Water Cooled Beam Dump | S\U0026A Laser Beam Dump Water Cooled’S Excellent Performance In The Laser Cutting Machine Industry 98 개의 정답

당신은 주제를 찾고 있습니까 “water cooled beam dump – S\u0026A Laser beam dump water cooled’s excellent performance in the laser cutting machine industry“? 다음 카테고리의 웹사이트 https://ppa.charoenmotorcycles.com 에서 귀하의 모든 질문에 답변해 드립니다: https://ppa.charoenmotorcycles.com/blog. 바로 아래에서 답을 찾을 수 있습니다. 작성자 S\u0026A Chiller 이(가) 작성한 기사에는 조회수 50회 및 좋아요 없음 개의 좋아요가 있습니다.

water cooled beam dump 주제에 대한 동영상 보기

여기에서 이 주제에 대한 비디오를 시청하십시오. 주의 깊게 살펴보고 읽고 있는 내용에 대한 피드백을 제공하세요!

d여기에서 S\u0026A Laser beam dump water cooled’s excellent performance in the laser cutting machine industry – water cooled beam dump 주제에 대한 세부정보를 참조하세요

S\u0026A Laser beam dump water cooled’s excellent performance in the laser cutting machine industry
CONTACT S\u0026A
TE:+86-20-89301885
FAX:+86-20-84309967
SKYPE: teyuchiller
Email:[email protected]
Website: http://www.teyuchiller.com

water cooled beam dump 주제에 대한 자세한 내용은 여기를 참조하세요.

Water-Cooled Beam Dump 990-0820 – EKSMA Optics

Water-cooled beam dump is designed for operation with high-power CW or pulsed lasers (up to 1 kW). It covers a we wavelength range from 0.1 to 30 µm.

+ 여기에 자세히 보기

Source: eksmaoptics.com

Date Published: 9/2/2021

View: 970

주제와 관련된 이미지 water cooled beam dump

주제와 관련된 더 많은 사진을 참조하십시오 S\u0026A Laser beam dump water cooled’s excellent performance in the laser cutting machine industry. 댓글에서 더 많은 관련 이미지를 보거나 필요한 경우 더 많은 관련 기사를 볼 수 있습니다.

S\u0026A Laser beam dump water cooled's excellent performance in the laser cutting machine industry
S\u0026A Laser beam dump water cooled’s excellent performance in the laser cutting machine industry

주제에 대한 기사 평가 water cooled beam dump

  • Author: S\u0026A Chiller
  • Views: 조회수 50회
  • Likes: 좋아요 없음
  • Date Published: 2018. 1. 11.
  • Video Url link: https://www.youtube.com/watch?v=akY3KHn0zUk

What is a laser beam dump?

Laser beam dumps absorb incident light and are used to capture unwanted beams. In the laboratory, they are used to stop stray laser beams. Beam dumps can also be used to contain a laser beam within a portion of an instrument.

What can block a laser beam?

Visible laser light can be blocked by anything that also blocks conventional light, such as a solid curtain, a wall, or even a sheet of paper.

What is the purpose of a beam dump?

The purpose of a charged-particle beam dump is to safely absorb a beam of charged particles such as electrons, protons, nuclei, or ions. This is necessary when, for example, a circular particle accelerator has to be shut down.

What is CERN beam dump?

A beam dump absorbs the energy of photons or other particles in an energetic beam.

What is beam stopper?

“A beam stopper is a mechanical safety device used to intercept a particle beam, to guarantee the personnel safety.

Can a mirror stop a laser weapon?

The actual answer is no, it can’t. Even a mirror that reflects 95% of a lethal laser beam will still absorb enough heat to burn. This causes the reflectivity to be gone almost instantly, but a scattered burst of light from the point of impact could still blind the shooter or his allies.

What happens if two lasers collide?

Actually, when two laser beams (or any other kinds of light for that matter) collide, they do not stop each other. In fact, usually they behave as though the other is not there at all. This is because light is a wave, and usually waves cross each other without interacting.

Can you disable a security camera with a laser pointer?

Lasers are beams of light, which produce heat. If a laser makes sustained contact with sensitive materials, such as a camera sensor, it causes physical damage. To disable a security camera with a laser pointer is incredibly hard. Average laser pointers don’t have the power to disarm the sensor.

What can a laser penetrate?

