Save Money with Free CAD Software

These days, CAD software often offers an enormous amount of functionality albeit at an extremely high price tag which only large enterprises can usually afford. Upgrade subscriptions in addition to the cost of the CAD suite also make such solutions an expensive long-term commitment. While such solutions clearly have their place among the most demanding computer aided designers, the average user simply doesn’t need them. In other words, why spend so much money on a Swiss army knife when all you need is a screwdriver? nanoCAD is a solution to address the problem by providing a completely free and user-friendly solution for those who have more specific requirements when it comes to computer aided design. With many features and using the popular .NET framework, nanoCAD is the ultimate free CAD software out there.

Not only is nanoCAD completely free of charge, it also provides many features which are found in some of the most popular (and expensive) CAD programs on the market. nanoCAD provides fully functional 2D drafting tools as well as various modeling and editing functions which help you achieve professional results in less time. The user interface is standardized for the industry and provides a familiar set of commands and features which help to minimize the learning curve. If, for example, you have used AutoCAD before, you will find nanoCAD extremely straightforward straight out of the box and absolutely no training will be required at all. For easy collaboration, the DWG format is supported as is compliance with older data. There is also an open API for further development by way of a fully AutoCAD-compatible programming platform. You can make your own CAD applications and add-ons using this open-source solution.

The free CAD software provides a wide set of additional features as well, such as a comprehensive command set and a toolbox for editing and creating both 2D and 3D objects. There is a powerful Excel-style table editor and extended plotting capabilities.

Generally speaking, nanoCAD provides the same level of functionality as AutoCAD LT, with the fundamental difference being that it is offered completely for free and with an open API. nanoCAD also leaves a small footprint on your computer’s hardware resources requiring only 150 megabytes of installation space on your hard disk.

nanoCAD is suitable for a wide range of users of varying demands and requirements. For engineers and designers who deal with any kind of technical drawings, nanoCAD provides all of the features and power that the majority of users will ever need, without bogging them down with abundant extra features which are extremely rarely used. With unique, customizable and collaborative features, nanoCAD is ideal for enhancing efficiency and getting work done in less time and without spending any money. With free CAD software, designers will be able to enjoy the tools they need to get most of their daily work done more efficiently.

You can learn more about nanoCAD at the official product website at nanocad.com. There is a brief and simple registration process and within minutes you can be using your free CAD software.

Save Money with Free CAD Software

These days, CAD software often offers an enormous amount of functionality albeit at an extremely high price tag which only large enterprises can usually afford. Upgrade subscriptions in addition to the cost of the CAD suite also make such solutions an expensive long-term commitment. While such solutions clearly have their place among the most demanding computer aided designers, the average user simply doesn’t need them. In other words, why spend so much money on a Swiss army knife when all you need is a screwdriver? nanoCAD is a solution to address the problem by providing a completely free and user-friendly solution for those who have more specific requirements when it comes to computer aided design. With many features and using the popular .NET framework, nanoCAD is the ultimate free CAD software out there.

Not only is nanoCAD completely free of charge, it also provides many features which are found in some of the most popular (and expensive) CAD programs on the market. nanoCAD provides fully functional 2D drafting tools as well as various modeling and editing functions which help you achieve professional results in less time. The user interface is standardized for the industry and provides a familiar set of commands and features which help to minimize the learning curve. If, for example, you have used AutoCAD before, you will find nanoCAD extremely straightforward straight out of the box and absolutely no training will be required at all. For easy collaboration, the DWG format is supported as is compliance with older data. There is also an open API for further development by way of a fully AutoCAD-compatible programming platform. You can make your own CAD applications and add-ons using this open-source solution.

The free CAD software provides a wide set of additional features as well, such as a comprehensive command set and a toolbox for editing and creating both 2D and 3D objects. There is a powerful Excel-style table editor and extended plotting capabilities.

Generally speaking, nanoCAD provides the same level of functionality as AutoCAD LT, with the fundamental difference being that it is offered completely for free and with an open API. nanoCAD also leaves a small footprint on your computer’s hardware resources requiring only 150 megabytes of installation space on your hard disk.

nanoCAD is suitable for a wide range of users of varying demands and requirements. For engineers and designers who deal with any kind of technical drawings, nanoCAD provides all of the features and power that the majority of users will ever need, without bogging them down with abundant extra features which are extremely rarely used. With unique, customizable and collaborative features, nanoCAD is ideal for enhancing efficiency and getting work done in less time and without spending any money. With free CAD software, designers will be able to enjoy the tools they need to get most of their daily work done more efficiently.

