TWO-DIMENSIONAL (2D) DRAWINGS
The abbreviation for two-dimensional drawing is 2-D. It describes the view that comes with using height, width and length. Or it can be length and length dimensions. It comes with two-dimensional drawings that are established using design and drafting format. They commonly used for all engineering and architectural industries that relates to the disciplines with ease.
The two 2-D views represent the geometry of an aircraft part. It uses two views that come together and provide height, width, and length dimensions. The views mostly appear in the ﬂat format and are rotated at 90 degrees from each other.
It comes with a complete 2-D drawing that include notes, dimensions, and text that describes view details and features. 2D drawings are the conventional and need to use method for communicating a project. Along with this, it uses an effective 2-D drawing accurately with describing design intent and product requirements. It covers the shape, size, and characteristics of all materials, features, ﬁnishes, and manufacturing methods.
A 2D drawing comes with typical documents that add project data for individuals and companies that are involved in the project. It covers relevant dates, design and approvals based on revision history. The 2D drawings offer computer numerical control (CNC) machine code. When compared with 3D surface and solid models, 2D drawings use few options to present and visualise the ideas. and limited ability to analyze and test product design. In addition, 2D drawings sometimes can be difﬁcult to understand, if the reader is unfamiliar with interpreting 2D drawings.
THREE-DIMENSIONAL (3D) DRAWINGS
The abbreviation for three-dimensional is 3-D. It describes an object that have a height, a width, and depth dimensions. A wire-frame model offers the most basic 3-D CAD model, and contains data about object vertices and edges. The word vertices are plural when used for vertex. It points the edges that intersect. The wireframe is a term that describe the appearance of the model if they are constructed using wires.
Talking about three-dimensional surface, then it’s used as solid modelling placed in wireframe modelling in the CAD industry. The wireframe models come with a limited models use because they lack mass and surfaces. Without using the surfaces, the wireframe models are most difﬁcult to visualise. It comes with creating an uncertain design intent. It does not require a true representation of a product, and lack volume.
Few tools come with an ability to change or hide the format of the lines fall through object features. It improves visualisation and create a 3-D representation way, along with a view for a 2-D drawing. However, the display can cause confusion. Especially when user view the complex objects. Without using the mass or the volume, the wireframe models come with a limited ability to analyse and test products.
A wireframe model comes with a small ﬁle size that offer fast display regeneration, store edge and vertex data. Whereas, the Wireframe models serve as a basis to construct 3-D surface and solid models. It provides the geometry for 2-D drawings. One can rotate and repurposing a wireframe model by producing the 2-D views. The Wireframe models uses 3D CNC machine code with ease.
THREE-DIMENSIONAL (3D) SURFACE MODELS
A surface model use data about object vertices, edges, and surfaces. It comes with an outer boundary object that connects to vertices and edges. The surfaces display shade, color, reﬂection, and texture that helps to improve visualisation. Surfaces reduce uncertainty about design intent and offer a true representation of a product. Surface modelling provides the ability to create complex curves and forms.
3D surface modelling is commonly used for CAD industry, particularly used for conceptual design and industrial design to construct certain shapes. A surface model has zero thickness, lacks mass, and do not enclose a volume. The Surface models allow uses basic calculations that includes surface area and volume, but without mass. It comes with limited ability to analyse and test physical and inertial properties. With time the most common users of surface models are designers that primarily concerned with the external shape and appearance of a product.
The hull design is a common application for surface modelling. The automobile body panel is another example of a product that needs to have an accurate surface. It covers animations, video games, virtual reality programs, and other programs that use similar requirements to form complex surfaces, especially when solids are unnecessary and ﬁle size is generally smaller than solid model ﬁles.
Surface models serve as a basis to construct 3-D solid models, and provide the geometry for 2-D drawings. It can rotate and repurpose a surface model to produce the 2-D views and display realistic surfaces on the 3-D representation.
THREE-DIMENSIONAL (3D) SOLID MODELS
3A solid model is one of the most complex CAD formats that contains data about object edges, vertices, surfaces, and mass. Talking about Solid models, it’s most common 3-D CAD format used in the current CAD industry. It encloses a volume and has mass that allows designers and engineers to analyze the exterior and interior object characteristics. In contrast to a 2-D drawing, it offers a note that speciﬁes the material assigned to a product.
It comes with using 3-D surface model that displays a representation of material on surfaces. It assigns material to a solid model for analysing and testing physical and inertial properties. As a result, a solid model acts as a digital prototype of a product. It provides the geometry for 2-D drawings. We are best Australian Design & Drafting Services company to offer excellent CAD Design and Drafting. Contact Us to clear your doubts.