Frequency Range Therapeutic Effect
50 Hz anti-inflammatory; analgesia effect on subcutaneous tissues, fascia, tendons, and small joints
5 Hz deepest penetration; effective treatment of deeper tissue structures, including facet joints, acetabular joints, herniated discs; tissue regeneration.
21 thg 2, 2011

Can lasers penetrate walls?

It should be noted that today it is possible to shine laser systems through walls, however, only very specific types of walls and probably the list of walls will increase very soon.

Can laser penetrate water?

So, do laser beams actually work underwater? And the simple answer to that question is “yes,” they absolutely do. As long as the internal components aren’t exposed to the water, they’ll work just fine.

Water-Cooled Laser Beam Dump

Water-Cooled Beam Dump 990-0820 blocks a CW or a pulsed laser beam. It is mainly intended for beams 2 inch wide.

Water absorbs much energy. So, the dump is best suited for beams of up to 1 kW. The wavelength range is from 0.1 to 30 µm.

Even if the non-reflective coating is damaged by high intensity pulses, the beam is not reflected back into an optical scheme.

The dump mounts on an M6 hole on its back.

Water-cooled laser beam dumps for low to high power

The BD Series are rugged and easy-to-use, simply plug the water-cooling and you’re ready to go! Like our high power HP Series, these beam dumps have a highly resistant absorber that can withstand several kW in continuous mode. Their very large aperture of 100 mm in diameter accommodates even the largest beams.

An isolation tube (available in option) helps reduce the back reflections.

2 models are offered: 4 kW and 12 kW.

Lasers & Laser Accessories

Water-Cooled Laser Beam Dump 10BDWC01 blocks a CW or a pulsed laser beam. It is mainly intended for beams 2 inch wide. Water absorbs much energy. So, the dump is best suited for beams of up to 1 kWatts. The wavelength range is from 0.1 to 30 μm. Even if the non-reflective coating is damaged by high intensity pulses, the beam is not reflected back into your optical scheme. The dump mounts on an M6 hole on its back. Weight 1.2 kg

Components: , , , ,

Water-cooled Beam Dumps for High-Power Lasers

Stop! To Here and No Farther!

D76-071

The trend toward higher and higher laser power has continued for years – and not just in material processing. Not only the creation and transmission of laser power in the kW range but also its controlled blocking presents a challenge that should not be underestimated.

Gentec EO faces this challenge with its new BD series of water-cooled beam dumps.

There are two versions available (for up to 4 kW and 12 kW of laser power); both versions have an active aperture of 100 mm in diameter.

These beam dumps feature a very compact footprint because they are mechanically almost identical to the HP100A series of high-power detectors. Even the absorber material used is identical – for a damage threshold of up to 16 kW/cm².

To eliminate any disturbing, diffuse back reflections, these BD series beam dumps can also be equipped with a shielding tube that is optimized for the appropriate application.

Gentec’s BD series beam dumps: Simply connect the cooling water and … stop!

Datasheet:

High Power Beam Dump 257 K

Further product information:

Beam Dumps

Manufacturer:

Gentec-EO, Inc.

Contact:

TRAP-IT™ Laser Beam Dumps

JavaScript seems to be disabled in your browser. For the best experience on our site, be sure to turn on Javascript in your browser.

Beam Dumps

Beam Dumps

There are various situations in which one has a light beam, typically a laser beam, which is unwanted either temporarily or at all times, and therefore needs to be blocked – for example, for reasons of laser safety. For such purposes, one can use some kind of beam dump which safely absorbs the optical power. In contrast to a beam shutter, a beam dump cannot be deactivated – to release the beam again, the device needs to be removed.

Some typical situations in which beam dumps are required:

When some kind of pump laser sends a beam to another device (e.g., a titanium–sapphire laser or an OPO), on which one needs to temporarily work without the pump light (e.g. cleaning some mirrors), one may insert a beam dump between the devices (instead of turning off the pump laser).

One may need to permanently block beams resulting from parasitic reflections or transmissions. For example, even highly reflecting mirrors in a high-power laser may transmit a significant amount of optical power due to the high circulating intracavity power. Such parasitic beams may cause laser hazards or other problems, for example heating up the holders of some laser mirrors and thus causing thermally induced misalignment.

Some optical devices produce unwanted beams. For example, the non-diffracted beam of an acousto-optic deflector or one of the outputs of a polarizer in a variable optical attenuator may need to be dumped.

A kind of beam shutter for very high power levels can be realized with the combination of a beam dump and a movable mirror, which can be moved into the beam to send it to the dump.

