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What are the advantages of CNC machining of radiator parts?

For friends who have been in contact with the radiator component industry, they often see or hear "CNC machining", but too much exposure does not necessarily mean that many people understand. In fact, many questions are still about CNC machining. What are the advantages? Let's take a closer look. CNC machining is an index-controlled machine tool machining, which is a method of using digital information to control the machining process. Traditional mechanical processing is done manually by machine tools. During processing, the mechanical cutter is shaken to cut metal, and the accuracy is measured with calipers and other tools. However, traditional artificial intelligence processing is far from being able to meet the needs of production development. Therefore, the emergence of CNC machining provides the possibility for the standardization, precision and efficiency of mechanical product processing. The CNC machining process in the radiator component industry also shines. The

How Do Cnc Swiss Machines Work

How Do Cnc Swiss Machines Work Save 0 What Is Swiss Machine –The full name of the walking CNC lathe, it can also be called the spindle box mobile CNC automatic lathe, the economical turning and milling compound machine tool or the slitting lathe. It belongs to precision machining equipment, which can complete compound  machining such as turning, milling, drilling, boring, tapping, and engraving at one time. It is mainly used for batch  machining of precision hardware and special-shaped shafts. This machine tool first originated in Germany and Switzerland. In the early stage, it was mainly used for precision machining of military equipment. With the continuous development and expansion of industrialization, due to the urgent needs of the market, it was gradually applied to the  machining of civilian products; the development of similar machine tools in Japan and South Korea Earlier than China, it was mainly used in the military industry in the early days. After the war, it was gradually

Spring Design Attention And Roll Forming Method

Spring Design Attention And Roll Forming Method The coiling characteristics and methods of springs are divided into cold coiling method and hot coiling method. Cold winding method: When the diameter of the spring wire is less than 8mm, the cold winding method is adopted. High-quality carbon spring steel wire is usually first cold drawn and then heat treated. After winding, it is generally not quenched, but only tempered at low temperature to eliminate the internal stress during winding. Hot-rolling method: Springs with larger diameter (>8mm) spring wire should use hot-rolling method. Hot rolled springs must be quenched and tempered at medium temperature. The Design Process Of Various Springs ·          Installation space: When designing a  compression spring , it is necessary to have a clear understanding of the space required for the installation of the spring, in order to effectively grasp the basic manufacturing conditions of the compression spring, including the outer diam

Toshiba MG100Q2YS42

Toshiba MG100Q2YS42
#MG100Q2YS42 Toshiba MG100Q2YS42 New High Power Switching Applications Motor Control Applications 2IGBT: 100A,1200V, MG100Q2YS42 pictures, MG100Q2YS42 price, #MG100Q2YS42 supplier


MG100Q2YS42 Description

High Power Switching Applications Motor Control Applications
.High input impedance
.High speed : tf = 0.5µs (Max)
                     trr = 0.5µs (Max)
.Low saturation voltage: VCE (sat) = 4.0V (Max)
.Includes a complete half bridge in one package.
.The electrodes are isolated from case.
Collector-emitter voltage VCES 1200 V
Gate-emitter voltage VGES ±20 V
Collector current DC IC 100 A
Collector current 1ms ICP 200 A
Forward current DC IF 100 A
Forward current 1ms IFM 200 A
Collector power dissipation (Tc = 25°C) PC 700 W
Junction temperature Tj 150 °C
Storage temperature range Tstg −40 ~ 125 °C
Isolation voltage VIsol (AC 1 min.) 2500 V
Screw torque (Terminal / mounting)  3 / 3 N·m 
Gate leakage current IGES VGE = ±20V, VCE = 0  ±20 µA
Collector cut-off current ICES VCE = 1200V, VGE = 0 2.0 mA
Gate-emitter cut-off voltage VGE (off) IC = 100mA ,VCE = 5V 3.0  6.0 V
Collector-emitter saturation voltage VCE (sat) IC = 100A, VGE = 15V  3.0 4.0 V 

High Power Switching Applications Motor Control Applications 2IGBT: 100A,1200V

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