62 68 28 280 276 66 102 110 106.0 0.660 0.660 0.314 0.277 90 EVO Carl’s Speed Shop CM774 – 284 284 0.784 0.784 0.277 0.236 EVO Carl’s Speed Shop CM780F – 34 70 74 30 284 284 64 108 112 110.0 0.774 0.774 103 EVO Crane EVR0020 – 31 64.5 77 23 275 280 54 107 117 112.0 0.608 0.589 88 EVO Crane Fireball 2000 Y -12 22 20 -10 190 190 -22 107 105 106.0 0.490 0.490 0.026 0.032 EVO Crane Fireball 300 Y 12 34 41 15 226 236 27 101 103 102.0 0.490 0.490 4000 EVO Crane Fireball 310 Y 16 40 43 19 236 242 35 102 102 102.0 0.490 0.490 1500 4500 75 EVO Crane Fireball 316 Y 19 43 48 24 242 252 43 102 102 102.0 0.490 0.490 2000 5000 80 EVO Crane Fireball 326 – 24 48 57 25 252 262 49 102 106 104.0 0.490 0.500 2500 5500 EVO Crane H286 Y 19 43 48 24 242 252 43 102 102 102.0 0.490 0.490 2000 5000 80 EVO Crane H290 – 17 43 45 23 240 248 40 103 101 102.0 0.581 0.581 1800 5200 EVO Crane H296 – 24 48 57 25 252 262 49 102 106 104.0 0.490 0.500 2500 5500 EVO Crane H304 – 24 50 55 25 254 260 49 103 105 104.0 0.600 0.600 2500 5800 EVO Crane H306 – 28 54 69 23 262 272 51 103 113 108.0 0.500 0.510 0.224 0.195 3000 6000 EVO Crane H310 – 23 63 68 28 266 276 51 110 110 110.0 0.550 0.550 0.229 0.229 3000 6500 88 EVO Crane H314 – 26 54 65 21 260 266 47 104 112 108.0 0.600 0.600 2800 6000 EVO Crane HEV0042 – 27 59 71 23 266 274 50 106 114 110.0 0.600 0.576 0.226 0.194 3000 6000 100 116 EVO Crane HEV0067 – 24 50 56 24 254 260 48 103 106 104.5 0.600 0.530 0.128 0.113 EVO Crane HEV0098 – 36 62 72 34 278 286 70 103 109 106.0 0.650 0.650 0.171 0.156 96 EVO CycleRama CR-E550 – 24 52 53 23 256 256 47 104 105 104.5 0.550 0.530 EVO CycleRama CR-E581 – 22 46 53 23 248 256 45 102 105 103.5 0.581 0.550 EVO CycleRama CR-E600A – 24 50 56 24 254 260 48 103 106 104.5 0.600 0.530 EVO CycleRama CR-E600B – 23 51 54 22 254 256 45 104 106 105.0 0.600 0.550 EVO CycleRama CR-E617 – 22 50 50 22 252 252 44 104 104 104.0 0.617 0.617 EVO CycleRama CR-E630 – 18 60 63 13 258 256 31 111 115 113.0 0.630 0.630 EVO CycleRama CR-E660 – 27 59 71 23 266 274 50 106 114 110.0 0.660 0.660 3500 6500 140 EVO Dave Mackie DM500 Y 22 38 52 12 240 244 34 98 110 104.0 0.500 0.500 0.189 0.138 EVO Dave Mackie DM500X Y 25 40 55 20 245 255 45 98 108 102.5 0.500 0.500 0.208 0.178 EVO Dave Mackie DM530 – 28 42 55 15 250 250 43 97 110 103.5 0.530 0.530 0.221 0.141 EVO Dave Mackie DM580 – 26 42 56 12 248 248 38 98 112 105.0 0.580 0.580 0.227 0.144 113 EVO Dave Mackie DM581 – 26 42 56 12 248 248 38 98 112 105.0 0.580 0.580 0.227 0.144 EVO Dave Mackie DM595 – 21 49 57 14 250 251 35 104 112 107.8 0.595 0.595 0.192 0.150 EVO Dave Mackie DM635 – 20 56 59 18 256 257 38 108 111 109.3 0.635 0.635 0.194 0.176 EVO Edlebrock 1740 Y 19 43 48 24 242 252 43 102 102 102.0 0.490 0.490 0.176 0.203 EVO Edlebrock 1741 – 20 46 52 22 246 254 42 103 105 104.0 0.600 0.600 0.183 0.187 EVO Head Quarters HQ-23 – 19 47 52 24 246 256 43 104 104 104.0 0.600 0.530 EVO Head Quarters HQ-24 Y 20 36 52 19 236 251 39 98 107 102.3 0.500 0.500 EVO Head Quarters HQ-25 – 18 38 42 14 236 236 32 100 104 102.0 0.550 0.550 EVO Head Quarters HQ-26 – 20 54 53 22 254 255 42 107 106 106.3 0.600 0.530 89 EVO Head Quarters HQ-27 – 26 60 70 24 266 274 50 107 113 110.0 0.650 0.575

