Since the advent of electricity, it has conquered the world. Today’s life is unthinkable without electricity. On the other hand, without conductors, the use of electricity is unthinkable. Conductors have become an integral part of our homes, schools, factories, cities, and we will live with a multitude of conductors all around us until humanity invents, economically justified, wireless transmission of electricity. In this story, we will deal with the products of the website cablejy.com and the conductors that transmit electricity to us. All metals are conductors of electricity. They do best in gold, silver, copper, aluminum.
Due to their price, but also technical characteristics, copper and aluminum are most often used for the production of conductors. For that reason, I recommend to you quality wire cable manufacturers. Conductors are made in different thicknesses. A conductor of a certain diameter can leak a certain amount of current without overheating or damaging it.
For the expected level of current, which will flow through the conductor, we also choose a conductor of a certain cross section. There is no economic justification to use an expensive thick conductor if we know that a large current will never flow through it. Choosing which conductor thickness will be installed for which purposes is an important part of planning. A good project will enable all electricity needs to be met at minimal cost. Higher quality cables have lower energy losses.
There are two types of conductors: conductors consisting of a single wire and conductors made of several thin wires. For safety reasons, all conductors must be insulated. The purpose of insulation is multiple: it prevents contact between conductors, as well as conductors with objects or living beings, and protects from moisture. Due to the faster and easier process of conducting conductors, more conductors are grouped and lined with insulation that holds them together. Thus grouped conductors form a cable that can
for protection be lined with textile materials or steel strips.
The materials most commonly used today to insulate conductors and cables are PVC and XLPE. Higher currents require a conductor with a larger cross-sectional area, and higher voltages require a larger insulation thickness. I will give you a recommendation for quality and reliable industrial power cable. Cross-linked polyethylene XLPE is one of the best materials for insulating power cables. Its main properties are good electrical, mechanical and thermal characteristics.
For the expected level of current, which will flow through the conductor, we also choose a conductor of a certain cross section. There is no economic justification to use an expensive thick conductor if we know that a large current will never flow through it. Choosing which conductor thickness will be installed for which purposes is an important part of planning. A good project will enable all electricity needs to be met at minimal cost. Higher quality cables have lower energy losses.
There are two types of conductors: conductors consisting of a single wire and conductors made of several thin wires. For safety reasons, all conductors must be insulated. The purpose of insulation is multiple: it prevents contact between conductors, as well as conductors with objects or living beings, and protects from moisture. Due to the faster and easier process of conducting conductors, more conductors are grouped and lined with insulation that holds them together. Thus grouped conductors form a cable that can
for protection be lined with textile materials or steel strips.
The materials most commonly used today to insulate conductors and cables are PVC and XLPE. Higher currents require a conductor with a larger cross-sectional area, and higher voltages require a larger insulation thickness. I will give you a recommendation for quality and reliable industrial power cable. Cross-linked polyethylene XLPE is one of the best materials for insulating power cables. Its main properties are good electrical, mechanical and thermal characteristics.
The permitted operating temperature of power cables with cross-linked polyethylene insulation is 90oC, without affecting the life of the cable. The maximum permissible short-circuit temperature is 250oC.
Cables with this type of insulation are used in electric power networks and distribution plants of low, medium and high voltage.
Nice post ;)
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