Category Archives: Technology

Running Shoes Technology

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Recent developments in science and design mean that many running shoes are more technical than ever. With advanced computer modeling software, creators can now develop shoes that work exactly in line with how humans run.

UK-based company, Reebok are credited with one of the first purpose-built sports shoes when, in the late 1800’s they released a pair of shoes designed for running that featured spikes. Something that had never been done before, the inventor, a keen runner himself, found that the spikes provided more grip on softer surfaces and helped him to run more fast than previously.

Two of the biggest companies in the sporting footwear market were actually founded by brothers. Adi Dassler created Adidas, while his brother Rudolph formed Puma. Established in 1925, Adidas also featured spiked footwear to help runners, this time offering a selection of varying styles for runners of varying distance.

Extensive research was performed in the early 1970’s to see exactly how humans run. Research that in modern time, with the benefit of computer software, is much simpler than it was then.

The research concentrated on the damage caused to the human body, especially the knee and thigh joints as a result of prolonged running on different surfaces.

The results of the study revealed three main methods of running; Neutral, Supenation and Pronation.

The Natural running style is where the runners foot lands flat on the ground and rolls neither inwards or outwards, but the foot travels directly in a straight line. This style of running is often the best for endurance running.

Pronation – This is where the foot rolls inwards as it hits the ground, and moves to the side as it travels forwards. Common injuries caused by this type of running are Tarsel tunnel syndrome, shin splints and bunyons.

Supenation – The opposite of Pronation – In this case, the foot rolls outwards. Excessive supenation can cause shin splints and ankle sprains.

There are now different versions of running footwear developed to cope with whatever style of running you have. Many shoes use different density of foam in parts of the sole to offer extra and firmer cushioning where needed to help minimise damage to your body with excessive running.

Other developments in running shoes include the Air Sole from Nike which was created in 1972. The inventor put rubber into his waffle machine at homeand stuck the resulting ‘waffle sole’ onto a standard pair of running shoes. The runners who tested the new invention remarked on how good they found it, and the lightweight sole revolutionised the running shoe market.

In more recent times, brands such as Skechers have entered the running footwear arena.

Pc Monitor – Uncover More Concerning The Coming Of Oled Technology

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You will find increasingly more individuals who rely to computers for their very own personal work, enjoyment and also for business reasons. The computer turned out to be more than just a device that can allow one to make certain computations, aside from word processing work, but has evolved to be one’s means of communication, the backbone of a business, as well as a form of marketing tool to be used world wide. From time to time, it is necessary to offer maintenance to your computers if it’s how important a computer is these days.

For example that you’re having problems with your PC monitor, you may be wondering what’s going to be the best choice that you may look into in relation to searching for monitor replacements. But evidently you wish to ensure that you’ll be able to maintain with the modern times.

Given that computers are developed and modified once in a while, you may come across many alternatives on the subject of looking for a PC monitor that has a more modern approach. Long ago, the most well-liked types of monitors are CRT monitors and LCD monitors. In reality you may still find a few who makes use of these tube monitors and the LCD ones, but nowadays, the fad is making use of an OLED screens.

Organic Light-Emitting Display or more known as OLED is what technology has paved way to a more advanced way of viewing various images and objects from various electronic gadgets these days like for example with the newer versions of iPhones. Then there will soon be a release where we are able to now enjoy watching TV through the use of OLED technology. As this moves on, sooner or later now you can purchase an OLED PC monitor to join the fad.

It can be done to have access to monitors that can definitely provide you with a better screen resolution, a more handy option and even allow earlier types of monitor just like LCD and plasma monitors to be more inexpensive. That’s one interesting technology which is definitely worth the wait.

Audi Headlight Technology

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The new Audi A6 intends to challenge a lot of technology found in its competitor models, one of these innovations is the new all LED headlights. The A6 will be the first executive saloon in the market to have all LED headlights, an optional extra in exchange for the more familiar halogen or bi-xenon lamps that come as standard.