Functions and Types of Beam Dumps

The perhaps most essential function of a beam dump is to avoid any of the light to be transmitted on its regular path. That purpose alone can be fulfilled with a simple beam block – for example, a metal part with a black coating (absorbing coating, e.g. anodized aluminum) and possibly some cooling fingers. Such parts are often home-made. Strongly suppressing scattered light needs somewhat more refined designs. In some cases, it is also important to strongly suppress any reflected and back-scattered light. For example, even a minimum fraction of scattered light from a kilowatt laser beam could be problematic in terms of laser safety. A simple beam stopper may then not be sufficient. Therefore, various kinds of beam traps have been developed which have somewhat more sophisticated setups. For example, there can be a cone-shaped black part into which the beam is sent. Most light which is reflected or scattered despite the absorbing coating reaches other parts of the black cone. Further, in front of the cone one may place some kind of cavity or tube which is also black inside. Optimized optical traps of such kinds send virtually no light back towards the source, at least when operated within the specified range of operation wavelengths.

Power Handling

Beam dumps for use with high-power laser beams have to dissipate substantial powers, which are turned into heat. For powers up to a few watts, it is normally sufficient to have some kind of cooling fingers attached to the absorber, which can release heat both by convection of air and by heat radiation. Note, however, that beam dumps can become rather hot during operation – sometimes reaching temperatures above 100 °C. Substantially increased powers (sometimes hundreds of watts) can be dissipated with fan-cooled devices. Possible disadvantages are, besides the somewhat higher cost, that possibly disturbing air flows and vibrations are caused, and a power supply is needed. For even higher powers (for example, several kilowatts), there are water-cooled beam dumps. Of course, their operation involves additional requirements, such as providing cooling water, safely avoiding any water leaks etc. In extreme cases, the absorption needs to be distributed over a larger volume. A possible solution is to absorb the light in a tank of water with added substances for obtaining an appropriate amount of absorption. Energetic pulses may damage a beam dumped even if the average power is within the allowed range! In any case, a high-power beam should not be sent into a beam dump with a too small beam radius, which would lead to excessive optical intensities. This is particularly the case for beams with high-energy pulses as obtained from Q-switched lasers. Such pulses may cause ablation or other kinds of degradation of the absorber material. Therefore, the specifications of beam dumps may contain limitations to the allowable fluence (in J/cm2) of pulses in addition to a limit for the average power.

Mounting

Permanently needed beam dumps should usually be rigidly fixed in the optical setup, e.g. using screws. It may also be helpful to obtain some heat flow from the beam dump into the base plate. In other cases, heating of the base plate may be unwanted (e.g. if thermal expansion courses misalignment of sensitive setups); one may then need to use a mount which minimizes thermal conduction. For other beam dumps, which are used only temporarily, it may be more convenient to use a magnetic mount, for example.

Questions and Comments from Users Here you can submit questions and comments. As far as they get accepted by the author, they will appear above this paragraph together with the author’s answer. The author will decide on acceptance based on certain criteria. Essentially, the issue must be of sufficiently broad interest. Please do not enter personal data here; we would otherwise delete it soon. (See also our privacy declaration.) If you wish to receive personal feedback or consultancy from the author, please contact him e.g. via e-mail. Your question or comment: Spam check: (Please enter the sum of thirteen and three in the form of digits!) By submitting the information, you give your consent to the potential publication of your inputs on our website according to our rules. (If you later retract your consent, we will delete those inputs.) As your inputs are first reviewed by the author, they may be published with some delay.

See also: beam shutters, black coatings

and other articles in the category photonic devices

Share this with your friends and colleagues, e.g. via social media: These sharing buttons are implemented in a privacy-friendly way!

High Power Laser Beam Dumps & Low Power Beam Traps

How can we help you? Send us your information and we will assist you as quickly as we can.