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SUZUKI MOTORCYCLES Gsxr 600, Gsxr 750, Gsxr 1000 teak the lead

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Filed Under (Suzuki) by admin on 12-11-2010

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The launch of the sixth generation of Gsxr marked a shift in Suzuki’s emphasis on two fronts. One, the Gsxr 1000 now took the upper hand in the development stakes. Historically, the Gsxr 750 led the march-arriving first, gaining the most recent technology, absorbing the lion’s share of corporate pride-but by 2003 the Gsxr 1000 was in the lead. Two, the Gsxr 1000 represents another, more subtle shift for Suzuki engineering, in which the designers-the lucky guys who get to clothe these amazing machines-have more freedom of expression. With this generation, the designs turned edgier, sharper, more aggressive looking than ever. What’s more, the Gsxr 1000 K3 would be the proving ground for a host of changes brought to the Gsxr 600 and Gsxr 750 for 2004. In fact, nearly every upgrade to the smaller bikes appeared on the Gsxr 1000 a year before. But the real impetus for driving the Gsxr 1000 to the head of development and, indeed, shortening its development cycle was competition both on the track and in the showroom. For the track, it was understood that Superbike racing would revert to allowing 1000 cc four-cylinder bikes in place of the 750s that had been the limit since 1982. In 2002, Yoshimura and Mat Mladin barely lost the AMA Superbike crown to Nicky Hayden aboard the Honda RC5!. But it would be the RC’s swan song of competitiveness with the change to 1000 cc fours. To keep speeds in check, the AMA Superbike rules would require 1000 cc fours to have some additional limitations compared to the twins and triples. For example, “Cylinder heads may be ported and machined, but altering of valve angles will not be permitted; aftermarket valves, springs, retainers, and other valve-train components will be permitted; valves must be stock size and same basic material as original equipment; aftermarket camshafts will be permitted, but earn lift and resulting valve lift must be no greater than stock. “In addition, the “stock crankshaft must be retained, The only allowable modifications are balancing, polishing of bearing surfaces and attachment of accessory drives. Homologated transmission gear sets (one optional set of ratios per approved model) will be permitted. Optional sets will be price-controlled and must be available to any legitimate AMA Superbike competitor. Homologated fuel-injection throttle-body assemblies (one optional type per approved model) and aftermarket airboxes will be permitted. Modifications to throttle bodies will not be permitted. Optional throttle bodies will be price-controlled and must be available to any legitimate AMA Superbike competitor.” The thinking was simple: keep the liter bikes from sucking through massive throttle bodies, and the horsepower might not (and, it was hoped, would not) go through the roof. In preparation for racing, Suzuki moto wanted to make a host of small changes to the Gsxr 1000, but its motivation was also to keep the bike at the forefront of open-class street bikes. Suzuki engineers knew that Honda and Kawasaki were readying all-new models-the CBR 954 RR and the ZX 9 R had long since been vanquished-and rumor had it that Yamaha was ready with yet another push with the R1.It was the right time to make alterations to the Gsxr 1000. Heading the list was, as one might expect, a revised engine.

