These days overlapping of 3D Product design and industrial design has become a common feature. Some of the where 3 D product design technology is used making of products like aerospace & defense, automotive & transportation, consumer product design, heavy-duty industrial machinery, electronics, mold, tool & die, medical equipment, design & engineering services and others.

Some of the advantages of the 3 D product design are:

* They have precision to make 3 D detailed drawing

* As there are computerized models so one can easily balance the design. For example, if one thinks that the product made is too big then they can resize the model by making use of the calculations already available.

* 3 D product is considered an economical option because one doesn’t have to go in for actual production of the product, to check its consistency for day-to-day working.

* While designing the product one gets the real feel of making it. Actually the complete product can be animated without making a new one. Hence, one doesn’t waste money, time and other resources for making the product.

Seeing the importance of product design, many companies have a special team of product designers and engineers, who work together to give a well-developed product. The special team using the latest 3 D software designs the product as per the need of the manufacture. They are well versed with the product design and once they have made the product, they check it. Only upon total satisfaction of the design they forward it to the manufacturing department.

In short and simple words, product design has become an integral part of product designing. It is due to product design, easily one can get the desired improvised product.

Computer Aided Three Dimensional Interactive Application popularly known as CATIA is been developed by a French company. This software supports various stages of product development. The various stages include conceptualizing, designing, manufacturing and analysis of the product.

Popularly this software is being used in different industries for designing precision tools and products. Some of the industries where CATIA has found its use are Aerospace, Medical, Electronics, Furniture, Appliances, Architecture, Consumer Goods, Automotive, Construction, Machinery, Mold and Die, and Shipbuilding.

Seeing the growing demand and expectation of the manufacturers, CATIA software is also been updated from time to time. But only few are well versed with it. If you also want to make use of the latest CATIA software, then hire a company that offers CATIA services. They have the ability to customize the software using the application programming interfaces.

Their range of services include Concept Design, advance surface modeling for various engineering parts, Surface development and Flatting, optimization and morphing of surfaces, etc. They will also do the analysis and see to it that things are set in place. Only after final testing give you the final project.

Some of the benefits of hiring an independent CATIA services provider are:

* Specialized services by a team of talented software. They are well versed with V 5 also.

* Quick response and your work will be handled by experts. So less chances of negligence / mishandling of the project undertaken by them.

* As your work is being outsourced corporate fees charged by professionals on hourly basis is reduced.

* They can easily identify the mistakes, inaccuracy in data.

* All the CATIA services rendered by them are available at competent rates.

Rapid Prototyping is used in making architectural models. It is a fast, flexible and simple method that allows the architects to produce spectrum of models. With the help of rapid prototyping, architects have been able to develop architectural models in fraction of time and expense. Rapid Prototyping performance has improved with the help of Z Corporation, 3D printers, Z Corporation 3D printing systems. These things offer architects a powerful medium to express their designs and concepts to the clients within the deadlines and given budget. Before the use of fast prototyping the architects used a traditional ways like cardboards for expressing their ideas to the clients.

Further they help in functionally testing the parts quickly and economically. A rapid prototyping model lays stress on creating a prototype that appears and act like the desired product. This helps in testing how the product is useful. One can easily evaluate the designed concepts and if required can make the desired changes at the finishing stages.

Beside this rapid prototype also helps to develop a system with less capability. Once the dummy architectural model is made then the product is presented for customer’s approval. Only upon the approval from the client the dummy model is discarded and the real software is written. Then accordingly the specifications are developed and implemented for testing.

Seeing so many uses and advantages of rapid prototyping in architectural models, big as well as small architectural firms have started using this automated time saving process. To know about the use of rapid prototyping in architectural models, contact us now.

Rapid prototyping is a procedure used for generating three-dimensional models. This model does not require any machining and tool. Due to this Rapid prototyping has gained more popularity over the conventional methods. Rapid prototyping assists the users in developing instant prototypes and acquire accurate response from target audience.

3D Designers have completely benefitted from the features of rapid prototype. It helps them in completely eliminating the flaws of design from the preliminary stage of conceptualization. The various devices used in rapid prototyping helps in giving the right picture of idea. Further depending on the need of the designer, with the help of vector images can be manipulated and help the designers to imitated designs with complete accuracy.

If required quality of the designs can be improved with minimum need to rework with Auto 3DCAD system. 3D significantly improves the design value, as it is comprehensive process. Hence the detailed design can be presented to the client. Further designers and other professionals can represent the design as they happen. This gives a real look to the product. Some of the advantages of Rapid prototyping for 3D Designers are

* 3 D figures can be generated quickly

* High quality

* Flexibility in design changes

* Condensed prototype expenses

* Better presentation of the designs

* Accurate output

* Reduces redundancy

* Designers need very small amount of casting parts to create elaborate patterns without the use of tooling.

Seeing so many advantages definitely, you could make out how important is 3 D rapid prototyping important for designers. To know browse through our site.

