3D Printer

Posts Tagged ‘Technology’

The Objet260 Connex is an affordable, compact version of Objet’s pioneering line of multi-material 3D printers. It enables designers and engineers to rapidly build prototypes to simulate their intended end-product closer than any other technology.

2010: When advanced technology gave consumer durables a new face
NEW DELHI: Last year when Hollywood director James Cameron’s sci-fi epic ‘Avatar’ hit the silver screen, little did consumers realise that the 3D technology could be invading their living rooms. It happened this year, so did other new technology products in the durables segment.

Read more on The Hindu

The printed future of Christmas dinner
Christmas dinner traditionally centres on the turkey or goose. But if US scientists have their way, everyone may be sitting around a printer. The team at Cornell University’s Computational Synthesis Lab (CCSL) are building a 3D food printer, as part of the bigger Fab@home project, which they hope one day will be as commonplace as the microwave oven or blender. Just pop the raw food “inks” in the …

Read more on Moldova.org

Looking to the future: Creating novel foods using 3D printing
Techniques such as 3D printing, elctrospinning, and laser sintering could work together as one process, to produce whole products from raw components like algae protein, fat and starch, TNO predicts.

Read more on Food Navigator Europe

Stratophase Collaborates With LGC On Real-Time Monitoring Of 3D Cell Culture Growth
Stratophase, a specialist in real-time chemical and biochemical measurement and detection, has announced that it is collaborating with LGC, the UK’s designated National Measurement Institute for chemical and bioanalytical measurement, to validate Stratophase’s novel technology, which has the potential to improve cell bioprocessing methods. Cell-based measurements underpin research and …

Read more on Medical News Today

Site helps get your creativity in shape
Have you ever had an idea for a product, but just not known how to make it? Perhaps it’s a great design for a ring or a toy, but how many of us have the machinery to manipulate plastic or glass? We can watch the Do It Yourself Channel as much as we want, but it won’t change the fact that heavy…

Read more on South Bend Tribune

Zoran Boosts Performance of Its Breakthrough Frame Rate Converter Technology for Worldwide 2D & 3D TV Markets
Second Generation SupraFRC(R) 301 Processors Dramatically Improve Video Display Quality

Read more on Marketwire

Push And Pull Get Eyes To Work Together
Researchers appear to have found a better way to correct sensory eye dominance, a condition in which an imbalance between the eyes compromises fine depth perception. The key is a push-pull training method in which the weak eye is made to work while vision in the strong eye is actively suppressed, according to a report published online on October 14 in Current Biology, a Cell Press publication…

Read more on Medical News Today

The World’s First 3D Printed Frisbee is Swank Enough for P. Diddy [Video]
# 3dprinting If your regular old Frisbee just isn’t doing it for you anymore and you’ve got a spare $215 lying around, consider the uber-customizable FrisMe. You can choose its size and shape, or add your initials and a cool “texture”. More »

Read more on Gizmodo

Finally, technology to the aid of Tipu Sultan’s armoury
BANGALORE: The relocation of Tipu Sultan’s armoury in Srirangapatna to pave the way for the Bangalore-Mysore track doubling work could well become a landmark in the conservation history of the country.

Read more on The Hindu

3D prototyping is the mechanical creation of physical substances using patented polyjet manufacturing technology. 3D prototyping technologies originated in their simplest plastic and liquid hardening versions in 1988 and were initially used to make simple static model structures. Many famous artists have used 3D prototyping technology to create installations for exhibitions. In recent years, the advancements in and the use of CAD and 3D prototyping has continued to spread. As such its important to understand the background and application for 3D prototyping processes.

Current Usage of 3D Prototyping

3D prototyping models have many uses. They make great visual aids for communicating ideas to colleagues or for presentations to customers. Being able to see, feel and hear an idea accounts for over half of one’s senses and helps make an impression on customers. One of the greatest benefits of 3D prototyping is that it can significantly reduce company costs. Outsourcing 3D modeling needs to suppliers is expensive and time consuming. With the latest 3D Prototyping equipment 3D printers can sit on a desk in your office.

3D prototyping is already applied in a number of industries and sectors. 3D prototyping is currently being used by in healthcare, engineering, education, architecture and the entertainment industry. It’s also being used by paleontologists to model fossils, duplicate prehistoric artifacts and to reconstruct bones and body parts to create a 3D tangible model of ancient mankind. Today, Architects are using 3D prototyping technology to design buildings with precise measurements and able to create 3D models in-house and therefore confidentially. Engineers are testing designs and able to locate errors and design flaws quicker and cheaper than previously.