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2003 SUZUKI SV 650 COOLING AND LUBRICATION SYSTEM SERVICE MANUAL

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Filed Under (Suzuki) by admin on 26-02-2011

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COOLING CIRCUIT INSPECTION Before removing the radiator and draining the engine coolant, inspect the cooling circuit for tightness. • * Remove the cowling. (SV650S) (C-7–7-6) • * Loosen the radiator cap stop screw 10 . (SV650) • * Remove the radiator cap O2 and connect the radiator tester to the filler. A WARNING Do not remove the radiator cap when the engine is hot. • * Give a pressure of about 120 kPa (1 .2 kgf/cm2,17.0 psi) and see if the system holds this pressure for 10 seconds . • * If the pressure should fall during this 10-second interval, it means that there is a leaking point in the system . In such a case, inspect the entire system and replace the leaking component or part. A WARNING When removing the radiator cap tester, put a rag on the filler to prevent spouting of engine coolant. CAUTION Do not allow the pressure to exceed specified pressure, or the radiator can be damaged. COOLING AND LUBRICATION SYSTEM 6-3 6-4COOLING AND LUBRICATION SYSTEM RADIATOR REMOVAL • * Remove the cowling. (SV650S) ( r- 7-7-6) • * Drain engine coolant. (r– 72-20) • * Disconnect the right and left radiator hoses from the radiator. • * Disconnect the siphon hose from the radiator. • * Disconnect the horn lead wires. rI .rr • * Remove the radiator lower mounting bolt. • * Disconnect the cooling fan motor and its thermo-switch lead wire coupler 10. • * Remove the radiator by upper mounting bolt. • * Remove the cooling fan. • * Disconnect the cooling fan thermo-switch. • * Remove the cooling fan thermo-switch. • * Remove the horn. CAUTION When removing the horn, hold the nut by spanner to prevent the horn bracket distortion. COOLING AND LUBRICATION SYSTEM 6-5 INSTALLATION • * Install the cooling fan and horn. 0 Cooling fan/horn mounting bolt: 8 N .m (0.8 kgf-m, 6 .0 Ib-ft) • * Install the cooling fan thermo-switch. ( l”76-9) • * Install the siphon hose to the radiator. • * Install the radiator in the reverse order of removal. • * Route the radiator hoses properly. (=9-22) 9-22) • * Install the drain plug with a new sealing washer and pour engine coolant. (=2-20) • * Bleed air from the cooling circuit. (r– 72-21) • * Install the cowling. (SV650S)

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2003 SUZUKI SV 650 FUEL SYSTEM AND THROTTLE BODY SERVICE MANUAL

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Filed Under (Suzuki) by admin on 26-02-2011

