NEW Basic Mechanics course
Baca lebih lanjut7.1.- TEKNIK MESIN
Mechanical engineering is the application of physics to the elements that surround us to improve existing mechanical devices or create new ones. Since it is based on physical principles, its origin goes back to the origin of those principles and its development is closely linked to the advances in mechanics. Nevertheless, it was not until the invention of the steam engine that it became one of the pillars of the development of the industry.
Lihat Lebih BanyakThe Industrial Revolution of the seventeenth century took place as a result of the creation of this device. From that moment, with the contributions of scientists and engineers as important as Watt, Stephenson, Tesla or Rankine, an unprecedented renewal of both concept and development of new machines began.
The concept of industry, as it was known till that moment, changed with the development of those machines. Mass production was implemented, machine designs were improved and, consequently, the range of production processes increased, resulting in an unthinkable variety of new products adapted to the needs of society.
Within the mechanical engineering, it is worth mentioning the following fields of study and application:
- Mechanisms.
- Structures.
- Dynamics.
- Vibrations.
- Oscillations.
At present, any industry, from food to aerospace, must be at the highest level of technological innovation. Therefore, research and development of new devices is particularly important to always have the latest technology and to be at the level required by the industry 4.0.
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TEKNIK MESIN UNITS
7.1.1.- MECHANICS FUNDAMENTALS KITS
LIMEBA
The Integrated Basic Mechanics Laboratory, "LIMEBA," designed by EDIBON, allows for the construction of various experiments on the base panel, where length measurements are possible thanks to the distance between the centers of the perforations...
7.1.1.- MECHANICS FUNDAMENTALS KITS
MECA/EC
Panel dan Koper dengan Elemen Umum untuk LIMEBA
Aksesori dari
LIMEBA
It is the supporting structure where the modules’s elements are mounted in order to undertake the experiments and hence, the basepanel is necessary along with any module.The panel is pierced with equidistant holes that help students to take...
7.1.1.- MECHANICS FUNDAMENTALS KITS
MECA1
Statics Experiments
Aksesori dari
LIMEBA
Statics is the part of Mechanics that studies any kind of structure or element in balance-equilibrium.Basically the module consist on experiments in which the student shall learn to deduce the main principles of Statics and its most important...
7.1.1.- MECHANICS FUNDAMENTALS KITS
MECA2
Load Elevation Mechanisms Experiments
Aksesori dari
LIMEBA
Experimentation with the most important load lifting mechanisms.Study of the work and performance of different mechanisms.
7.1.1.- MECHANICS FUNDAMENTALS KITS
MECA3
Transmissions Experiments
Aksesori dari
LIMEBA
Most recent machines require the transmission of motion between elements to obtain the desired mechanical result. The mechanisms studied in this module are those that transmit motion between two axles.
7.1.1.- MECHANICS FUNDAMENTALS KITS
MECA4
Dynamics Experiments
Aksesori dari
LIMEBA
Dynamics is the part of Mechanics that analyzes the motion of an element or mechanism caused by a force. Thus the study is concentrated on the basic laws of Dynamics.
7.1.1.- MECHANICS FUNDAMENTALS KITS
MECA5
Friction Experiments
Aksesori dari
LIMEBA
This module considers the most important phenomenon of Dynamics: Friction. It is a manifestation of the energy loss due to contact, effect that happens in every real-world mechanism.
7.1.1.- MECHANICS FUNDAMENTALS KITS
MECA6
Special Mechanisms Experiments
Aksesori dari
LIMEBA
This module considers various mechanisms frequently used in industrial processes, without them some operations would not be possible with the same efficiency. Here these mechanisms are shown and their function analyzed.
7.1.2.1.- MEKANISME
MBD
Slider Crank Mechanism
The Slider Crank Mechanism, "MBD", designed by EDIBON, is an example of slider-crank mechanism.This mechanism is made of aluminum and consists of a rotary element (graduated disc), called crank, connected to a rigid bar, calledconnecting rod. When...
7.1.2.1.- MEKANISME
MYE
Scotch Yoke Mechanism
The Scotch Yoke Mechanism, "MYE", designed by EDIBON, is an example of slider-crank mechanism for converting the linear motion of a slider into rotational motion or vice versa.It is made of aluminum and consists of a rotary element, called crank,...
7.1.2.1.- MEKANISME
MBM1
Slotted Link Mechanism
The Slotted Link Mechanism, "MBM1", is an example of a quick-return mechanism, capable of transforming circular motion into reciprocating motion. It is made of aluminum and consists of a rotary element (graduated disk), called crank, connected to...
7.1.2.1.- MEKANISME
MBM2
Whitworth Quick Return Mechanism
The Whitworth Quick Return Mechanism, "MBM2", is a mechanism able to transform circular movement into reciprocating movement. It ismade of aluminum and consists of a rotary element, called crank, with a graduated disk, connected to a rigid bar,...