First name *

Last name *

Company *

E-mail *

Phone

Country * – Select – Afghanistan Albania Algeria Andorra Angola Antigua Argentina Armenia Australia Austria Azerbaijan Bahamas Bahrain Bangladesh Barbados Belarus Belgium Belize Benin Bhutan Bolivia Bosnia Botswana Brazil Brunei Bulgaria Burkina Burundi Cambodia Cameroon Canada – Alberta Canada – British Columbia Canada – Manitoba Canada – New Brunswick Canada – Newfoundland and Labrador Canada – Nova Scotia Canada – Ontario Canada – Prince Edward Island Canada – Quebec Canada – Saskatchewan Cape Verde Central African Republic Chad Chile China Colombia Comoros Congo Costa Rica Croatia Cuba Cyprus Czech Republic Denmark Djibouti Dominica Dominican Republic Ecuador Egypt El Salvador Equatorial Guinea Eritrea Estonia Ethiopia Fiji Finland France Gabon Gambia Georgia Germany Ghana Greece Grenada Guatemala Guinea Guyana Haiti Honduras Hong Kong Hungary Iceland India Indonesia Iran Iraq Ireland Israel Italy Jamaica Japan Jordan Kazakhstan Kenya Kiribati Kuwait Kyrgyzstan Laos Latvia Lebanon Lesotho Liberia Libya Liechtenstein Lithuania Luxembourg Macedonia Madagascar Malawi Malaysia Maldives Mali Malta Marshall Islands Mauritania Mauritius Mexico Micronesia Moldova Monaco Mongolia Morocco Mozambique Myanmar Namibia Nauru Nepal Netherlands New Zealand Nicaragua Niger Nigeria North Korea Norway Oman Pakistan Palau Panama Papua New Guinea Paraguay Peru Philippines Poland Portugal Qatar Republic of Montenegro Romania Russian Federation Rwanda Samoa San Marino Sao Tome and Principe Saudi Arabia Senegal Serbia Seychelles Sierra Leone Singapore Slovakia Slovenia Solomon Islands Somalia South Africa South Korea Spain Sri Lanka Sudan Suriname Swaziland Sweden Switzerland Syria Taiwan Tajikistan Tanzania, United Republic of Thailand Togo Tonga Trinidad Tunisia Turkey Turkmenistan Tuvalu Uganda Ukraine United Arab Emirates United Kingdom United States Uruguay Uzbekistan Vanuatu Venezuela Vietnam Yemen Zambia Zimbabwe

States * – Select – Alabama Alaska Arizona Arkansas California Colorado Connecticut Delaware District of Columbia Florida Georgia Guam Hawaii Idaho Illinois Indiana Iowa Kansas Kentucky Louisiana Maine Maryland Massachusetts Michigan Minnesota Mississippi Missouri Montana Nebraska Nevada New Hampshire New Jersey New Mexico New York North Carolina North Dakota Northern Marianas Islands Ohio Oklahoma Oregon Pennsylvania Puerto Rico Rhode Island South Carolina South Dakota Tennessee Texas Utah Vermont Virginia Washington West Virginia Wisconsin Wyoming

States * – Select – 北海道 青森県 岩手県 宮城県 秋田県 山形県 福島県 茨城県 栃木県 群馬県 埼玉県 千葉県 東京都 神奈川県 新潟県 富山県 石川県 福井県 山梨県 長野県 岐阜県 静岡県 愛知県 三重県 滋賀県 京都府 大阪府 兵庫県 奈良県 和歌山県 鳥取県 島根県 岡山県 広島県 山口県 徳島県 香川県 愛媛県 高知県 福岡県 佐賀県 長崎県 熊本県 大分県 宮崎県 鹿児島県 沖縄県 海外

By checking this box, you agree to receive our newsletters, surveys, announcements, and marketing offers in accordance with our privacy policy

Message

If you are harassed by lasers

“Mass hysteria is the rapid spread of illness symptoms for which there is no organic cause,” [Robert] Bartholomew [author of a book on the topic] told Newsweek. “It happens in normal, healthy people—it’s not just ‘all in their heads’ because they do experience symptoms.”

Jon Stone, a neurologist from the University of Edinburgh first consulted for

, agrees. “To consider this diagnostic possibility properly you have to strip away its negative connotations. The symptoms experienced in outbreaks of ‘mass hysteria’ are genuine and not faked or imaginary,” he told Newsweek.

Stone argues that the term “mass hysteria” itself sounds sensational and far-fetched. In reality, it is not as uncommon as you might think. He explains: “‘Mass hysteria’ is so laden with negativity, it badly distorts its own case. It suggests shrieking and raving individuals—not hard-working and normal people who mostly get functional disorders in everyday practice.”

A better, less stigmatizing term, says Stone, is “share functional disorder.” He defines the condition as

a genuinely experienced illness, “in which there is some disturbance of bodily functioning which conventional diagnostic techniques fail to register.”

