Quick Release Pin
Quick Release Pins have a wide range of uses in fastening , locating , and alignment applications. The pins will not release until the button on the handle is depressed. Once the button is depressed, the balls retract into the shank allowing the pin to be inserted or removed into or out of a hole. The shanks are made from 304 or 17-4PH stainless steel. The handles for the pins listed below are made from aluminum alloy and anodized black. Stainless steel handles are also available .The pins are supplied with stainless steel split ring for attaching a cable assembly .Pins in other grip lengths are available as special orders .
The detent pins are designed to use in temporary quick disconnect operations. Used as a convenient way to adjust or remove accessories on equipment. The pin has a ball bearing on one end with a steel spring works that depresses and springs out to lock the pin into place.Rigid quality control procedures ensure a consistent fastener you can count on. Standard sizes are made from low carbon steel,zinc plated, or stainless steel.
Quick Release Pins,Ball Lock Pins,T Handle Quick Release Pin,Stainless Steel Ball Lock Pin Ningbo Yokelink Machinery Co.,Limited , https://www.yokelink.com
3D printing drugs (Source: Baidu)
The development of new drugs can greatly improve efficiency through 3D printing technology. It is as simple as printing plastic or metal objects. Imagine printing pills or human organs and tissues, which makes pharmaceutical companies safer and lower. The cost of the way to test new drugs, this technology seems to be able to achieve the current science and technology, and is closer than ever.
The overall level of health care will increase <br> <br> compared with other industries, the application of 3D printing technology in the healthcare industry is not very extensive. Experts believe that in the field of 3D printing technology with an investment of 700 million US dollars (about 4.6 billion yuan), health care only accounts for 1.6%, and this proportion will increase to 21% in the next 10 years.
The latest research shows that the health and medical industry is growing rapidly. Market research firm Marketsand Markets.com said it expects the market value of 3D printing technology in healthcare to reach $2.13 billion (about $13.8 billion) by 2020. For example, the commercial operation of the dental industry has been very successful, and the company expects to have 50,000 customized orthodontic appliances printed on a 3D printer every day.
3D printing technology will permanently change the medical industry in four other ways.
1. Personalized prescription 3D printing technology can add a new way to manufacture customized drugs. The idea of ​​experts and researchers is to make customized 3D printed oral drugs, the easiest way. Medical writer C. LeeVentola has conducted extensive research on this, and she published "3D Printed Medical: Current Status and Future Uses" in which she writes that personalized 3D printed drugs are suitable for different reactions to the same drug. Various types of patients.
2, the unique dose
3D printing technology can also be used to produce unique doses of the drug, a process that is accomplished by inkjet 3D printing. According to experts, he may be a challenge to the traditional drug manufacturing industry. The new formulations made by the process have been tested with a variety of drugs, and over time, we will see more innovation.
3, more complex drug release curve
The drug release profile shows the time at which the drug breaks down in the patient's body, and it is easier to understand the release profile by designing and printing the drug yourself. 3D printing technology can print personalized medicines, by layered printing with a binder powder base, to facilitate targeted drug release, which creates a barrier between active ingredients, allowing researchers to more closely study release The change. As pharmaceutical manufacturers, they are beginning to realize that it is a rare opportunity for them to make more effective drugs, and they will increase their research and investment in this field in the next few years.
4, print living tissue
Although it is not currently fully and quickly implemented, experts predict that a true full-featured 3D printing heart will be realized in 20 years. Now the difficulty of 3D technology is to print complex blood vessels. According to Tony Atala, director of the WakeForest Institute of Regenerative Medicine, the complexity of each organ is different, and some tissues are easier to print, such as the skin. But printing complex organs like the heart, liver and kidneys is more difficult.
BioPrint, a bioprinting company, wants to replace large, complex, traditional devices and use small, low-cost desktop printers to print live cells. Co-founder Danny Cabrera explained that their equipment can use human cells to build a 3D living tissue model. He also explained that his company's printers are used to develop clinically used drugs and are promoted through existing pharmaceutical industry sales channels.
What will happen next <br> <br> there are still some issues before 3D printing technology has become a common medical business, first for the company most prepared to carry out the experiment, the scale of investment required is a challenge, in addition According to Ventola, the concept of printing drugs is usually passed by the media. The amount of money and time spent in actual operations is often underestimated. The public's expectation for this innovation is far from enough.
There are also security issues, and because the technology is too advanced, 3D printing still lacks supervision. Ventola wrote: The existence of the so-called "garage biochemical laboratory" may promote innovation in the life sciences. These experiments are often carried out in secret, thus avoiding interference from law enforcement agencies, although the research is technically legal. .
Scientists have come to realize that 3D printing technology has multiple opportunities in the healthcare industry. Although it still needs a lot of work, Ventola believes that it is only a matter of time before we realize this desire. She also wrote, “Despite the realization of 3D printing organ technology. Still in its infancy, but the results achieved so far are very optimistic."
3D printing technology will change the medical industry in four ways
[China Pharmaceutical Network Technology News] Although 3D printing technology has existed for many years, it is mainly used in manufacturing. This type of printing has also become stereolithography, which can be printed by layering different materials. A kind of thing that can print a digital 3D image into a real object. In the past 15 years, 3D printing technology has been gradually applied to the medical industry, such as printing prosthetics or teeth according to user needs. Now, 3D printing technology will have the opportunity to be applied to personalized medicine. As a newcomer, 3D printing technology will bring new opportunities to drug research and biotechnology applications. Many new methods, such as drug production, distribution support, and complementary medical research, will be adopted. Let's explore how it works.