You can learn more about nanoCAD at the official product website at nanocad.com. There is a brief and simple registration process and within minutes you can be using your free CAD software.

History of Computer Aided Manufacturing

Computer Aided Manufacturing (CAM) is one of the software automation processes that directly convert the product drawing or the object into the code design that enables the machine to manufacture the product. It is used in various machines like lathes and milling machines for the product manufacturing purposes. It allows the computer work instructions to communicate directly to the manufacturing machines.

The mechanism of CAM developed from the Computer Numerical Machines (CNC) in the early 1950s. These systems were directed by a set of coded instructions in a punched paper tape. The proposal to develop the first numerically controlled machine was commissioned to the Massachusetts Institute of Technology (MIT) from the US Air Force in the year 1949. The entire proposed idea of developing this machine was demonstrated in the year 1952.

The motivation factor in developing these kinds of numerically automated machines involves the expensive costs in manufacturing the complex curved geometries in 2D or 3D constraints mechanically. The development of these machines considers the factors like easier programming in CAM and easy storage of programs. A program can be changed easily and avoid manual errors. Numerically controlled machines are safer to operate, and the complex geometry comes at a reasonable price.

James T. Parsons proposed the concept of the numerical control operations during the year of 1948. In 1950, the MIT servo mechanism lab developed the Numerical Control (NC) milling project. The remaining program parts were released in the later period of 1952 along with the first successful demo version. After 1955, major companies in the industry developed their own machine designs.

IBMs Automatic Tool Changer in the year 1955, G & Ls first production of the skin-miller in the year 1957, and the machining center developed by K & T have all been considered to be major developments to promote the technology with more benefits. CAD drafting and the sculptured surfaces were developed in the year 1965; 7,700 NCs were also installed during the same year.

During the year 1967, the concept of developing the CNC machine was proposed. The existence and the major development of the CAD/CAM machines evolved during the year 1972. 3D CAM/CAD systems were introduced in 1976. Expert CAM/CAD systems were developed in the year 1989. The major development of the CAM systems provides you with easier manufacturing of objects with high efficiency.

History of Computer Aided Manufacturing

Computer Aided Manufacturing (CAM) is one of the software automation processes that directly convert the product drawing or the object into the code design that enables the machine to manufacture the product. It is used in various machines like lathes and milling machines for the product manufacturing purposes. It allows the computer work instructions to communicate directly to the manufacturing machines.

The mechanism of CAM developed from the Computer Numerical Machines (CNC) in the early 1950s. These systems were directed by a set of coded instructions in a punched paper tape. The proposal to develop the first numerically controlled machine was commissioned to the Massachusetts Institute of Technology (MIT) from the US Air Force in the year 1949. The entire proposed idea of developing this machine was demonstrated in the year 1952.

The motivation factor in developing these kinds of numerically automated machines involves the expensive costs in manufacturing the complex curved geometries in 2D or 3D constraints mechanically. The development of these machines considers the factors like easier programming in CAM and easy storage of programs. A program can be changed easily and avoid manual errors. Numerically controlled machines are safer to operate, and the complex geometry comes at a reasonable price.

James T. Parsons proposed the concept of the numerical control operations during the year of 1948. In 1950, the MIT servo mechanism lab developed the Numerical Control (NC) milling project. The remaining program parts were released in the later period of 1952 along with the first successful demo version. After 1955, major companies in the industry developed their own machine designs.

IBMs Automatic Tool Changer in the year 1955, G & Ls first production of the skin-miller in the year 1957, and the machining center developed by K & T have all been considered to be major developments to promote the technology with more benefits. CAD drafting and the sculptured surfaces were developed in the year 1965; 7,700 NCs were also installed during the same year.

During the year 1967, the concept of developing the CNC machine was proposed. The existence and the major development of the CAD/CAM machines evolved during the year 1972. 3D CAM/CAD systems were introduced in 1976. Expert CAM/CAD systems were developed in the year 1989. The major development of the CAM systems provides you with easier manufacturing of objects with high efficiency.

Fun Facts About Interior Design

Interior design is basically the practice that deal with the placement and design of furnishings and other elements inside a space like windows, walls, doors, textures, finishes, light, and furniture is called interior deign. All of the said elements are manipulated by an interior designer in order to make the most functional space.

2. Interior designers may plan on various space like offices, homes, airport terminals, shopping malls, hotels, restaurants, schools, and hospitals. One should not confuse interior design with interior decoration as the latter is focused on the selection of color palettes to go with complimentary furniture, window coverings, flooring, lighting, and artwork. Today most interior decorators need to be familiar with architectural detailing like home renovations, floor plans, and construction codes.