Similarities

Differences

The study examined four possibilities to explain the symptoms: Infection, chemicals, psychological factors and microwave energy.

“Overall, directed pulsed RF energy … appears to be the most plausible mechanism in explaining these cases among those that the committee considered. … The committee cannot rule out other possible mechanisms and considers it likely that a multiplicity of factors explains some cases and the differences between others.”

The report says more investigation is required.

Persons who feel they have been targeted by mysterious enemies with directed energy devices may want to consider the case of the U.S. diplomats in Cuba afflicted by ” Havana syndrome .”In August 2017, reports came out that numerous U.S. diplomats serving in Cuba had been affected by mysterious “acoustic attacks.” Symptoms included hearing a buzzing sound, having headaches, hearing loss, balance issues and nausea. CBS News reported “mild traumatic brain injuries and possible damage to the central nervous system as a result of the attacks.”The question is whether Cuba targeted diplomats with an actual device, whether it was caused by pesticides or other untargeted source … or whether this may have been “mass hysteria.” According to a report in Newsweek There are interesting parallels with Havana syndrome and persons reporting unexplained laser harassment.In the Cuba case, around 25 U.S. diplomats, and 14 Canadian diplomats — persons who would be considered reliable and rational — reported hearing mysterious sounds and began having unusual, unexplained health problems. There have been numerous studies conducted by the U.S., Canada, Cuba, that as of early 2020 have not definitively established any cause. Experts are even divided on whether there is any physical change in the brains of the affected persons.In laser harassment cases, numerous persons — most of whom sound reliable and rational when we talk with them — report seeing lights and feeling heat from mysterious sources. Police, friends, family and medical experts trying to help them have been unable to find a cause. The only thing that is certain is the persons have genuine symptoms that are not faked or imaginary. To others, there may be no rational explanation — but the symptoms are genuinely experienced.One difference between the Cuba case and persons reporting unexplained laser harassment is that the latter are widely scattered. In Cuba there is the possibility of all the diplomats being exposed to the same causal factor (still unknown but possibly sound or pesticides). But persons reporting laser harassment are widely scattered across the U.S. and Canada. Perhaps there is a common cause within the environment.Also, the definition of mass psychogenic illness or “mass hysteria” almost always occurs in a relatively small group of people living or working together. This is true for the Cuba cases. But in the laser harassment cases, victims are again widely scattered and do not know, interact, or correspond (e.g. Internet) with each other.A study by the National Academies of Science concluded that the cause was likely microwave energy that may not have been deliberately targeting the diplomats in Cuba. According to an NBC News story quoting the study, “The committee felt that many of the distinctive and acute signs, symptoms and observations reported by (government) employees are consistent with the effects of directed, pulsed radio frequency (RF) energy. Studies published in the open literature more than a half-century ago and over the subsequent decades by Western and Soviet sources provide circumstantial support for this possible mechanism.”From the news story:LaserPointerSafety.com we are not aware of microwave directing devices that an ordinary citizen could purchase to cause problems for neighbors. It may be possible for a technically minded person to buy or modify devices and beam microwaves at other persons. But we are not experts in microwaves so we cannot give any more advice or opinion.

Water-Cooled Beam Trap for 0-1000 watt Lasers

LBT-2C

$390.00

Water-Cooled Laser Beam Trap with 2″ Entrance aperture for 0 to 1,000 watt lasers.

Features

ZERO Bounce Back for safe laser beam stopping.

A wide 2” acceptance aperture.

Full trapping across the visible spectrum.

Operates for All Continuous Wave or Pulsed lasers.

Water-cooled range 0-1000 watt capacity.

Beam dump tapped table or optical bench mount stands.

Internal dual wedge trapping design for complete trapping.

Part number: LBT-2C (LBT2C)

