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SolidFace 3D CAD

Design CAD Technicians, Leading Industry and Enhancing Our World

Design CAD software is used to create precision drawings or technical illustrations. Some of the most amazing 2D drawings and 3D models are created using CAD software. From beautiful artistic creations to precise and innovative blueprints and plans, CAD software makes it possible to capture literally and design concept and present it in the best possible way.

What do design Technicians use CAD for? CAD software is used across various sectors of industry by architects, drafters, engineers, artists and more to create drawings and illustrations that are highly precise or of a technical nature. Any 2D or 3D model can be created with the help of CAD software.

2D flat drawings, 2.5D prismatic models, 3D models, 3D web frame and surface modeling and solid modeling are the five types of CAD that designers use in design projects. CAD has revolutionized the drafting field and made it easy for designers to draw lines and shapes, make measurements, and to scale their drawings. A good design CAD solution will accommodate all of the different design styles according to a professional’s needs.

The Benefits of CAD

CAD Technicians

In the old days, design technicians and professionals had a really hard time sketching out concepts with manual drafting. Designers and draughtsmen had countless headaches that they needed to cope with if they wanted to scale or edit a drawing. Manual drafting was an inefficient and tremendously time-consuming process.

This meant that designers often had problems meeting deadlines for their projects. Many times a drawing needed to be edited or changed at the last minute and in the worst-case scenario completely redrawn from scratch. Since the advent of CAD technology life has become much easier for design professionals, and they have become much more productive.

Design CAD software has made it possible for professionals to create extremely accurate drawings in a very short amount of time. CAD software can help you to create high precision drawings that you could never achieve with primitive tools like pencils, pens, and paper. Never before has it been so easy and convenient to create drawings and models in such a short amount of time.

CAD software enables the designer to take their work to a whole new level with the ability to zoom or rotate drawings or objects while working on them. Professionals can also links other computer programs to the design software which makes the design process easier and more efficient. Being able to zoom or draw a line that is precisely measured to scale with CAD is ten times easier than doing it via manual drafting.

Manual drafting requires the designer to determine the scale of a view before starting their drawing. One of the major benefits of CAD software is that it makes it very easy for professionals to draw to scale. CAD software enables people to first decide what units of measurements the will use and then start their drawing at 1:1 scale.

Laying out a drawing is much more convenient with CAD software than with manual drafting. When manual drafting, the designer usually has to select a sheet with a pre-printed border and title block. After an agonizing process of determining the location for the views’ plans, elevations, sections, and details, drawing can finally commence.

CAD has made the design process less of a chore so that professionals can be more productive. In contrast to the old methods of manual drafting, CAD enables you to draw your design or model in a virtual working environment called model space. Once you are happy with your drawing you can easily create a layout with the paper-space environment.

One of the most flexible ways to organize drawing information is with CAD software. Manual drafting demands that you separate information on various transparent overlays. This is often seen in architectural drafts where a building plan contains many overlays of its structural, plumbing, and electrical components. CAD software lets you achieve the same thing with higher quality and precision through layers.

Layers can be locked, protecting the content from being altered or changed. Names can also be assigned to layers, helping the designer to keep track of them. This is a much more convenient and efficient way to work and creates a higher quality end result for the drawing.

With CAD software makes it easier for professionals to set drafting standards. Manual drafting demands that standards be established at the beginning of a project and that the quality stays consistent throughout the drawing process. Conformity to industry standards can easily be achieved as CAD lets you consistently apply line-types, dimensions, and styles for text.

Pencils, scales, compasses, parallel rules, templates and erasers and a whole arsenal of drawing materials are required when a drawing is created via manual drafting. Not only are these tools expensive but they are tedious to transport or carry around. Design CAD software like SolidFace makes it easy for you to access everything that you need straight from your computer or laptop which you can also use to work from virtually anywhere.

CAD drawing becomes a much more efficient process as you can get access to virtually any tool that you need when you need it. Aside from this, moving, copying, rotating or mirroring objects is within reach of a mouse click. This saves time and makes it easier for professionals to get their work done and meet deadlines.

Not only does CAD increase drawing efficiency, but the accuracy of your drawings are greatly improved. CAD software provides several methods for obtaining the exact dimensions needed for a precise end result. This saves time as manual drafting requires objects to be drawn carefully to ensure that they are correctly aligned and of the right size.

Manual drafting is also very limited as the size and resolution of your drawing is fixed in place. CAD software changes all of this by allowing you to zoom, pan or rotate and see a drawing from every possible viewpoint. This makes it easy for professionals to change the size and resolution of their drawing as needed.

