2006 HONDA GOLD WING Specifications

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Filed Under (Honda) by admin on 29-01-2011

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Engine Type Liquid-cooled 4-stroke 12-valve SOHC flat-6 Displacement 1,832cm3 Bore x Stroke 74 x 71mm Compression Ratio 9.8 : 1 Max. Power Output 87kW/5,500min-1 (95/1/EC) Max. Torque 167Nm/4,000min-1 (95/1/EC) Idling Speed 700min-1 Oil Capacity 4.6 litres Fuel System Carburation PGM-FI electronic fuel injection with automatic choke Throttle Bore 40mm Aircleaner Viscous, cartridge-type paper filter Fuel Tank Capacity 25 litres (including 4-litre warning light reserve) Electrical System Ignition System Computer-controlled digital transistorised with electronic advance Ignition Timing 2° BTDC (idle) ~ 30° BTDC (3,500min-1) Sparkplug Type BKR6E011 (NGK); K20PR-U11 (ND) Starter Electric Battery Capacity 12V/18AH ACG Output 1,000W Headlights 12V, 55W x 2 (low) / 55W x 2 (high) Drivetrain Clutch Wet, multiplate with coil springs Clutch Operation Hydraulic Transmission Type 5-speed (including overdrive, plus electric reverse) Primary Reduction 1.591 (78/49) Gear Ratios 1 2.375 (38/16) 2 1.454 (32/22) 3 1.068 (31/29) 4 0.843 (27/32) 5 0.686 (24/35) Final Reduction 2.750 (33/12) Final Drive Enclosed shaf

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KINROAD 150 SERVICE MANUAL

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

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FUEL AND OIL RECOMMENDATIONS Be sure to use the specified fuel and oil. FUEL Gasoline should SAE 90# or higher. Unleaded gasoline is recommended. ENGINE OIL SAE10W-30 engine oil of high quality should be used. BREAK-IN PROCEDURE For the first 2 hours of riding, do not exceed 2/3 throttle. Vary engine speed for the first 5 hours. Never hold engine at full throttle for long periods of time. SPECIFICATIONS DIMENSIONS DOUBLE SEAT/SINGLE SEAT Overall Length 2159mm/2075mm Overall Width 1400mm/1235mm Overall Height 1470mm/1400mm Wheelbase 1499mm/1450mm Ground Clearance 170mm/130mm ENGINE Type Forced air-cooled, single cylinder, 4-Stroke Engine Capacity 150cc Displacement 149.5cc Bore x Stroke 57.4mm x 57.8mm Compression Ratio 9.2:1 Max Power 7.4kw/7500rpm Max Torque 9.5N.m/5500rpm Fuel Type SAE 90# or above (unleaded) Lubricate Oil SAE 10W/30 Ignition C.D.I. Starting Electric Spark Plug C7HSA (NGK) Transmission Automatic C. V. T. Carburetor MIKUNI, BS24J Lubrication Force & Splash

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BMW R65 Monolever Specifications

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Filed Under (BMW) by admin on 23-11-2010

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Engine Motor Type Bore x Stroke Displacement Max Power Max Torque Compression Ratio Valves Per Cylinder Valve Control Carburation System Engine Lubricating System Power Transmission Clutch Number of Gears ear Selection Gearbox Ratios Rear Wheel Ratio Bevel/Crownwheel Electrical System Ignition System Alternator Starter
Spark Plugs Four-stroke two cylinder horizontally opposed “Boxer” engine, air cooled 82 x 61.5 mm (3.22 x 2.42 in)
649.6 cc 48 hp (35 KW) at 7,250 rpm or 27 hp (20 Kw) at 5500 rpm 47.8 Nm / 35 ft lb at 3,500 rpm or 45.5 Nm / 33 ft lb at 3,500 rpm 8.7 : 1 or 8.4 : 1 2 OHV, using push rod and rocker arm 2 constant depression carburettors, Bing
64/32/359 – 64/32/360 or 64/26/317 – 64/26/318 Wet sump Dry single plate, with lever action diaphragm spring
5 Dog type gearbox (ratchet foot lever) 4.4 / 2.86 / 2.07 / 1.67 / 1.50

DUCATI 900 SuperSport Engine performance And technical specification

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

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Displacement: 904 cc Bore: 92 mm Stroke: 68 mm Max. power: 75 hp at 7000 rpm Max. torque: 80 Nm at 5000 rpm Max. velocity: 220 km/h Pass-By noise: 82 dB(A) Homologation: 1992 Main Targets of Development Today’s motorcycle market requests more powerful engines, however, legislative noise and pollution limits are becoming more severe. In order to reduce development cost only small modifications were allowed. Entirely new designs of technical components (i.e. cylinder head) had to be avoided. In additon, the complete development had to be finished in a relatively short time of about three months. The most important targets of development were: better engine performance: – more max. power: +5 hp – more torque at low rpm lower noise emission: -2 dB(A) 80 dB(A) (89/235/CEE) change from carburettor to fuel injection system Figure 1, Ducati 900 SS
3 Engine performance calculation with WAVE A complete model of the new engine concept (fuel injection) with actual intake- and exhaust geometry allowed us to set up a reference engine-cycle-simulation model for further optimization. The most important parameter-variation during the cycle-studies to improve volumetric efficiency were: intake duct length valve timing constant or even lower exhaust backpressure Figure 2 shows the improvement in calculated engine performance due to different intake-duct length and modified valve timing. Figure 3 gives an example of accuracy of the calculation results compared with measured data of engine performance with new intake-duct length. Figure 4 illustrates the final engine performance with modified valve-timing, intake-duct length and new exhaust silencer. A comparison of measured performance data between the original and the redesigned engine gives shows the improvements in terms of maximum power and torque at low rpm.

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2010 KAWASAKI Z 1000 RACING EXHAUST SYSTEM

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Filed Under (Kawasaki) by admin on 05-11-2010

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Akrapovic Racing system is designed for riders who demand maximum performance from their motorcycle. System is almost 10 kg lighter, if compared to the stock exhaust system and feature exceptional production quality, hi-tech materials and of course increased engine performance combined with pure racing sound output. The Racing system uses stainless steel header tubes and link pipe. We offer titanium or carbon-fiber mufflers. System is not street legal and is designed for racing purpose. PERFORMANCE Measurements of the Akrapovic EVOLUTION system on the KAWASAKI Z 1000 (without muffler insert): Power & Torque: The power increase with the Akrapovic system is substantial, and can be seen from 5000 rpm right to the top of the range. At 10250 rpm we measured 141.2 HP, with a max. power increase of 14.1 HP at 10300 rpm. The system’s effect on the torque and power curve is huge and strongest at midrange rpm. The main increase starts at around 2500 rpm and continues right into the over-rev range. All this will help you shave lap times and result in a much smoother rid

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