Beam dumps Archivi

Afghanistan Albania Algeria American Samoa Andorra Angola Anguilla Antarctica Antigua and Barbuda Argentina Armenia Aruba Australia Austria Azerbaijan Bahamas Bahrain Bangladesh Barbados Belarus Belgium Belize Benin Bermuda Bhutan Bolivia Bosnia and Herzegovina Botswana Bouvet Island Brazil British Indian Ocean Territory Brunei Darussalam Bulgaria Burkina Faso Burundi Cambodia Cameroon Canada Cape Verde Cayman Islands Central African Republic Chad Chile China Christmas Island Cocos (Keeling) Islands Colombia Comoros Congo Congo, the Democratic Republic of the Cook Islands Costa Rica Cote D’Ivoire Croatia Cuba Cyprus Czech Republic Denmark Djibouti Dominica Dominican Republic Ecuador Egypt El Salvador Equatorial Guinea Eritrea Estonia Ethiopia Falkland Islands (Malvinas) Faroe Islands Fiji Finland France French Guiana French Polynesia French Southern Territories Gabon Gambia Georgia Germany Ghana Gibraltar Greece Greenland Grenada Guadeloupe Guam Guatemala Guinea Guinea-Bissau Guyana Haiti Heard Island and Mcdonald Islands Holy See (Vatican City State) Honduras Hong Kong Hungary Iceland India Indonesia Iran, Islamic Republic of Iraq Ireland Israel Italy Jamaica Japan Jordan Kazakhstan Kenya Kiribati Korea, Democratic People’s Republic of Korea, Republic of Kuwait Kyrgyzstan Lao People’s Democratic Republic Latvia Lebanon Lesotho Liberia Libyan Arab Jamahiriya Liechtenstein Lithuania Luxembourg Macao Macedonia, the Former Yugoslav Republic of Madagascar Malawi Malaysia Maldives Mali Malta Marshall Islands Martinique Mauritania Mauritius Mayotte Mexico Micronesia, Federated States of Moldova, Republic of Monaco Mongolia Montserrat Morocco Mozambique Myanmar Namibia Nauru Nepal Netherlands Netherlands Antilles New Caledonia New Zealand Nicaragua Niger Nigeria Niue Norfolk Island North Macedonia Northern Mariana Islands Norway Oman Pakistan Palau Palestinian Territory, Occupied Panama Papua New Guinea Paraguay Peru Philippines Pitcairn Poland Portugal Puerto Rico Qatar Reunion Romania Russian Federation Rwanda Saint Helena Saint Kitts and Nevis Saint Lucia Saint Pierre and Miquelon Saint Vincent and the Grenadines Samoa San Marino Sao Tome and Principe Saudi Arabia Senegal Serbia and Montenegro Seychelles Sierra Leone Singapore Slovakia Slovenia Solomon Islands Somalia South Africa South Georgia and the South Sandwich Islands Spain Sri Lanka Sudan Suriname Svalbard and Jan Mayen Swaziland Sweden Switzerland Syrian Arab Republic Taiwan, Province of China Tajikistan Tanzania, United Republic of Thailand Timor-Leste Togo Tokelau Tonga Trinidad and Tobago Tunisia Turkey Turkmenistan Turks and Caicos Islands Tuvalu Uganda Ukraine United Arab Emirates United Kingdom United States United States Minor Outlying Islands Uruguay Uzbekistan Vanuatu Venezuela Viet Nam Virgin Islands, British Virgin Islands, U.s. Wallis and Futuna Western Sahara Yemen Zambia Zimbabwe

키워드에 대한 정보 water cooled beam dump

다음은 Bing에서 water cooled beam dump 주제에 대한 검색 결과입니다. 필요한 경우 더 읽을 수 있습니다.

See also  Wizyty Domowe Lekarz Kraków | Kraków. Przystanek Pułapka Dla Niepełnosprawnych (Uwaga! Tvn) 35 개의 자세한 답변
See also  인스 타 오류 | 단 15초 만에 인스타그램 작업차단 오류 해결하기 3527 좋은 평가 이 답변

See also  Praca W Krematorium Niemcy | \"Między Życiem, A Śmiercią\" - Pełna Wersja 23 개의 정답

이 기사는 인터넷의 다양한 출처에서 편집되었습니다. 이 기사가 유용했기를 바랍니다. 이 기사가 유용하다고 생각되면 공유하십시오. 매우 감사합니다!

사람들이 주제에 대해 자주 검색하는 키워드 S\u0026A Laser beam dump water cooled’s excellent performance in the laser cutting machine industry

  • S&A
  • laser cutting machine
  • Laser
  • water cooler

S\u0026A #Laser #beam #dump #water #cooled’s #excellent #performance #in #the #laser #cutting #machine #industry


YouTube에서 water cooled beam dump 주제의 다른 동영상 보기

주제에 대한 기사를 시청해 주셔서 감사합니다 S\u0026A Laser beam dump water cooled’s excellent performance in the laser cutting machine industry | water cooled beam dump, 이 기사가 유용하다고 생각되면 공유하십시오, 매우 감사합니다.

Leave a Comment