This is especially useful if you want to change the dimensions of your drawing. Manual drafting requires the lines of a drawing to be erased and that the dimensions be redrawn if the designer wants to resize any part of the drawing. Design CAD software like SolidFace allows you to create associative dimensions on the layout in paper space.

There comes a time where every designer has to modify their drawings or make revisions to the project. Regardless of whether your drawings were made on paper or designed with CAD, the need for modifications will always arise. CAD makes this a simple process because it eliminates the need to constantly erase and redraw manual revisions.

Is Cad Hard to Learn?

Design CAD software like Solidface makes it possible for professionals to be more productive and to get better quality results in a shorter amount of time. Becoming an industrial design CAD technician will mean that you will utilize sketching and digital tools to draw up plans for manufacturing, engineering and construction projects. Even though CAD software has a higher learning curve, having a lesson plan can make learning the software an easier process.

Your professional background and level of drawing skill will also determine how long it will take you to use the features offered by a CAD solution effectively. An ability to grasp concepts is another factor that will determine how fast a student will progress with getting familiar with the CAD software. This is because CAD software enables a designer to achieve a vast majority of things.

The best way to learn CAD is to have a commitment to learning and access to the right tools. SolidFace is among the forerunners when it comes to choosing a CAD software solution. This is because the software is very user-friendly and can also do everything that your regular CAD solution can do and more.

For most professionals, the longer that they work with the software, the more confident they become. This is because continuous use of the software over time creates familiarity when it comes to implementing certain concepts. For the most part, improvement comes through continued learning and practice.

Creativity and innovation have always been major influences that lend themselves to a designer’s career. CAD design software is built to simplify the drawing or modeling process for professionals and students and is made to accommodate how they think. The software is a great aid in the visualization of design concepts.

As many CAD solutions are too limited to cover an entire business design process SolidFace stands out as an exception to the rule. SolidFace is much more cost-effective as it covers a wide variety of demands required by businesses in the design industry. This eliminates the need for a whole suite of CAD applications and streamlines the production process.

How long it will take you to learn how to use CAD software will depend on whether you are learning how to make 2D or 3D drawings. For those who are already computer literate, it usually takes about 6 months of continuous study. This also depends on the relative field of drafting that the student will be studying in i.e. mechanical engineering,  architecture, etc.

Some of those who are new in their design careers mistakenly think that they will progress quicker by learning from the cheapest and easiest CAD solution that they can find. The truth is that the best way to learn is from a tool that has the optimal balance of learning curve capabilities. SolidFace is the best tool for students who are learning CAD and want to progress in their chosen fields of study.

Another deciding factor that influences the time period in which an individual will learn how to use CAD software solutions is whether they are self-taught or learning from a design course. Solid face provides many CAD tutorials and videos that help students to improve their design skills. These tutorials are totally free to use and can easily be found on under the “learn” section of the website or from the SolidFace YouTube channel.

Solidface Benefits Architects

CAD software is frequently used in the architectural industry and has changed the way that the world works. Traditional drafting methods like pen and paper where replaced by CAD software and this has enabled architects to plan, stimulate and produce new concepts with a single program. The intricacies of the planning, design and evaluation processes in the architectural industry has been revolutionized by the advent of computer-aided design tools.

CAD has met many of the needs and demands of professionals working in the architectural industry on a number of levels. This has lead to the rise of computer-aided-architectural design or CAAD. CAD software helps architects implement their construction knowledge and supports the creation of architectural objects in their projects.

Planning and design used to be a very time-consuming process for architects and drawings were manually drafted with pen and paper.  Aside from being a long design process inaccuracies were more likely to show up in architectural design plans. Portraying buildings in their full three-dimensional form was a difficult task.

Even though CAD has been used more frequently by architects due to its convenience, it has not completely replaced pen and paper methods of drafting. Some architects still prefer to sketch out initial concepts on paper and then transfer the designs to CAD software. Completing the project with CAD solution software shaves hours of the design process.

Thanks to the precision. accuracy and multidimensional capabilities that SolidFace provides, architects can create sleeker and more extensive plans. SolidFace also makes it easier for architects to share and collaborate with others on their designs. This means that more people can easily access project files and work together.

The process of editing and revising work has sped up immensely creating an environment for more productive workflow. Due to being able to store design plans and features the need to start from scratch every time has been practically eliminated. Designs can easily be revised by simply copying any feature from one design to another.

