欧美人妻精品一区二区三区99,中文字幕日韩精品内射,精品国产综合成人亚洲区,久久香蕉国产线熟妇人妻

The new generation of in cylinder direct injection technology is the mainstream technology in the field of automobile engine. It accurately injects fuel into the cylinder through the fuel injector and fully mixes with the intake air to give full function to the effect of each drop of fuel.

As can be seen from the figure below, there are micro pores distributed on the injector, the diameter of which is less than 150 microns. Hole diameter, surface roughness, position, shape and so on will directly affect the performance of the injector, so there are strict processing requirements. At the same time, in order to achieve cost-effectiveness, the processing time of each micro hole is required to be controlled within a few seconds.

What Method is Efficient and Reliable for Micro Machining Less than 150 μm? 1

So the problem is that the processing requirements of injector micro holes are far beyond the capacity of traditional mechanical drilling technology. What process is used to accurately process these micro holes?

Traditional processing method vs innovative micro hole processing technology

At present, the common micro hole machining methods of injector mainly include mechanical drilling, EDM and femtosecond laser machining.

The cost of mechanical drilling is the highest. Because the tool for drilling small holes is expensive, easy to wear in the process of machining, and the tool has fracture risk, which directly affects the consistency of micro hole processing and product yield, and the cost of consumables is high.

Although EDM is a little more flexible than mechanical drilling in size, its machining efficiency is low and the surface roughness is not ideal. Especially, there will be remelting layer on the machined surface. At the same time, we must also consider the electrode cost and the stability of the process.

However, femtosecond laser can not produce heat in the processing process, and the micro hole processed by femtosecond laser has no remelting layer and burr, which can obtain clearer sharp edge and better surface quality, thus prolonging the nozzle life.

Taking a hole with a diameter of 150 μ m and a depth of 0.5 mm as an example, the machining results of EDM and femtosecond laser are compared

What Method is Efficient and Reliable for Micro Machining Less than 150 μm? 2
What Method is Efficient and Reliable for Micro Machining Less than 150 μm? 3

The left side of the figure shows the micro hole machined by EDM and the right side shows the micro hole machined by femtosecond laser

It is worth mentioning that we are not unfamiliar with laser processing. So, what’s the difference between femtosecond laser and nanosecond laser and picosecond laser we often hear?

Let’s make clear the time unit conversion first

1ms =0.001s=10-3S&nbSp;

1μs=0.000001s=10-6S?

1ns=0.0000000001s=10-9S

1ps =0.0000000000001s=10-12S

1fs =0.000000000000001s=10-15S

If we understand the time unit, we will know that femtosecond laser is an extremely short pulse laser processing, so only it can really be competent for high-precision processing.

What Method is Efficient and Reliable for Micro Machining Less than 150 μm? 4

There?are nanosecond laser drilling?hole, picosecond laser drilling hole and femtosecond laser drilling holes

Working mechanism of femtosecond laser

When femtosecond laser acts on metal and nonmetal processing, the principle is completely different. There are a large number of free electrons on the metal surface. When the laser irradiates the metal surface, the free electrons will be instantly heated, and the electrons will collide in tens of flying seconds. The free electrons will transmit energy to the crystal lattice and form holes. However, the energy of free electron collision is much smaller than that of ions, so it takes a long time to conduct energy. However, this problem has been solved by Chinese scientists.

What Method is Efficient and Reliable for Micro Machining Less than 150 μm? 5

When femtosecond laser acts on non-metallic materials, because there are few free electrons on the surface of the materials, the surface of the materials should be ionized before the laser irradiation, and then free electrons are generated. The remaining links are consistent with the metal materials. When femtosecond laser is used to process micro holes, a small pit is formed at the initial stage. With the increase of the number of pulses, the depth of the pit increases. However, with the increase of the depth, it is more and more difficult for the debris to fly out of the pit bottom. As a result, the energy of laser propagation to the bottom is less and less, and the saturation state of the depth can not be increased, that is to say, a micro hole is drilled.

Application of new femtosecond laser technology

The application of femtosecond laser new technology is just emerging. The main application industries include: semiconductor industry, solar energy industry (especially thin film technology), planar display industry, alloy micro casting, precision aperture and electrode structure processing, aviation difficult material processing, medical equipment and other fields!

Under the background of made in China 2025, the traditional industrial manufacturing industry is facing deep transformation. One of the directions is to improve the efficiency and turn to high-end precision processing with higher added value and higher technical barriers. Laser processing is fully in line with this theme. Lasers and laser processing equipment have emerged in high-end 3C manufacturing fields such as consumer electronic touch screen module production, semiconductor wafer dicing, etc., and show new application prospects in sapphire processing, curved glass and ceramic production.

3C industry

What Method is Efficient and Reliable for Micro Machining Less than 150 μm? 6

As a typical representative of ultrashort pulse laser, femtosecond laser has the characteristics of ultra short pulse width and ultra-high peak power. It has a wide range of processing objects, especially suitable for processing brittle materials and heat sensitive materials such as sapphire, glass, ceramics, etc., so it is suitable for micro processing industry in electronic industry.

The main reason is that the application of fingerprint identification module in mobile phones since last year has led to the purchase of femtosecond laser. Fingerprint module involves laser processing: ① wafer dicing, ② chip cutting, ③ cover cutting, ④ FPC soft board contour cutting and drilling, ⑤ laser marking, etc. Among them, Sapphire / glass cover plate and IC chip are mainly processed. Apple 6 has officially used fingerprint identification since 2015, and has promoted the popularity of a number of domestic brands. At present, the penetration rate of fingerprint identification is less than 50%. Therefore, there is still a large development space for laser machine used to process fingerprint identification module.

