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Working principle of slow wire processing

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 Slow wire walking, also called low-speed wire walking, is a kind of CNC machining machine tool that uses continuously moving fine metal wire as an electrode to pulse spark discharge on the workpiece to generate a high temperature of over 6000 degrees, ablate metal and cut into a workpiece. The principle of wire processing is the phenomenon that there is a gap between the wire electrode and the workpiece, and the metal is removed by continuous discharge. Since the slow-moving wire cutting machine adopts the method of wire electrode continuous feeding, that is, the wire electrode is processed during the movement, so even if the wire electrode is worn out, it can be continuously supplemented, so it can improve the machining accuracy of the parts and slow the wire. The surface roughness of the workpiece processed by the cutting machine can usually reach Ra=0.8μm and above, and the roundness error, linear error and dimensional error of the slow-moving wire cutting machine are much better t
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Hydrostatic guideway of CNC machining lathe

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The static pressure slide rail (TTW guide) of the CNC machining lathe transfers the oil with a certain pressure through the throttle to the oil cavity between the sliding surfaces of the slide rail (TTW guide) to form a pressure oil film to float the moving parts , Make the sliding rail (TTW guide) surface in a pure liquid friction state.   CNC machining General CNC machining usually refers to computer digital control precision machining, CNC machining lathe, CNC machining milling machine, CNC machining c17200   beryllium   copper   and milling machine, etc. The feed route of finishing is basically carried out along the part contour sequence. Therefore, the focus of determining the feed route is to determine the feed route of rough machining and idle stroke. In the numerical control processing, the control system issues instructions to make the tool perform various motions that meet the requirements, and the shape and size of the workpiece are expressed in the form of numbers and lette

Spring Design Attention And Roll Forming Method

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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
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IXYS MCC56-14io1B

cncmachining August 06, 2021
IXYS MCC56-14io1B
#MCC56-14io1B IXYS MCC56-14io1B New Silicon Controlled Rectifier 100A I(T)RMS 60000mA I(T) 1400V V(DRM) 1400V V(RRM) 2 Element TO-240AA TO-240AA 7 PIN, MCC56-14io1B pictures, MCC56-14io1B price, #MCC56-14io1B supplier
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Email: sales@shunlongwei.com

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Manufacturer Part Number: MCC56-14IO1B
Pbfree Code: Yes
Part Life Cycle Code: Active
Ihs Manufacturer: IXYS CORP
Part Package Code: TO-240AA
Package Description: FLANGE MOUNT, R-XUFM-X7
Pin Count: 7
HTS Code: 8541.30.00.80
Manufacturer: IXYS Corporation
Risk Rank: 2.22
Additional Feature: UL RECOGNIZED
Case Connection: ISOLATED
Configuration: SERIES CONNECTED, CENTER TAP, 2 ELEMENTS
DC Gate Trigger Current-Max: 100 mA
DC Gate Trigger Voltage-Max: 1.5 V
Desc. of Quick-Connects: 2G-2GR
Desc. of Screw Terminals: A-K-AK
Holding Current-Max: 200 mA
JEDEC-95 Code: TO-240AA
JESD-30 Code: R-XUFM-X7
Leakage Current-Max: 15 mA
Non-Repetitive Pk On-state Cur: 1600 A
Number of Elements: 2
Number of Terminals: 7
On-state Current-Max: 60000 A
Operating Temperature-Max: 125 °C
Operating Temperature-Min: -40 °C
Package Body Material: UNSPECIFIED
Package Shape: RECTANGULAR
Package Style: FLANGE MOUNT
Peak Reflow Temperature (Cel): NOT SPECIFIED
Qualification Status: Not Qualified
RMS On-state Current-Max: 100 A
Repetitive Peak Off-state Voltage: 1400 V
Repetitive Peak Reverse Voltage: 1400 V
Subcategory: Silicon Controlled Rectifiers
Surface Mount: NO
Terminal Form: UNSPECIFIED
Terminal Position: UPPER
Time
Silicon Controlled Rectifier 100A I(T)RMS 60000mA I(T) 1400V V(DRM) 1400V V(RRM) 2 Element TO-240AA TO-240AA 7 PIN

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