300W Laser Rust Removal With CE Certificates Lawer Tyre Mold
Cleaning Machine Pulse Energy Laser
Laser cleaning is one of the more modern versions of the cleaning
process and has rapidly replaced more traditional methods such as
dry-ice blasting or media blasting due to the numerous benefits
that it provides.
It offers these benefits as it works in a significantly different
way to the processes that have preceded it. Furthermore, using a
fiber laser as the medium also works in a much different way to
other types of cleaning methods. We have explored this in more
detail below and explained why laser-based cleaning is the most
efficient, safe and cost-effective cleaning solution on the market.
Product parameters
L/N | Characteristics | Parameters | Unit |
1 | Output Fiber cable | 5 | M |
2 | Average power output | 350±5 | W |
3 | Power adjust range | 1-100 | % |
4 | Max. Pulse energy | 15 | MJ |
5 | Pulse width | 80-500 | NS |
6 | Cooling method | Air-cooling | |
7 | Laser level | Level 4 | |
8 | Max. power consumption | 1440 | W |
9 | Center wavelength | 1064 | NM |
10 | Voltage | 220 | AC |
11 | Work temperature | 0-60 | ℃ |
12 | Lasser source dimension | 558*378.5*425 | MM |
13 | Machine dimension | 850*500*950 | MM |
14 | Machine weight | 133 | KG |
How does laser cleaning work?
The aim of this process is simple; to clean the surface of a
material (e.g. metal) that it is working with.
This is done for a number of reasons, such as to remove paint,
mould, or to prepare surfaces for treatment. Surfaces can easily
gather or contain contaminants such as carbon, rust, and rubber,
and laser cleaning offers an efficient and environmentally-friendly
way of removing these.
So how does the process actually work? A laser beam is pulsed at
the surface of a material, irradiating and vaporising the layer
until the desired depth of ablation has been reached. The pulse’s
output power and wavelength can be controlled, offering the user a
great deal of control when it comes to vaporising a material’s
surface with a high degree of accuracy.
How does the vaporisation work? The contaminants that are on the
surface layer of the material, such as the rubber or paint, absorb
the beam as it is directed at it. The heat of this beam quickly
irradiates this material.
Applications
1 Mold cleaning |
2 Weapons and equipment cleaning |
3 Aircraft old paint removal |
4 The cleaning of building external wall |
5 The cleaning in the electronics industry |
6 Precisely degrease in the precision machinery industry |
7Pipe cleaning in nuclear power plant reactors |
Why is this process better than more traditional methods?
A key question that we are frequently asked is “How does laser
cleaning work differently to the other more traditional methods?”.
There are some key problems that lasers have helped to address and
solve.
Firstly, other methods were contact processes, meaning they were
abrasive and damaging to the materials that they were working with.
Take media blasting, for example, which essentially acts like a
pressure washer, but with pressurised air, to blast a material
until it is clean. It gets the job done, but it often affects the
material that you don’t want to damage below!
Laser cleaning, on the other hand, is non-contact and non-abrasive,
and so will only irradiate the material that you want to get rid
of.
You also have a great deal of control over the beam, meaning you
can achieve the desired depth that you want to. Further to this,
you can irradiate the whole surface layer of a material, or a much
thinner layer, say the topcoat of paint, but not the primer below.
Or, should you wish, you can just clean a very small section. If
using another process which simply blasts the material, it is hard
to enjoy such a high level of control.
One of the key benefits in the way that laser cleaning works is
that not much waste is left over due to the irradiation process;
the substrate is simply vaporised rather than left as waste. The
majority of the waste that is left over comes as dust particles and
can be easily collected and removed by the user.
Previous processes left a great deal of waste that had to be
removed. Not only is this costly in terms of time efficiency, but
much of this waste was hazardous as well, and users were often
required to wear protective gear. This danger to worker safety has
been removed by the laser.
So, the key characteristics of how the laser cleaning process
works, which differentiates it from more traditional methods, are
that:
• It is a much safer process
• It is more efficient
• It offers the user a higher level of accuracy and control and
• There is a greater focus on a higher quality end result