A research team of British and Czech scientists announced on the 24th that they have successfully developed a "super-laser," which is 10 times more energy-intensive than comparable devices. The average output power of this high peak power laser is 1000 watts with a continuous, high-energy pulsed reference. The future can be used in the aerospace, automotive and power sectors, such as hardening metal surfaces, processing semiconductors or micro-materials. The laser weighed 20 tonnes at a cost of 48 million U.S. dollars. The laser was developed by the UK Laser Equipment Research Center (CLF) and a national research project from the Czech Republic - High Frequency Pulsed Laser Engineering (HiLASE). Collier, director of the CLF, said: "This study is very important and will be a new world record that will change the way high-energy lasers are used." A team of British and Czech scientists successfully tested "super lasers," confirming 10 times the power of other such devices. Since the average energy intensity of high-peak power lasers is ten times higher than the current world level, the research team named the laser Bivoj, the name of a warrior in Czech mythology. HiLASE's director Mocek revealed that Bivoj broke the 1000 watt output power mark on December 16 last year and created a world record in its class of lasers. "This has taken the laser development a big step forward and took the Olympic gold medal As exciting as ever. " There are currently two peak-power lasers in the world-Texas Instruments lasers from Austin at a 1-watt watt and LFEX lasers from Osaka at 2-watt watts (1 terabyte equals 1,000 terams). Both lasers have very high power peaks, but only a few times in a day, so the power of these lasers is not average power. Bivoj and ordinary peak power lasers have a fundamental difference, the average power is the highest. In contrast, the lasers in Austin and Osaka peaked too little in a day.
Grain Seed Palm Almond Walnut Apricot Sheller and Peller and Huller
A level of shelling, roller gap can be adjusted, apricot raw material size is not the same, take off the large adjustment gap and then take off as a cycle ..The roller gap should be 1-1.5mm smaller than the apricot kernel. (If apricot kernel size is mixed together, large apricot kernels have a 15 mm diameter in the flat, 12 mm in the flat, and a small 9 mm in the flat. Adjust according to the raw materials: 14 mm off the first roll gap. The large, large apricot nucleus is removed from the shell and the small apricot kernels are leaked at the same time. The apricot nucleus, which has been removed from the shell, is separated from the apricot kernel that has not been detached from the shell by a sizing screen under the shelling machine. Unopened apricot kernels, from the lower layer of the screen, the apricot kernel almond mixture after opening the shell, and then the second time to remove the roller gap 11mm off the third roll off the gap 8mm off Finished small, once finished. Reference, according to the physical material to adjust the gap to achieve no broken kernel as well,)
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Almond Sheller,Almond Huller,Corn Sheller Machine,Electric Corn Sheller Hebei HELIDA Grain Selecting Machinery Technology Co., Ltd. , https://www.grainseedscleaner.com
Technical Data:
Model
Sieve dimension
Mark
HLD-300
3-5
2.5
260
1900X800X1250
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Environment friendly
