Lilac LS-18 Motorcycle Maintenance Standards

0

Filed Under (Lilac) by admin on 25-11-2010

download
CYLINDER AND CYLINDER HEAD MAINTENANCE ITEM STANDARD REPAIR LIMIT METHOD REMARKS Cylinder Bore 54 -0.01 54.1 Boring After boring honing should be performed Ovality 0.01 0.05 Boring After boring honing should be performed Taper 0.01 0.05 Boring After boring honing should be performed Oversize 0.25 steps 55 max. Do R and L cylinders at same time / 4 steps Valve Seat Width 0.8 – 1.0 1.3 Adjust Use a cutter Angle 45∞ Combustion Chamber Volume 18.2cc -0.5cc Remove carbon if heavy accumulation Compression Ratio 7.8:1 Head Gasket Thickness 1.0 Cylinder Head Nut Torque 3.0 kg/m (22 ft.-lb.) Out standard Adjust 8mm nut Intake and Exhaust Ports Port Wall SurfaceMust be smooth Remove carbon Intake and Exh. Valve GuidesOD 12 +0.09 +0.1 ID 7 +0.01 -0.0 7.06 Exchange Intake Valve Stem Diameter 7 -0.02 -0.03 6.9 Exchange Head Thickness 1 0.7 Exchange Exhaust Valve Stem Diameter 7 -0.02 -0.03 6.9 Exchange Head Thickness 1 0.7 Exchange Intake and Exhaust Valve Seat Face Width Range 0.8~1.0 1.3 Use valve seat cutter Intake Valve Guide Clearance 0.02~0.04 0.08 Replace valve or guide Exhaust Valve Guide Clearance 0.06~0.08 0.12 Replace valve or guide Valve Spring (Large) Installed Load 10.2 kg 8.7 kg Replace Fitted length 31.5 Free Length 36.5 34.7 Replace Tilt 1.5/100 3/100 Replace Valve Spring (Small) Installed Load 5.48 kg 4.65 kg Replace Fitted length 29.5 Page 4 of 10 Free Length 33.5 31.8 Replace Tilt 1.5/100 3/100 Replace Rocker Arm ID 12 +0.00 +0.02112.07 Replace Rocker Shaft OD 12 -0.06 -0.024 11.92 Replace Arm and Shaft Clearance 0.045~0.006 0.10 Replace arm or shaft Tappet Clearance 0.05 Out standard Adjust Measure cold at TDC Rocker Arm Ball Surface 1.8îR -0.006 -0.024 Replace if severe wear Pushrod Bend 0.1 0.5 Straighten Over 100mm (2) CRANKSHAFT, PISTON AND CONROD MAINTENANCE ITEM STANDARD REPAIR LIMIT METHOD REMARKS Piston OD @ Top 53.65 -0.02 Max Diameter 53.95 -0.015 53.85 Replace Ovality 0.1 Piston and Cylinder Clearance 0.04~0.05 0.15 Replace Piston Ring Groove Clearance 0.03~0.07 0.10 Replace Piston Oversize Step 0.25 4 steps Top Ring and 2nd Ring Thickness 2 -0.01 -0.03 1.92 Replace Width 2.5 -0.01 0.55kg Tension 0.85 – 1.15kg 1 Replace End Gap 0.15 – 0.35 Replace Oil Ring Thickness 3.2 -0.01 -0.03 3.12 Replace Width 2.5 -0.1 Tension 1.0~1.3kg 0.65kg Replace End Gap 0.15~0.35 1 Replace Ring Gap Position 120∞ 3 equal spacesOut standard Adjust Avoid Piston Pin Axis Ring Oversizes 0.25 steps 4 steps Piston Pin OD 15 -0.0 +0.006 14.95 Replace Pin Hole in Piston ID 15 +0.012 -0.015.05 Replace Pin and Piston Clearance -0.006 ~ +0.012 0.06 Replace Hand push fit piston at 100∞C Conrod Small End Bush ID 15+0.027+0.016 15.07 Replace bush Conrod and Piston Pin Clearance 0.01~0.027 0.07 Replace Crankpin OD 24.94 +0.0+0.0124.90 Replace Crankpin Roller OD 5 (+0.001+0.003) Refer to conrod ID Replace 3Sizes; 52 per assembly for selective fit 5 (+0.0 -0.002) 5 (-0.003 -0.005) Conrod ID 34.95+0.03+0.02435.02 Axial Play 0.2~0.4 0.5 Adjust Radial Play 0.026~0.036 0.06 Replace

Incoming search terms:

Yamaha YZ400F Engine specification

0

Filed Under (Yamaha) by admin on 13-11-2010

download
During more than 25 years as one of the world’s leading manufacturers of advanced motocross machinery Yamaha has consistently developed and produced exciting and innovative new engine technology. Now Yamaha are about to amaze the off-road world once again with what is surely the most important new powerplant to be produced since our liquid cooled YZ 2-strokes of the early 1980s. Extremely compact and remarkably light, the YZ400F’s 4-stroke powerplant incorporates some of the most sophisticated technology ever seen on a production motocross engine. Displacing 399cc, this 55hp high performance liquid cooled motor features bore and stroke dimensions of 92 x 60.1mm – a free-revving short stroke configuration which allows this ground-breaking motorcycle to produce a wider powerband than today’s 250cc 2-strokes. Short skirt piston runs in a ceramic composite plated cylinder which reduces frictional losses, thereby enhancing throttle response throughout the rpm range. To ensure overall dimensions are kept to a minimum this revolutionary new engine is fitted with an extremely light and compact 5-valve cylinder head. Running a 12.5:1 compression ratio and with a combustion chamber volume of 20.8 cc, this high efficiency 5-valve design runs with lightweight valves, springs and lifters for immediate throttle response and smooth high rpm operation. Feeding the three lightweight inlet valves is a 39mm Keihin flat-slide carburettor which breathes through a large capacity airbox. Special feature on the YZ400F’s intake side is an innovative air valve which is designed to ensure easy starting when the engine is warm. A tube connects the machine’s inlet manifold directly to the airbox, bypassing the FCR39 carburettor. By pulling the air valve’s choke-type knob, air is fed straight from the airbox into the engine for easier warm starting.

Incoming search terms: