Posts Tagged ‘Motorcycle Tips’
Tips and How to Winterize Your Bike
Tips and How to Winterize Your Bike - Sad, but true, it’s time again … time for your motorcycle winter. As difficult as might even consider putting your bike away for the months of hard to come, it is a must to stay safe. They live in harsh climates; especially need to take special precautions to ensure that they remain in the form of bike to ride once the weather breaks and spring back.
To keep your bike in tip-top shape to run, figures to take at least one full day to get prepared for storage. Follow these simple tips to help protect your bike this winter, so be ready to go again come spring:
-Change the oil and lubricate all moving parts.
-Purge the carbs, always remember to add a stabilizer to the gas tank before storing.
-Wash and dry your bike thoroughly before storage. A leaf blower works great in the frying off excess water.
-Check your drive belts for any signs of wear and tear at each end of the season riding.
-Wax all painted areas and the frame to keep moisture from causing problems during the winter.
-Clean and polish all the chrome and chrome rims with a layer of paint or silicone lubricant.
-Adjust and lubricate the chain drive.
-Be careful to remove your battery special for the winter months. Always clean the terminals and check the liquid (add more if needed). Store on a wooden board – does it ever concrete!
-To keep unwanted guests from the cleaning arrangements in your exhaust pipe, be sure to stuff a cloth in the end or cover it with plastic bags. Always delete before starting your bike in the spring!
-Keep your bike covered when stored in good quality motorcycle cover or cotton bed sheets.
-Remove all removable devices and store them in a relatively warm (Dipstick oil, temperature gauge, etc.
-Leave a note for yourself to remind you about the parts that need to be replaced or re-inspected or maintenance that will be required prior to heading out on the road once again.
Motorcycles may seem like big, powerful machines that need a little tender loving, but the reality is that motorcycles need a lot of attention to ensure that travel remains safe and trouble-free for years to come. They live in warm climates may be able forgoes storage tips listed here, but those who live in colder climates than the Northeast and the Northwest mountains should take time to carefully prepare their bikes for the winter season.
Viscous Hydroplaning
Viscous
The viscous hydroplaning due to the characteristics of the water slimy. A thin film of liquid over a thousandth of an inch in depth is all that is necessary. The tire can not penetrate the liquid and the tire rolls over the movie. This can occur at a rate much lower than the hydroplane dynamic, but requires a temporary flat or smooth surface such as asphalt or a touchdown area covered with rubber accumulated past landings. Such a surface can have the same coefficient of friction than wet ice.
When confronted with the possibility of hydroplaning, the best land in a grooved channel (if available). The touchdown speed must be as slow as possible consistent with safety. After the wheel bow down the runway, braking should be applied moderately. If the deceleration is not detected and hydrofoils is suspected, the nose should be lifted and used aerodynamic drag to decelerate to a point where the brakes become effective.
The Inverted Rubber Hydroplaning
Rubber Invested
Inverted rubber (steam) that hydroplaning occurs during heavy braking which results in a prolonged skid locked-wheel. Only a thin film of water in the channel is required to facilitate this type of hydroplaning. The tire skid generates enough heat to make the rubber in contact with the channel fresh investment to its original. Inverted rubber acts as seal between the tire and the runway, and retards the flow of water in the area of the footprint of the tire. The water heats up and turns to steam which supports the tire of the channel.
The inverted rubber hydroplaning often follows an encounter with dynamic hydroplaning, while the driver can lock the brakes in an attempt to slow the plane. The plane eventually slows enough to where the tires make contact with the surface of the runway and the plane starts to skid. The remedy for this type of seaplane pilot is to throw the brakes and let the wheels do spin up and apply moderate braking. Inverted rubber hydroplaning is insidious in that the pilot may not know when it starts, and may persist groundspeeds very slow (20 knots or less).
Dynamic Hydroplaning Type
Dynamic hydroplaning is a relatively high speed that occurs when a film of water on the runway that is at least one tenth inch deep. As the aircraft speed and depth of water increased, the layer of water builds up an increasing resistance to dislocation, resulting in the formation of a wedge of water under the tire.
At a certain speed, called the hydroplaning speed (VP), the upward force generated by water pressure equals the weight of the aircraft and the tire is removed from the surface of the channel. In this condition, the tires no longer contribute to the directional control and braking action is nothing.
Dynamic hydroplaning is related to the inflation pressure of the tire. The data obtained during hydroplaning tests have shown the minimum dynamic hydroplaning speed (VP) of a tire to be 8.6 times the square root of the tire pressure in pounds per square inch (PSI). For an airplane with a head pressure of 24 PSI tire, the calculated hydroplaning speed would be about 42 knots. It is important to note that the rate referenced above is calculated for the beginning of dynamic hydroplaning. Once hydroplaning has begun, may persist to a significantly reduced rate depending on which is experienced.
Recovery and Prevention of Hydroplaning
Recovery
To recover while traveling in a straight line, the driver should not turn the steering wheel of a car or applying the brakes. Any action could put the car into a skid from which recovery would be difficult or impossible to. Instead, no change in steering input, the driver should gently ease the throttle pressure. The control should then return. If braking is unavoidable, the driver should lightly pump the brakes until hydroplaning has stopped.
Prevention by the driver
The best strategy is to avoid as many contributors to hydroplaning as is possible. Proper tire pressure, narrow tires and not spent, and slow speeds of those deemed suitable will moderate dry mitigate the risk of hydroplaning. Avoidance of standing water is another effective strategy of prevention.
Causes of Hydroplaning on Tires
If multiple hydroplaning tires, the vehicle may lose directional control and slide until it hits an obstacle, or slows enough that one or more tires in contact with the road again and friction is regained.
The likelihood of hydroplaning increases with vehicle speed and water depth. The wear and tread under-inflation also increases the risk for hydroplaning, as well as more wide tires. Narrower tires are less vulnerable to hydroplaning because the vehicle’s weight is distributed over a smaller rubber patch contact, resulting in a greater capacity for water pressure tires on the sides, allowing tire contact with pavement .
The practice of dressing over replacing the size of the original equipment wheel of a vehicle on a wheel of larger diameter and replacing the tire by a tire of the low-aspect-ratio affects the same diameter, some of the performance characteristics of vehicles, and increases the risk of hydroplaning with wider tires.
The Hydroplaning (Tires)
The hydroplaning or aquaplaning by a road vehicle occurs when a water layer structure between the vehicle rubber tire and road surface, leading to loss of traction and thus preventing the vehicle respond to control inputs such as management, slow down or accelerate. It becomes, in effect, an unpowered and unsteered the sled.
Each function of the vehicle changes direction or speed, turning, acceleration, braking, puts an increasing burden on the tires. Control of this load relies on the friction between the contact points of the tire and road surface. More friction makes for greater strength to slip, if the water comes between the tires and the road, the friction can be reduced to the point where the driver can lose control.