Future Usage of 3D Prototyping

3D prototyping technology is presently being studied by biotechnology firms and universities. Their objective is to use 3D prototyping and engineering applications to create body parts and organs. Scientists can today use 3D prototyping to place layers of living cells on to gel mediums to test and learn how they react to being transplanted to humans, therefore reducing the need for live animal testing. With the help of a 3D prototype, one day recognizable pieces of furniture in a home can replaced by a 3D printer and a recycling unit. Clothing, cutlery and books can already be printed on demand.

In the future, product designers, engineers, teachers and architects will all be using 3D prototyping systems in their respective careers to teach, demonstrate and sell their concepts instantly. 3D prototyping has only been around for about 2 decades and has only recently become affordable enough for businesses to use in-house. Just imagine what the future holds for 3D prototyping printers.

Modern 3D printer technologies use a printing process that creates 3D objects with a 3D printer. This is also known as additive manufacturing. The printer will produce a prototype of an object. In addition, the 3D printer is affordable, user friendly and quicker than other technologies. Also, it is possible with this type of technology to print parts of a material in a single process. Nowadays, 3D printers are more affordable for small and medium scale businesses. Businesses are able to use rapid prototyping at their office location.

Before the development of the 3D technology, it was a lengthy process to develop a prototype of a material. During this time, it would take expensive tools, man power and machinery to create a model of a product. With the development of rapid prototyping, it became more affordable for businesses to develop a model.

Inkjet printing is one form of the faster types of modern 3D printer technologies that prints models or prototypes in color. Inkjet printing uses power to be creative and develop a shape. Many biotech firms and academies are looking at using 3D technology for tissue engineering purposes. In addition, organs and body parts are created using inkjet printing. Also, the creations of the body parts are created in one production. This type of technology can help with organ replacements like a hip replacement. The artificial body part created with this process will have the same dimensions as the original body part. This field of technology is called computer aided tissue engineering, organ printing or bio printing.

Some other 3D technologies are 3D scanning. In addition, 3D scanning is the duplication of a factual object without help of a molding method. Other applications of 3D technology can be used to create furniture pieces for homes and modern businesses. As well as, this type of technology is used in architectural design. It is very hard to build and glue architectural designs by hand. You will have to handle the pieces with care or risk the possibility of the design being ruined. The development of 3D technology eliminates this problem. 3D technology makes its possible to create a good design with the exact length, shape, size, width and form. Also, you will be able to evaluate project and the ability see a finished model before the project is completed.

Many schools and university are using 3d technology to teach their students about developing and designing models. This is a good advantage for students because students will learn how to use high end technologies. Also, the students will push designing to the next level with 3D technology. Some of the advantages of this type of technology are the ability to create quick results and its user friendly. Modern 3D printer technologies can save on time and cost to produce a single model of a product.

Everyone loves photographs. People all over the world derive enough pleasure in clicking photos and storing them. It is even more enjoyable to remember someone or something after viewing an older photo. However, the question is to preserve the slides so that the memories remain crisp and clear. An automatic slide scanner will help you do just that. This device helps you to store, save and share photographs or your precious memories with anyone. You need not worry about photos turning yellow, having scratches or dust any longer. With a slide scanner, you can instantly save the images on your computer. Then you can edit, e-mail or play around with them.

Various slide scanners are available for you in the market. Companies as Epson, Cannon, Braun and Nikon manufacture the automatic version of slide scanner. These companies have various models that you can select. If you only want to save images for posterity, then you can buy a low-end cheap model. In case your profession is photography and you share many slides in your office, then you can invest in a high-end automatic slide scanner.

The basic slide scanner that automatically turns the slides is like a magazine. An example of this kind is the Braun 4000 scanner. Different models have different capacities on the number of slides. Some models have the capacity of even above 100 slides. This model enables quick and convenient scanning of slides for projection, archival, printing or viewing of images. There are also models equipped with dust and scratch removal technology. In addition, you can find slide scanners with color restoration, grain management, and infrared sensors.

There are slide scanners like the Nikon CoolScan 5000 ED that has a USB with plug and play interface. These modern machines have scan buttons and touch preview that helps you with your scanning at incredible speeds. Such models are ideal for professionals. You could view the slide strips, and APS film on this scanner. The machine has no hazard of heat damage. With the latest ICE technology, image correction is very easy.

The automatic slide scanner from Cannon is compatible with MAC OSX 10.2.8 through 10.4.x, Windows 2000, Vista and XP. It comes equipped with a CD ROM that has a user guide, setup software, Adobe Photoshop Elements, printer driver, ScanSoft OmniPage, and many other features. This scanner ensures efficient and quick scanning. Image editing, and enhancing, along with retouching helps you get perfect images. You can create multi-page PDFs and unlimited e-mails. It is even possible for you to scan up to 12 35mm frames or 4 slides.

