You would be astonished to know that of the many items being laser engraved today, laptops and iPods rank among the highest. Not only this, laser engraving is also being used in a variety of applications and industries, such as medical device, aerospace, manufacturing, automotive, pharmaceutical, and electronic.

Laser engraving is a technique that is used to engrave, mark or etch any object. It has significantly changed the way products are embossed. Laser engraving’s viable and versatile technology is being used by many engravers to improve productivity, add more services for their customers, and increase their profits. Laser engraving is much more popular than other engraving procedures because the results offered by it are very clean and precise.

Engraving with a laser is actually a simple process. The machine which is used for laser engraving comprises of three main parts: laser, controller, and surface. The laser emits the laser beam and the patterns are traced by the controller onto the surface.

Laser can engrave most materials. Some of the most popular materials in the engraving fields are wood, coated metals, acrylic, leather, glass, marble, plastic, and a host of synthetic materials. Woodwork which is considered as a very beautiful and famous art is carried out with the help of laser engraving. Also, acrylic plastics and plastic sheets of soft drink bottles are engraved by laser. Diamonds get their shine with the process of laser engraving. Not only can this, with the help of laser engraving coatings be removed from metal.

Laser engraving has resulted in very novel ways of engraving surfaces which in ordinary circumstances would be hard to engrave, for instance glass. The reason for this is simple. The laser beam is very flexible and agile and thus there is no limit to the designs that can be engraved on a surface.

There are numerous advantages of using a laser over other methods of engraving. First, laser engraving tools are a beam of light, there is no product contact, resulting in lesser chances of product damage or deformation. Second, there are no consumables for laser engraving; hence the operating costs are minimal. Third, if used properly, the laser engraving system runs clean, thus eliminating the cleanup cost.

There are many companies that offer laser engraving. These companies have well laid down procedures for their work and offer very precise and clean engravings at record speeds. One of the most renowned names in offering laser engraving is identisys. Please visit www.identisys.co.uk for more details.

Laser marking is a technique that enhances the monetary and esthetical value of products by making them look more eye catching and easily visible. Other than this, laser marking is also used as a way of permanently marking an item for tracking its security and quality. Rather than using a vibrating or rotating tool to engrave a mark on the products, a high-powered laser is used. Laser marking is done by expert professionals who make use of the latest and most advanced engraving methodologies to ensure that the marking is contact free and tamper proof.

Laser marking has long been a preferred tool for making precise and artistic markings on objects. The reasons why people choose laser marking over methods like making marking by hand or other forms of radiation are:

Accuracy: A laser beam is just a few microns thick and thus these is no better instrument for making fine markings on areas where precision is absolutely necessary. This is the reason why laser marking is used on things like glassware, barcodes, medical implements, backlit keyboards and various others.

Speed: Laser markings can be made very fast. All one needs to do is programme a design into a laser machine and the design can be reproduced in a matter of seconds. The same design if reproduced by humans would require a hundred times that duration.

Repeatability: Laser marking reproduces the exact replica of the required designs. Designs like watermarks, logos, and barcodes are all security information, and producing the exact requirements of all of the designs is a must for security purposes. This is where laser markings help people get error free designs.

Environmentally Friendly: An added benefit of laser marking is environmental. Since laser marking makes no use of inks or solvents, the impact on the environment is very minimal.

Laser marking on metals is best accomplished by a 20 watt pulsed fibre laser. On the other hand, the fibre laser marking systems can engrave to depths of .005″. Also, the fibre laser marking can be adjusted to make a smooth anneal mark that just darkens the material being marked. CO2 Lasers are used for marking, engraving, and cutting wood, plastic and other organic materials.

There are a host of companies that offer laser markings. Most of the laser marking companies offer laser marking and engraving on nonmetal as well. These companies make use of modern laser machines for achieving precision and ensuring that their task is completed in the optimum time.

One of the most renowned companies that offer laser markings is identisys. For more information about the company, please visit the site www.identisys.co.uk.

Why Should You Replace Linear Barcodes With 2D Codes?

In information technology, the storage and retrieval of information is the primary concern. The amount of data a given physical device is able to store depends on the design principles that went into making the device. For example, a one-dimensional barcode is a machine-readable representation of data. The one-dimensional, or 1D, barcode is capable of storing information up to a certain point. This is because a 1D barcode, also called a linear barcode, represents data as straight lines of varying width. This allows only a limited amount of information storage.

A two-dimensional barcode, also called 2D or a matrix code, is capable of representing a lot more data because the number of dimensions has been doubled. A matrix code represents data across both length and width of the barcode; a portable database of information, in other words. Matrix codes are mostly used for the identification of technological products, like computers, cell phones and wireless routers. Since the inception of matrix codes, 20 different designs have been registered and implemented. Special scanners are required to read matrix codes; the scanning beam moves sideways across the code, rather than simply reading the code horizontally, as with 1D codes.

There are many different matrix code standards. Some of the most common ones are:

- PDF 417: This arrangement can store information that is 2000 characters long; that is several sentences worth of data about a product or service. PDF stands for Portable Data File, and since the storage capacity is so huge, many times external databases are not required. This makes PDF 417 great for health care, identification, and logistics and retail.

- DataMatrix: Like PDF 417, a DataMatrix code can also store up to 2000 characters. DataMatrix is a square symbol that can be as long as fourteen inches. Circuit boards, high-quality lenses and surgical instruments are usually encoded using these matrices.

- MaxiCode: This arrangement can only store 93 characters worth of information. This arrangement has a distinct symbol; a bull’s eye in the center surrounded by hexagonal rows. It is much beloved by United Parcel Service because it can quickly be scanned while the code is moving on a conveyor belt.