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FUEL PUMP The electric fuel pump is mounted at the bottom of the fuel tank, which consists of the armature, magnet, impeller, brush, check valve and relief valve . The ECM controls its ON/OFF operation as controlled under the FUEL PUMP CONTROL SYSTEM . When electrical energy is supplied to the fuel pump, the motor in the pump runs and together with the impel- ler . This causes a pressure difference to occur on both sides of the impeller as there are many grooves around it . Then the fuel is drawn through the inlet port, and with its pressure increased, it is discharged through the outlet port . The fuel pump has a check valve to keep some pressure in the fuel feed hose even when the fuel pump is stopped . Also, the relief valve is equipped in the fuel pump, which releases pressurized fuel to the fuel tank when the outlet of the fuel pressure has increased up to 450 -600 kPa (4.5- 6.0 kgf/cm2,64- 85 psi) . Relief valve Brush , ∎ I,’ Check valve Magnet L Armature When the impeller is driven by the motor, pressure differential occurs between the front part and the rear part of the blade groove as viewed in angular direction due to fluid friction . This process continuously takes place causing fuel pressure to be built up . The pressurized fuel is then let out from the pump chamber and discharged through the motor section and the check valve . FUEL SYSTEM AND THROTTLE BODY 5- 3 Inlet port I I Impeller 5-4 FUEL SYSTEM AND THROTTLE BODY FUEL PRESSURE REGULATOR The fuel pressure regulator consists of the spring and valve . It keeps absolute fuel pressure of 300 kPa (3.0 kgf/cm2,43 psi) to be applied to the injector at all times . When the fuel pressure rises more than 300 kPa (3 .0 kgf/cm2, 43 psi), the fuel pushes the valve in the regulator open and excess fuel returns to the fuel tank . 90 Spring 02 Valve FUEL INJECTOR The fuel injector consists of the solenoid coil, plunger, needle valve and filter . It is an electromagnetic type injection nozzle which injects fuel in the throttle body according to the signal from the ECM. When the solenoid coil of the injector is energized by the ECM, it becomes an electromagnet and attracts the plunger. At the same time, the needle valve incorporated with the plunger opens and the injector which is under the fuel pressure injects fuel in conic dispersion . As the lift stroke of the needle valve of the injector is set constant, the volume of the fuel injected at one time is determined by the length of time during which the solenoid coil is energized (injection time)

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2001 – 2003 Prius 2003 4Runner, Camry, Land Cruiser and Sequoia VEHICLES EQUIPPED WITH TRANSPONDER ECU

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Filed Under (Toyota Manuals) by admin on 07-10-2011

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When replacing the ECM (SAE term: PCM) or the Transponder ECU a “handshake” procedure must be performed. This ECU ID communication is necessary to enable the Transponder ECU and the ECM to recognize each other before the vehicle will start. Complete ECU communication using the following steps: 1. Insert a Master key into the ignition cylinder. 2. Turn the ignition ON (engine OFF). 3. Short Tc and CG terminals of DLC3 using the Diagnostic Check Wire (SST 09843-18020 or equivalent) and leave for 30 minutes. 4. After 30 minutes, turn the ignition OFF and remove check wire from DLC3. 5. Register any additional keys as necessary. 6. Start the vehicle to confirm successful ECU communication. Key Programming: To program or delete a key, a registered Master key is necessary unless the Transponder ECU has been reset or replaced. The Transponder ECU system incorporates a black “Master” key and a gray “Sub” key. The process during registration of these two keys is identical. The key itself now determines if it functions as Master or Sub, not the registration procedure. The maximum number of allowable Master and Sub keys vary by model. Refer to the chart below.

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SUZUKI PUTS THE 'STYLE' IN LIFESTYLE WITH CUSTOM ACCESSORIES INSTALLATION

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Filed Under (Suzuki) by admin on 14-02-2012

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Suzuki Genuine Accessories are available for the all-new Equator midsize pickup truck, four-door SX4 Sport, five-door SX4 Crossover, XL7 midsize crossover and rugged Grand Vitara. The accessories can be purchased through local Suzuki dealers. Suzuki Equator  All-weather floor mats – Rubberized all-weather mats, ideal for keeping dirt, moisture and harsh debris from coming in contact with the vehicle’s carpet interior.  Bluetooth® module – The Suzuki-integrated hands-free Bluetooth phone system features a clean installation, fresh look and works with most Bluetooth-enabled mobile phones. Quality sound plays through the vehicle’s factory stereo and speakers, and the phone system automatically mutes the radio during phone calls. (Also available for SX4 Sport, SX4 Crossover, Grand Vitara and XL7.)  Body side moldings – Durable polyurethane molding set helps protect exterior paint from door dings and road rash.  Hood mask – Durable vinyl, custom-fit mask helps protect the front end of the vehicle from damage caused by minor road debris.  iPod® interface kit – Provides a seamless connection from an iPod to the vehicle’s radio and/or steering-wheel audio controls. (Also available for SX4 Sport, SX4 Crossover, Grand Vitara and XL7.)

