PHYSICS-APPLICATION MACHINE ELEMENTS
Women Graduates are trained with basics in Industry application from basic science Mathematics, Physics, Chemistry
Training in application Software by Industry Professional, to train others with preparation as TRAINER to empower.
Empowering areas are ACADEMIC SERVICE-ENTREPRENEURSHIP-DESIGN SERVICE-INDUSTRIES-SOCIAL ENGINEERING
AIM of this training is to get employment directly or indirectly from Industries, Government organization either state or central bodies. Also to develop or support rural industries & other application industries either as induvial or self group
MACHINE ELEMENTS DESIGN
SHAFT DESIGN ANAYSIS
Shafts serve as a support for rotating parts and transmit torques. They are among the most critical parts of machines, so they are subject to high requirements for manufacturing accuracy, strength, rigidity, stability and the nature of vibrations. The APM Shaft module allows you to perform the entire cycle of designing shafts and axes, from design development to static and dynamic calculations.
Elastic elements are highly compliant parts that accumulate deformation energy and either use it in actuators or dissipate it in dampers or shock absorbers. Elastic elements are made of special steels and alloys, and in some cases - of non-metallic materials. The most common metal elastic elements are springs.
Motors are used to drive the actuator. In most cases, a transmission mechanism is installed between the motor and the actuator, which converts the original rotary motion of the motor into a slower motion of the performer. As transmission mechanisms, single- or multi-stage gearboxes are used in combination with belt and chain drives, gearboxes, etc. The gearbox, as a rule, contains gears, shafts and rolling bearings installed in the housing.
Rolling bearings are the main type of bearings for rotating machine parts, various mechanical devices and systems. APM Bear performs a comprehensive analysis of rolling bearings. Using this unparalleled module, you can calculate the main characteristics of bearings and select the optimal design of bearing units. The calculation can be carried out under both constant and variable loading conditions.
The details that make up the individual nodes are connected to each other, forming larger structural units, the totality of which leads to the formation of the whole variety of machines, mechanical devices, building and engineering structures.
Rotary gears are designed to transmit rotational motion over a distance and transform the mechanical characteristics of this motion.
The APM Trans module allows you to perform the whole range of design and verification calculations of gears, make the choice of the most rational parameters for these gears, as well as obtain working drawings of the driving and driven wheels, pulleys, sprockets, etc. The calculation of gears is performed in accordance with the currently valid GOST Russian Federation and regulatory documents of a number of foreign countries.
Plain bearings are an important type of rotation bearings, which are often used in structures operating in difficult conditions, namely: under high vibration and shock loads; low and especially high speeds; increased requirements for stability and accuracy of the position of the shafts; work in water and aggressive environments; lack of lubrication or without it at all, etc. t the optimal design of bearing units.
Screw drives are used to convert the rotational motion of a screw into the translational motion of a nut. Mechanisms of this type are widely used in machine tool building, robotics, drive mechanisms, aviation technology and other areas of modern machine and instrument making.
MACHINE ELEMENTS DESIGN