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Basic Info.
Model NO.
3HE-MF3000W
Automatic Grade
Automatic
Style
Stationary
Technical Class
Semiconductor
Q-Switch
with Q-Switch
Laser Classification
Semiconductor
Type
Laser Hardening
Cooling
Water Cooling
Gas
Air
Robot Arm
2/3m Optional
Voltage
380V
Water
Steamed Water
Adaption
Die/Mold/Metal
Control
Computer/Robot
Robot
ABB
Laser Generator
Racuys/Ipg
Fiber Length
20m
Power
3000W
Spot Width
15mm
Transport Package
Plywood
Specification
1450*1450*1850mm
Trademark
Samide
Origin
China
HS Code
8479819000
Production Capacity
100/Year
Packaging & Delivery
Package Size
145.00cm * 145.00cm * 150.00cm
Package Gross Weight
800.000kg
Product Description
wave length(nm) | 915±10 |
output unstablility(%) | <3 |
Rate(Hz) | 50~5k |
red light point power(mW) | 0.25~1 |
laser head parameters | |
output head mode | QBH |
fiber core(μm) | 600 |
Min bend semidiameter(mm) | ≥400 |
Half angle of beam divergence(rad) | ≤0.22 |
fiber length(m) | 20 |
electronic parameters | |
Voltage | AC380V±38V,50/60Hz, |
control mode | RS-232/AD |
other parameters | |
size (W×H×D)(mm) | 650×950×980 |
weight(Kg) | <150 |
temperature(ºC) | 10~40 |
Hunidity(%) | <70 |
storage(ºC) | -10~60 |
Cooling | Water cooling |
Power consumption | 22KW |
Laser quenching is a quenching technique that uses laser to heat the surface of a material above the phase transition point. As the material cools down, austenite transforms into martensite, thereby hardening the surface of the material. practical application Laser quenching technology can strengthen the surface of various guide rails, large gears, journals, cylinder walls, molds, shock absorbers, friction wheels, rollers, and roller parts. Suitable materials are medium to high carbon steel and cast iron.
Characteristics of Laser Quenching :
1. The quenched parts do not deform, and the thermal cycling process of laser quenching is fast.
2. The surface roughness is almost not damaged, and a thin anti oxidation protective coating is used.
3. Laser quenching without cracking, precise quantitative CNC quenching.
4. Accurate CNC quenching for local, groove, and groove quenching positioning.
5. Laser quenching is clean, efficient, and does not require cooling media such as water or oil.
6. The quenching hardness is higher than that of conventional methods, the microstructure of the quenching layer is fine, and the strength and toughness are good.
7. Laser quenching is a fast heating, self-excited cooling process that does not require furnace insulation or coolant quenching. It is a pollution-free, green, and environmentally friendly heat treatment process that can easily achieve uniform quenching of large mold surfaces.
8. Due to the fast heating speed of laser, small heat affected zone, and surface scanning heating quenching, that is, instantaneous local heating quenching, the deformation of the processed mold is very small.
9. Due to the small divergence angle of the laser beam and its good directionality, it is possible to perform precise local quenching on the surface of the mold through a light guide system. The depth of the hardened layer for laser surface quenching is generally 0.3-1mm.(Some materials)