Epson makes a higher version of technology through its V300 slide scanner. This sleek machine has slide scanner that is the easiest to operate with 4800 dpi. This machine will enable you to make big enlargements of extremely high resolution. One can scan up to six negative frames or four slides at a time. Its high-lift lid enables scanning of even 3D objects and books. All this is possible without any warm-up time.

Brief introduction regarding how to use the 3D tissue printer for engineered tissues and organ. Few upgrades on existing 4-channel U-Printer is shown. This innovative technology is brought you by scientists at Harvard Medical School and KAIST. This technology is needed for the development of artificial organs and stem cell engineering. Generation of artificial meat/poultry products may be possible via this technology without sacrificing animals.

A scanner is a gadget that has been innovated to scan the printed material, which can be an image or printed text and in turn digitally transfers, as image into a computer system for further handling out by the user. Every scanner uses optical or light receptors to read texts and visual printed on paper or on any other material and decodes the information into a structure that can be used by the computer. It optically scans image, printed text, handwritten documents and converts them into a digital image. Scanner works on the principle of digitalizing an image by dividing it into a small lattice of boxes. Contemporary scanners characteristically use a Contact Image Sensor (CIS) as the image sensor. A rotary scanner, used for high-speed document scanning, is a kind of scanner that uses a CCD array. Other types of scanners are planetary scanners, which take photographs of documents and 3D scanners, for delivering three-dimensional models of stuff. Scanners habitually interpret red, green and blue colour (RGB) data from the array. This data is then worked upon for different exposure conditions. While selecting a scanner we should know about its Colour depth. It varies depending upon the scanning array characteristics, but it is generally not less than 24 bits. High quality models have 48 bits or more of color deepness. The other important parameters for selecting a scanner is its resolution. Resolution is measured in pixels per inch (ppi), sometimes more accurately referred to as Samples per inch (spi). Another important consideration for a scanner is its density range. A high-density range means that the scanner is able to reproduce shadow details and brightness details in a single scan. The magnitude of the file created increases with the square of the resolution. In simpler words, we can say that the doubling of the resolution quadruples the size of the respective file. A resolution must be chosen that is within the capabilities of the machine, which can preserve sufficient details, and does not produce a file of superfluous size. Enhanced scanners of today’s world have features like high quality optical lens, greater dynamic range, lower noise levels, finer steps on the stepping motor, much faster interfaces, and better-bundled software. Therefore, we can say that scanner is the indispensable innovation of the technology in the world of computer that has reduced a lot of workload in offices.

Technology is moving faster than ever and almost every field of design has felt the impact due to the advance. New software has enabled tasks in design areas to be done more efficiently and more cost effective with less area for mistakes.  CADD or Computer Animated Drafting and Design  has completely re-invented the procedure of drafting and 3D modeling. The study of engineering is one of the oldest  and most important from designing weapons to hunt  to the creation of entire empires. With the technology age at hand the way everything from our houses to our cars will be designed on computers.

Everything we use on a daily basis was designed either on paper with a pencil and drafting board, or was generated on software programs with computers. More than likely if the item is new it was designed on CADD. There are very few instances any more where when a design is drafted with  pencil and paper. Luckily most people will never have to do it the old way because it would have taken more than twice the time it takes on CADD, and if you would like the view rendered it can be done in mere seconds compared to several hours.

One real benefit to using CADD is that you can skip the process of having to measure every single line with a ruler to make sure it’s accurate. This procedure allows drawings to be created very quickly without making mistakes. The less time you spend developing something the more profit at the end of the day. With this fact in place the cost of purchasing designs has gotten more affordable. My website actually gives all its visitors free 3D designs with no strings attached. This technology is great for not only the draftsmen and women, but it’s also good for the consumer because they  get designs quickly and cheaper.
Engineering is one of the oldest practices that has evolved over the years.  The Egyptians used it to create the pyramids, the Romans used it to build the Coliseum, the Mayans used it to develop temples for worship I bet they wish CADD was around to take some workload. All Engineers now use CADD to design aerospace technology, bridges, buildings, boats and more. This new software has improved the way Engineers, and Architects will do there work forever. Now designs that were never thought possible can be brought to life with the aid of computers.
Technology is getting  more advanced in the years to come. It’s almost like the avalanche affect where once it gets going it gets faster over time. These improvements in this field have made my career as a CADD Designer more efficient. Sites can actually  provide free service to anyone that visits these
websites due to the vast improvement with using CADD as my way of doing business. So to conclude, designing will never be the same as it was when our fathers did it, and it will probably be different when our kids do it due to the advances in computer technology.

Christopher Clay
Website- http://www.elinedesign.com
E-mail thearchitectsolution@yahoo.com
So to experience FREE 3D modeling please follow this link. http://www.elinedesign.com