3 D product design has opened the doors for more creativity. People these days look for new designs and for designers it is a tough task to give them a new improvised product regularly. If one is using the conventional method, then some designs turn out to be a failure. But with the help of popular product designing software, namely CAD, CAM, auto CAD, and 3 D printing product design things have changed.

The latest 3D Product Design Printing solution enables printing of several materials with various mechanical and physical properties concurrently. In addition to this the graphic and architectural designers can quickly see their virtual creations in 3 D model with the help of these printers. This enables them create real models of their concept. The 3 D printing product design provides designers a quick and economical way to present their designs to the clients. Further they can communicate the effectiveness of the designs quickly. Overall the final cost and delivery of 3 D product design project is considerably reduced.

Seeing the benefits of 3 D designs and printing process, you would be thinking it may be a difficult to learn how to work on this software. No not all… they are all very easy to learn. If you are interesting a 3D Printing Product Design, then contact us now. We will not only help you in buying the right printer at competitive rate but also provide you with the updated information about the industry.

Computer Aided Design (CAD) software packages uses two main methods for the creation of surfaces. The first begins with construction curves from which the 3D surface is then made or entangled through. The second way is direct creation of the surface with manipulation of the surface poles or the control points. From these initially created surfaces, other surfaces can also be made using either derived methods such as offset or angled extensions from surfaces; or through bridging and blending between groups of surfaces. There are various Freeform Surface Modeling Software available, like:-

• NX
• Catia
• ICEM Surf
• OmniCAD
• Pro/ENGINEER ISDX
• Alias
• Rhinoceros 3D

This modeling method also has the possibility of handling scattered 3D (Dimensional) points as well taking into account their equivalent uncertainties which makes this technique an appropriate technique for modeling of the free-form surfaces. These surfaces are acquired through sensing along with the integration of 3D data obtained from multiple sensors which have different linked confidences.

This technology enables manufacturers and industrial designers to reduce product-development cycles and noticeably shorten the time-to-market the new products in many industries. The functionality extends to solutions which are used in the automotive, electronics, toy, consumer goods, jewelry and footwear industries in all over the world. It also provides a cost-effective solution for building models and parts that are remarkably smooth and durable, with fine details and an exceptional surface finish. 3D printing opens up a whole new world of product design, which is used by students to create interesting and complex shapes and objects to really handle them, test them and truly evaluate them.

The 3D printers are used to create 3D models for various fields of architecture, automotive industries, education and medical sciences. These models are used for crucial designing of engines by the famous automobile industries and the mobile phone leaders. In medical science, these are used to produce Prosthetic limbs which help the disabled patients to continue further with their lives. Thus there is no field which remains untouched by the usage of three dimensional printing for quick development of prototypes.

The video game industry uses them to create various types of video games. The science sector uses them to create highly detailed models of chemical compounds. The architecture industry uses them to create models of proposed buildings and landscapes. The designing is done using these softwares of the prospective sites to be constructed thus reducing the expenses by early error detection. The engineering community uses them to design new devices, vehicles and structures as well as a number of other uses. It is also being used by students and institutions for engineering and research purposes. There is no field that has been left untouched by the revolutionary 3D softwares. The future of these software in industrial applications is on rapid development and universal growth.

The process uses a carbon-dioxide (CO2) laser to create successive cross-sections of the three-dimensional object from layers of paper with a polyethylene coating on the backside. Firstly a base is created on which the paper attaches itself. This is done by placing a special tape down onto the platform. A sheet of paper is supplied with the aid of small rollers. The, steam is used to heat the coating on the paper so that each new layer will stick to the previous layer.The system’s software slices the geometry along the vertical axis into a number of layers. A rechargeable laser cuts cross sectional layers in an outline of the materials top layer with hatched excess material After all the layers are laminated and cut the excess material is removed to expose the physical “wood like” model of the finished part and the process is termed as de-cubing.

There are multiple advantages of using LOM machines. To begin with it increases the productivity by decreasing the unnecessary machining time from days to hours in the field of manufacturing leading to the faster production of products. The LOM machine has a large Part Block that can be used to contain a large number of small parts. There is direct saving of energy due to the less need of electricity to run the machine as the laser is used to cut the material used in comparison to other processes that refine a metal model. The waste accumulated is reduced significantly. There is considerable cost reduction due to the use of low cost paper in place of photo polymer or metal and expensive machine shop labor is cut. It can operate through out night without any attendance or supervision. LOM technique is a workable option in many cases due to the reason that it uses lower material costs. It is especially suitable for large models foundry patterns, and vacuum-form tooling.

Rapid Manufacturing applications are being used by different industries ranging from medical, aerospace, automotive, consumer goods to motorsport applications to name a few. It has left a deep impact on us and found its way into our lives, homes, vehicles, bodies, recreations and sports. RM has the potential to give significant competitive edge to companies that adopt this exciting new technology and to researches engaged in this growing field.

There are numerous marketable RM systems for various materials and sizes available on the market throughout the world. The technology has seen rapid development and improvement in capability, and has been in widespread use for the past ten years or so. It has gained remarkable success by practical verification and there is no question about its future development and application in various fields. It holds very bright future prospects.