3. Interior designers may specialize in a distinct discipline like residential and commercial design, health care, hospitality and institutional design. In areas where profession is government-regulated the designer must have particular qualifications. The designer should also show competency not just in his or her specialty but in the entire profession.

4. Specialty areas involving interior designers are continuously growing and evolving. With an aging population in most countries the focus has been on developing solutions that improve the environment especially for the elderly.

5. There are many disciplines involved in interior design like function, structure, special group needs, specialized performance, discipline for business, presentation skills, computer technology, craft skills, and aesthetic disciplines, among others. The many disciplines that are involved in interior designing shows how encompassing interior designing is. The field of interior designing also requires an interior designer to be adept in science and technology, and be creative as well.

6. The process of providing interior designing services is identical regardless of the type of building. First the interior designer will determine the objectives, time frame and budget of the client. This is referred to as taking a brief. The aim is always to improve the revenue potential of the clients, since even homeowners need to consider the value of their property. Then the designer will outline a cost estimate for the project including the design output and corresponding expenses. Drawings are also required prior to commencing design work.

7. Computer-aided design is normally used by designers these days although hand sketches still remain valuable for their personality. Also called CAD, this is a program that is used to communicate the design in realistic views and various angles. CAD eliminates the need to work on long hours for hand drawing and sketching.

8. After the survey and provision of the working drawing the client will be given an initial concept for approval. Once this is approved the floor plans, alternations, finishing, and furnishings follow. Most probably doors, walls, and windows will be repositioned as well.

9. Employment of interior designers may vary like any other profession. Interior designers may take on regular day jobs with large corporations. Others may take on a project basis. There are designers who need to adjust their working hours in order to suit the needs of the client, meaning they have to work for a lot of hours. Those who are self employed however have a lot of pressure to get clients in order to get themselves adequate income.

10. Interior designers usually travel from one place to another, visiting the offices or homes of their clients. Interior designers earnings likewise differ based on their employer, years of experience, and their reputation.

If you are looking into changing the interior design of a room in your house, your entire house or your office, try to look up the Asheville builders and the Asheville construction company. They would surely be able to provide you with the best service and with exactly what you are looking for.

The Importance Of Mastercam Software In The Manufacturing Industry

Mastercam software is one of the most important breakthroughs in manufacturing technology. Together with CAD software, they are collectively referred to as CAD/CAM. CAD/CAM is an acronym that stands for Computer Aided Design and Computer Aided Manufacture. With these special programs, engineers, architects and designers can use computers to design products and structures with relative ease. Using Mastercam software, engineers and machinists can use the digital information created using CAD software to manufacture products and parts accurately in a timely manner.

The first CAD/CAM software was introduced back in the year 1983 and the technology has steadily been improving since then. Professionals from different industries can use these programs to create modern conveniences like machines and structures that make our way of life possible. The industries that benefit from these tools include the construction industry, the manufacturing industry, the engineering industry, the architectural industry and many others. Computer Aided Design software allows designers to create and design virtual blueprints of parts on a computer. These virtual blueprints contain important data like measurements and dimensions. On the other hand, Computer Aided

Manufacturing software like Mastercam software allows machinist to implement the virtual blueprints created using Computer Aided Design software during the manufacturing process. Computer controlled machines use the data from these blueprints to accurately manufacture parts that conform to the data from the CAD files. If you want to pursue a career in the modern manufacturing industry, then you will have to undergo Mastercam training. Only then will you be eligible to work with the expensive and complex machines that produce the things that make our way of life possible.

While there are many examples of CAD/CAM software out in the market today, Mastercam software is arguably the industry standard. This is partially because this software was created by one of the oldest and most trusted players in the development of CAD/CAM software. Mastercam software uses a large array of predefined toolpaths that can control processes like advanced multiaxis, surface high speed, engraving, peel mill, face, pocketing, drill and contour. This software was also designed from the ground up for use by engineers and machinists. Aside from the predefined toolpaths, machinists and engineers can also create their own toolpaths. This software is extremely versatile and an able professional who has undergone proper Mastercam training can accomplish a lot with it.

Aside from the features stated above, Mastercam software is also compatible with many third party applications that can be used to further extend its capabilities. These third party applications are referred to as C-hook and they may be used to create customized machine specifications for use in special situations.

In the world we live in, computers are playing a more important role. These days, we use computers for almost any task you can think of and the manufacturing industry is no exception. Mastercam software allows companies to manufacture products and parts at higher speeds and greater efficiency while maintaining high levels of quality, uniformity and consistency. Without CAD/CAM software, engineers and other professionals would be hard pressed to meet the growing demands of our increasingly technology-dependent society.