The Audi A6s advanced LED headlight units emit a strong white light that is similar to daylight, and use just 40 watts of electricity each, making them yet another important weapon in the battle against energy consumption. The advanced LED units use just four one-chip and five two-chip LEDs to create dipped-beam light, and 24 white LEDs to make up the daytime running lights in each headlight. This keeps power consumption and maintenance down, and gives excellent life span.

All LED headlights are not new in the Audi line-up, the Audi R8 was the first ever production car to feature all-LED headlights and now are becoming common across the Audi range. The advanced all LED headlights will also be available on the new A7 Sportback and Audi A8 luxury saloon.

The all LED headlights are further enhanced by intelligent systems such as adaptive light control and high-beam assist, which give maximum visibility without dazzling other road users. Simply put the adaptive light system adapts the light provided by the headlights to the driving conditions, with different arrangements of light when driving in the city, country roads and on motorways.

The Audi high-beam assistant automatically varies the range and width of the headlight beam between dipped and full according to the road conditions. The system also incorporates an all-weather function that uses the rear view mirror camera to detect the lights of on-coming traffic and adjust the headlight intensity to give optimum visibility in varying conditions without disturbing other road users.

The Audi A6 is now available to order from Audi Bury St Edmunds, prices start from 30,145 for the 2.0 litre TDI model. The all LED headlight upgrade costs an additional 2,710.

Short Process Of Powder Metallurgy Technology

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Technology of powder metallurgy parts near net shape powder metallurgy workers has long been one focus of the study subjects. Over the past decade, the study of new technology, new technology after another. These new technologies, the emergence of new technology to solve the short-flow low-cost powder metallurgy materials forming problems, greatly contributed to the rapid development of powder metallurgy parts. Currently, powder metallurgy parts manufacturing technology development is to increase density, reduce costs and complexity of high-precision near net shape parts mouth.
In 2000, Germany’s Fraunhofer Institute has developed one of these are known as the flow temperature and pressure of the short process of low-cost near-net shape technology. The temperature and pressure process technology-based and combines the advantages of metal injection molding technology. By improving the mobility of mixed powders, filling ability and formability, can 😯 ~ 130 , in the traditional press on the precision forming of parts with complex geometries, such as the vertical direction with a groove with the suppression of the hole and threaded hole and other parts. 2 without the need for subsequent machining. Flow temperature and pressure forming technology not only to overcome the traditional powder metallurgy forming a complex geometry in the gaps, but also avoid the high cost of metal injection molding technology is a great potential of new technology, has a very broad application prospects.
Flow temperature and pressure forming a new type of powder metallurgy parts, as near net shape technology, its main features can be summarized as follows: 1) forming parts with complex geometry flow using temperature and pressure can be directly formed with grooves perpendicular to the direction of repression, holes and screw holes and other parts, while the use of the shape of the cold manufacture of such parts is very difficult or even impossible, manganese powder the general need to complete the subsequent machining, CNC press to realize that the use of complex and precise movements , can only produce a relatively simple type of parts. Fraunhofer researchers used a special mold, the T-hole, hole, L-shaped cavity mold hole has been studied and successfully prepared a T-shaped parts. The results show that the well-mixed powder flow is sufficient to avoid cracks in the corner. Fraunhofer researchers have also used the shape with a slight taper to successfully direct the punch forming a deep blind hole parts, blind holes and wall thickness of the high rate of up to 3 to 7, the changes in wall thickness in the range of 1 ~ 3mm . Flow temperature and pressure can also be precision ground forming threaded holes. With the external thread of the bolt with a core mold after compaction, it will tighten the bolt out from the semi-finished products, and then sintering can be obtained thread. According to shrinkage by selecting the appropriate core diameter of the bolt thread can be suppressed without the required 2 machining.
2) The compacts of high density, density, temperature and pressure than the uniform flow of powder loading density as high, so after the semi-finished products by the temperature and pressure can reach very high density values. In addition to density, the powder flowability as well, forming parts and more uniform density. Or use a simple model red (no auxiliary floating red multi-axis model) can be multi-step forming of powder metallurgy parts.
3) the adaptability of materials Fraunhofer researchers conducted a variety of metal powder flow of warm compaction studies, have made a more significant results, including low alloy steel powder (Distolay AE), stainless steel 316L powder, silicon powder pure Ti powder and WC-Co hard metal powder. Flow temperature and pressure process in principle applicable to all the powder system, the only requirement is that the powder sintering must be good enough to eventually reach the required density and performance.
4) to simplify the process, reducing costs forming parts using conventional powder metallurgy method to suppress in the direction perpendicular to the grooves, cross holes and other shape, need to design very complex molds or 2 times after sintering machining to complete. Although injection molding technology in the shape of forming part of the complex and almost without any restrictions. However, due to large number of added binder, nickel powder in the heating process in part because of the influence of gravity to deform. Therefore, it often requires an additional more complicated and more expensive binder removal process, making the injection molding of high cost than conventional powder metallurgy technology, so the injection molding of parts may not be able to meet its design features to replace the conventional powder metallurgy parts to the application of injection molding technology has been somewhat restricted.
The flow temperature and pressure forming technology, either directly without the need for complex geometries 2 subsequent machining; the other hand, the flow temperature and pressure forming process, the use of a special binder and lubricant content is moderate, the configuration of the hybrid powder has a high viscosity and critical shear strength, the heating process does not occur in the deformation, which can be directly removed during sintering binder. Thus, the traditional powder forming process and injection molding process compared to current techniques for temperature and pressure forming of complex geometry parts, the only simplifies the production process, but also significantly reduces manufacturing costs.