At the same time, the laser machine can also be used in PCB drilling, wafer dicing cutting, etc., and the application field is constantly expanding. Especially with the application of high value-added brittle materials such as sapphire and ceramics in mobile phones in the future, laser processing equipment will become an important part of 3C automation equipment. We believe that femtosecond laser will play a broad and profound role in the field of 3C automatic processing equipment in the future.

aircraft engine

What Method is Efficient and Reliable for Micro Machining Less than 150 μm? 7

For a long time, China’s engine manufacturing technology has always been a bottleneck restricting the development of aerospace industry. The quality of products is not up to standard from two aspects: one is material technology; the other is material processing technology. Femtosecond laser drilling solves this problem!

In the field of aerospace, gas turbine is the first of the three key components of the engine, and its performance directly determines the quality of the engine. However, the working temperature of turbine blade of aero-engine is at least 1400 ℃, so it is necessary to use accurate cooling technology for high-temperature parts, especially blades.

Blade cooling is usually achieved by a large number of film holes with different diameters. The hole diameter is about 100 ~ 700 μ m, and the spatial distribution is complex. Most of them are inclined holes with angles ranging from 15 ° to 90 °. In order to improve the cooling efficiency, the shape of the holes is often fan-shaped or rectangular, which brings great difficulty to the machining. At present, the mainstream method is high-speed EDM, but the tool electrode manufacturing is extremely difficult, the processed parts are easy to wear, the processing speed is slow, it is difficult to remove the machining chips in the hole, it is not easy to heat dissipation, so it is not suitable for mass production.

In addition, the surface of modern engine blade is usually covered with a layer of thermal barrier coating, which is usually ceramic material, which can not be machined by traditional EDM, which is the key technology of advanced engine manufacturing in the future. With the development of non metallization of engine blade materials, EDM is more unreliable. Femtosecond laser machining has many advantages, such as wide adaptability, high positioning accuracy, no mechanical deformation, no direct contact and so on. It is very suitable for machining micro holes.

medical care

What Method is Efficient and Reliable for Micro Machining Less than 150 μm? 8

At present, all femtosecond laser used in ophthalmic refractive treatment should be one of the most mature devices in medical application of femtosecond technology. There are also expander, endoscope and catheter processing and so on.

In medical treatment, compared with long pulse laser, femtosecond laser energy is highly concentrated, there is almost no heat transfer effect during the action, so it will not cause the temperature rise of the surrounding environment, which is very important in the medical application of laser surgery. On the one hand, several degrees of temperature rise will become pressure waves in an instant and transmit to nerve cells to produce pain. On the other hand, it may cause fatal damage to biological tissues. Therefore, femtosecond laser can achieve painless and non-invasive safe treatment.

Breakthrough in femtosecond laser drilling technology

Although femtosecond laser drilling technology has such magic power, its development is also very difficult, especially in the efforts of system integration and technology engineering, there are various difficulties, and the output power is also limited. In addition, how to form a complete set of microporous processing industry is also a worldwide problem. However, through the efforts of Chinese scientists, we have not only realized the practicality and integration of the system, but also invented the screw processing technology, which can be privately customized with different shapes of micropores, which can be said to be in the leading position in the world.

Nowadays, with the gradual upgrading of emission standards in the automotive industry at home and abroad, the challenges for injector manufacturers and their OEMs are becoming more and more serious. The traditional round holes can not meet the needs of customers. Manufacturers are constantly seeking and developing special and novel nozzle shapes to meet the requirements. The flexibility and advantages of femtosecond laser processing are becoming more and more obvious.

What Method is Efficient and Reliable for Micro Machining Less than 150 μm? 9

Special and novel spray hole shapes

国产乱子伦视频一区二区三区| 激情久久久久久久久久久| 捆绑调教白浆一区二区三区| 黑人大屌大战中国女| 妺妺坐在我腿上下面好湿| 欧美日韩一区二区成人在线| 极品美女销魂一区二区三区| 爆操大奶骚货视频| 肏亚洲女人小骚逼| 国产日韩精品v一区二区| 99爱国产精品免费视频| 让女人下面出水视频| 让女人下面出水视频| 爱爰哦好粗好猛操b视频| 熟妇好大好深好爽| 欧美人与动人物A级| 白虎鲍鱼抠逼免费看| 2021最新热播国产一区二区| 亚洲另类激情在线观看| 国产欧美一二区不卡视频| 精品麻豆国产免费一区二区三区| 潮中文字幕在线观看| 精品久久久久久久人妻换| 女人的骚逼免费视频| 爆操大奶骚货视频| 伊人网在线视频观看| 骚穴手机在线视频| 裸体午夜一级视频| 大黑鸡巴操模特骚B| 久久久久精品无码专区喝奶| 操老女人大逼视频| 欧美在线A片一区二区三区| 加勒比五月综合久久伊人| 日本人色频在线看观| 几把日逼嗯嗯视频| 亚洲视频免费观看| 极品 操 抽插视频| 精品无码一区二区三区无码| 亚洲精品成a人在线观看| 久操视频中文字幕在线观看| 三级片成人京东热五月天|