it is very easy. u can find it in the book of machine desigh by khurmi or kannath or bhandari.
There is no need to tell me because I am not interested.
2.5 times of design load
Primarily to a) determine the safe load of an engineered structure and b) to help design a structure given a particular load to be borne.
Stress of a steel beam, for example, which can overload and bend eventually, if the load on the beam is greater than the design limits of that beam.Heat can also stress metal to the point of changing shape, losing strength and becoming brittle enough to fracture.2nd AnswerThe above answer is actually describing a load that exceeds the materials ultimate stress. Fatigues does not cause the part to bend.Stress is a repeated application of a load that is below the ultimate design load that results in microscopic distortion of the metal and can induce cracks. These cracks will eventually grow under repeated load applications and resulting in failure of the part.All material is tested for its fatigue Endurance Limit. If you design the part so that it will have repeated loads below this Endurance Limit OR design it so that it does not see high cycles of load application, then the part can be designed so that it will not fatigue.
This is a good indication that the motor is being overloaded. If the motor load is belt driven, remove the belt and then check the motor amps. If it goes back to normal FLA then there is a problem with the driven load. If the motor amperage stays high check the motor bearings for the problem.
with strong materials and a good strong sturdy design that holds the structure up
The vehicle load is supported by the springs, or if so equipped, torsion bars. But the ball joint or joints take a good deal of stress from steering and especially driving on rough or bumpy roads, transmitted through the wheel and steering knuckle.
knuckle joints are most common in steering and drive train applications where you need to move something (steering linkage etc) but also need to allow for offset angles
It depends on the suspension setup. Which ever ball joint/control arm has the spring load is the load carrying ball joint.
from single phase we have to calculate load design in a room 3fans, 1fridge, 1iron, 1mixer, 1kitchen, 1toilet.
A knuckle joint is used to connect the two rods which are under the tensile load, when there is requirement of small amount of flexibility or angular moment is necessary. There is always axial or linear line of action of load. The knuckle joint assembly consist of following major components : 1.Single eye. 2.Double eye or fork. 3.Knuckle pin. At one end of the rod the single eye is formed and double eye is formed at the other end of the rod.Both, single and double eye are connected by a pin inserted through eye.The pin has a head at one end and at other end there is a taper pin or split pin. For gripping purpose the ends of the rod are of octagonal forms.Now, when the two eyes are pulled apart, the pin holds them together .The solid rod portion of the joint in this case is much stronger than the portion through which the pin passes.p
to minimize over load
A ammeter will tell you how much current draw the load is drawing
2.5 times of design load
yes
A continuous load is a constant load. A noncontinuous load is one that varies over time.
permit movements and transfer a load between bones
Trucks, etc.