File Processing Systems

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Even the earliest business computer systems were used to process business records and produce information. They were generally faster and more accurate than equivalent manual systems. These systems stored groups of records in separate files, and so they were called file processing systems. Although file processing systems are a great improvement over manual systems, they do have the following limitations:

Data is separated and isolated.

Data is often duplicated.

Application programs are dependent on file formats.

It is difficult to represent complex objects using file processing systems. Data is separate and isolated. Recall that as the marketing manager you needed to relate sales data to customer data. Somehow you need to extract data from both the CUSTOMER and ORDER files and combine it into a single file for processing. To do this, computer programmers determine which parts of each of the files are needed. Then they determine how the files are related to one another, and finally they coordinate the processing of the files so the correct data is extracted. This data is then used to produce the information. Imagine the problems of extracting data from ten or fifteen files instead of just two! Data is often duplicated. In the record club example, a member’s name, address, and membership number are stored in both files. Although this duplicate data wastes a small amount of file space, that is not the most serious problem with duplicate data. The major problem concerns data integrity.

A collection of data has integrity if the data is logically consistent. This means, in part, that duplicated data items agree with one another. Poor data integrity often develops in file processing systems. If a member were to change his or her name or address, then all files containing that data need to be updated. The danger lies in the risk that all files might not be updated, causing discrepancies between the files. Data integrity problems are serious. If data items differ, inconsistent results will be produced. A report from one application might disagree with a report from another application. At least one of them will be incorrect, but who can tell which one? When this occurs, the credibility of the stored data comes into question. Application programs are dependent on file formats. In file processing systems, the physical formats of files and records are entered in the application programs that process the files. In COBOL, for example, file formats are written in the DATA DIVISION.

The problem with this arrangement is that changes in file formats result in program updates. For example, if the Customer record were modified to expand the ZIP Code field from five to nine digits, all programs that use the Customer record need to be modified, even if they do not use the ZIP Code field. There might be twenty programs that process the CUSTOMER file. A change like this one means that a programmer needs to identify all the affected programs, then modify and retest them. This is both time consuming and error-prone. It is also very frustrating to have to modify programs that do not even use the field whose format changed. It is difficult to represent complex objects using file processing systems. This last weakness of file processing systems may seem a bit theoretical, but it is an important shortcoming.