CAD has also enabled architects to use their 2D plans to create 3D models and designs. Without needing to build any physical structures or models, architects can visualize and simulate their entire project using real-world parameters. CAD enables architects to view various aspects and perspectives of their building within a single program.

The use of CAD software in the architectural industry has also made it easier to communicate with clients about project details. Problems and adjustments can easily be remedied and the plans can be altered according to specific insights. Architects can also impress their clients or present them with the planned outcome of a product via a three-dimensional virtual tour.

SolidFace Benefits Engineers

Replacing the drawing board and speeding up the design process, CAD has enhanced the way that engineers design their projects. With the advent of this revolutionary software engineers can explore ideas, visualize concepts, and simulate and produce designs. This has increased productivity and efficiency within the engineering industry a hundredfold.

The history of CAD and engineering goes back more than 50 years. Computer-aided design software started gaining traction as a tool for heavy industries in the 1970’s. Ten years later CAD systems started appearing in the engineering industry, especially in sectors related to shipbuilding, aerospace, and automotive manufacturing.

A completely new way of engineering and designing was brought about by the introduction of CAD software. Engineers were now enabled by these innovative programs to set clear parameters, features, and relationships. Engineers in the sector of transportation were able to make huge strides in the planning the designs of aircraft like Boeing airline carriers.

CAD has revolutionized the engineering industry and still continues to do so today. The roles of drafters, designers, and engineers were starting to merge due to this amazing technology. Even today many of the roles of design CAD careers overlap.

Designs, specifications, and models for mechanical components or systems are produced within the engineering industry through the use of CAD systems. Conceptual stages, strength analysis and manufacturing methods for components are all parts of the engineering process that make use of CAD. CAD is used throughout every single aspect of the engineering process.

The engineering industry demands quality, accuracy, and precision. CAD software provides the efficiency and precision that is needed for the manufacturing of parts and components. This helps raise standards and lowers production costs.

During the manufacturing process in the engineering industry, engineers often have to make changes to designs. Blueprints and designs no longer have to be redrawn when engineers need to modify a product. Engineers isolate, analyze and redesign individual components through reusing elements from previous designs.

One of the major advantages that CAD provides to the engineering industry is the use of design simulations. Engineers can fully analyze and inspect aspects of a project through the use of 3D simulations. Stress levels can be measured, the flow of liquids can be simulated, and the tolerances of a design can be calculated.

This really saves a lot of money when it comes to manufacturing costs. The strengths and weaknesses of a design can be identified through a virtual simulation before the product is manufactured. The risk of discovering problems after the manufacturing process is dramatically reduced for engineers due to CAD software’s ability to locate flaws and troubleshoot problems.

The performance of a prototype can be tested by including it in simulations for different environments. Engineers can easily see how much strength a prototype will have by placing it in an extreme environment. Sometimes it is hard to reproduce these testing environments in real-world applications.

The rendering capabilities and other tools that come with CAD solutions meet the engineer’s specific design needs. Engineers analyze the performance of components and assemblies through the use of CAD tools. SolidFace encompasses simulation, validation, and optimization of products and manufacturing tools.

Instead of physical prototype testing design verification is now completed through computer simulations through the use of CAD software. CAD is used most in the engineering industry for design optimization, design validation and prediction of product performance.

There are a number of reasons why the engineering industry has come to trust and rely on CAD. Access to hundreds of capabilities is provided to engineers through the use of CAD software. Engineers can also analyze and measure each component of their projects with ease.

Related Questions

What are the major benefits of using CAD?

Professionals benefit from using CAD in many ways. Some of the ways that designers benefit from using CAD in their relative sector of industry is enhanced precision and control, faster design execution, cost efficiency, better documentation, and collaboration. Every day more and more professionals are embracing CAD solutions and making it part of their design process. 

What types of engineers use CAD?

CAD is widely used across the different sectors of the engineering industry. Sectors of engineering that use CAD solutions include civil engineering, computer engineering, drafting and design engineering, electrical engineering and more. 

What are the main elements of CAD?

The main elements of CAD are:

  • Computer-aided analysis
  • Computer-aided visualization
  • Computer-aided synthesis

Why is computer-aided visualization important?

Computer-aided visualization is an important element of CAD because visualization plays a key role in the design process. Looking at all of the possibilities and real-world applications before delivering an output is important to the designer. CAD reduces the amount of assumptions by allowing professionals to see the prototype of the output before a project is finalized. 

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