Kawasaki ZX6R/ RR 2003-2004 Frame Slider Installation Instructions

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

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1. Locate and remove right engine stud. Tip: Both main engine studs on the ZX6R tend to be very tight from the factory, use a stubby socket to remove stud. Make sure you have good engagement or the head of the bolt can strip. 2. Mount Right side frame slider using 99-HB-SH101250110 Socket Cap 10 X 1.25 X 110 Main Engine Stud and torque down to OEM torque specs. 3. Remove the left side OEM motor mount bolt. 4. Using the 10 X 1.25 X 110 Bolt supplied in the kit: Use the 99-SP-750-4200-L Left Side Bell Type Spacer Black Anodized 5. The small end of the (99-SP-750-4200-L Left Side Bell Type Spacer Black Anodized) goes against the left side of the frame. The longer of the two frame sliders goes on top of the spacer. Using the 10 X 1.25 X 110 Socket Cap mount and torque down to OEM specs

2003-2004 HONDA GL 1800/A Frame Weld Safety Recall

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Filed Under (Honda) by admin on 15-12-2010

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there is no punch mark on the VIN plate as specified in this Service Bulletin, proceed to the REPAIR PROCEDURE section of this Service Bulletin. IMPORTANT: Due to the complexity of this campaign it is imperative that you check iN and your Dealer Responsibility Report before you begin repairs. If iN or your Dealer Responsibility Report indicate the Safety Recall has been performed, but you confirm the unit is not punched and the repair has actually been done (by inspecting the weld), please contact the Warranty HelpLine at (800) 421-1900, option 7. IMPORTANT: For complete Dealer and Welder Repair procedures, refer to the following items: • 2002-2003 GL1800/A Frame Weld Safety Recall Dealer Booklet (S0510)  Frame Weld Inspection Chart (S0516) You MUST provide your TIG welder with the following items:  2002-2003 GL1800/A Frame Weld Safety Recall Welding Manual (S0511)  2002-2003 GL1800/A Frame Weld Safety Recall Cracked Weld Repair Manual (S0515) Welding Template Box (S0512) All of the above items were shipped to you with Service Bulletin GL1800 #14. If you need additional copies of these materials, you may order them from Resolve at (440) 572-0725. For your reference, a brief repair procedure overview is provided below. DISASSEMBLY OVERVIEW You will be removing the following components from the vehicle as instructed in the Dealer Booklet : Handlebar weights Rear view mirrors Swingarm pivot covers Rider foot pegs Seat Side covers/Engine side covers Fairing pockets Fairing molding Meter panel Top shelter Battery Fuel tank Main wiring harness ground Front lower fairing Front exhaust pipe protector Muffler/exhaust pipe Antenna Whip(s) Coolant reserve tank Center stand NOTE: You will need to remove any accessories that may contact the ground during the Welding and Re-assembly procedures. IMPORTANT: Before you send the motorcycle to the welder, you MUST check for lower crossmember frame weld cracks.  If your inspection reveals no cracks in or on either the Left or Right lower cross- member frame welds, proceed to the REPAIR PROCEDURE OVERVIEW section of this Service Bulletin.  If your inspection identifies a crack or cracks in or on either the Left or Right lower crossmember frame welds, perform the following procedure: Place the grinding template (S0512) on the crossmember. Using a suitable felt marker, draw a line on the weld with the crack, drawing the line along the entire edge of the the template (this line will be 89 mm long). If the crack falls within the length of this line (89 mm) , prepare the motorcycle for welding per the Dealer Procedures and advise the welder to use the Cracked Weld Repair Manual (S0515). After the bike has returned from the welder, prepare the frame and re-assemble the motorcycle per the Dealer Procedures . Then, proceed

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