Corel 3d modeling

To understand Corel 3D modeling, it’s crucial to clarify that CorelDRAW, while a powerhouse for vector graphics and illustration, does not natively offer robust 3D modeling capabilities in the same vein as dedicated 3D software like Blender, AutoCAD, or SketchUp. While you can create a sense of depth and perspective using tools within CorelDRAW—for instance, extrusions, bevels, and perspective grids—these are essentially 2D effects that simulate 3D appearances rather than true 3D object creation. If you’re looking to delve into actual 3D design for printing, animation, or complex visualizations, you’ll need specialized 3D software. Corel does offer a partnership with a company called CorelCAD, which is a powerful CAD software for 2D drafting and 3D design. For those interested in expanding their graphic design toolkit beyond 2D and exploring Corel’s broader ecosystem, including potential pathways to 3D, consider checking out 👉 Corel Draw Home & Student 15% OFF Coupon Limited Time FREE TRIAL Included. This can provide a solid foundation in vector design, which is often a precursor or a complementary skill to 3D rendering. The difference between 3D basics and 3D modeling in AutoCAD, for example, highlights this distinction: “3D basics” might involve viewing and basic manipulation of existing 3D models, while “3D modeling” implies creating new objects from scratch. CorelDRAW falls more into the former category when it comes to 3D, focusing on visual effects rather than geometric construction. While CorelDRAW allows for some fantastic mock-ups and visualisations, true Corel 3D modeling as a standalone comprehensive feature set isn’t what its primary offering is.

Understanding CorelDRAW’s “3D” Capabilities: More Simulation, Less Construction

CorelDRAW is renowned for its vector illustration, page layout, and photo editing prowess. However, when users search for “Corel 3D modeling” or “CorelDRAW 3D model,” they often encounter a nuanced reality. CorelDRAW does not possess true polygon or NURBS-based 3D modeling tools like those found in dedicated 3D software. Instead, its “3D” capabilities are primarily focused on simulating depth and perspective within a 2D environment. This distinction is critical for users to understand before in. It’s about visual effects and presentation, not about constructing geometrically accurate 3D objects for engineering or additive manufacturing.

Extrude Tool: Adding Depth to Objects

One of CorelDRAW’s most powerful tools for creating a sense of three-dimensionality is the Extrude tool. This feature takes a 2D vector object and extends it into a third dimension, creating a perceived depth. It’s excellent for adding visual weight and making elements pop off the page.

• How it works: The Extrude tool allows users to define the depth of the extrusion, the direction, and even apply lighting effects to give the illusion of a solid object. You can control the vanishing point for perspective extrusions, making objects appear to recede into the distance.
• Applications:
  • Logos and Typography: Creating bold, dimensional logos or text that stands out, often seen in branding or headlines. For example, a client might request a logo with a “3D pop,” and the Extrude tool is perfect for this.
  • Illustrations: Adding depth to illustrations, such as making a button or a badge appear raised.
  • Product Mock-ups: While not true 3D models, designers can create compelling mock-ups of packaging or product faces that simulate depth. For instance, a box design can be extruded to show its sides, giving a more realistic presentation.
• Limitations: It’s important to remember that the output is still a 2D vector graphic. You cannot rotate the object freely in 3D space, nor can you export it as a standard 3D file format like .OBJ or .STL for 3D printing. A common misunderstanding is that an extruded object can be directly used in a 3D printer. this is incorrect.

Bevel Tool: Refining Edges for a Sculpted Look

Complementary to extrusion, the Bevel tool in CorelDRAW adds a sculpted or rounded edge to objects, further enhancing the illusion of 3D. This is particularly effective for buttons, icons, or text.

• Types of Bevels: CorelDRAW offers various bevel styles, including “Soft Edge” and “Emboss,” allowing designers to choose how the edges appear, from subtle rounding to a more pronounced, raised effect.
• Controlling Attributes: Users can adjust the width and depth of the bevel, the light source, and even the color of the bevel to blend seamlessly with the object or create a distinct highlight/shadow.
• Impact on Visuals: Bevels can significantly elevate the professionalism of a design, making flat objects appear tactile and refined. Data shows that well-executed bevels can improve click-through rates on digital buttons by up to 15% due to their perceived affordance.
• Integration with Other Effects: Bevels often work in tandem with the Extrude tool and drop shadows to create a truly convincing faux-3D effect. For instance, a metallic button might use a bevel for its edge, an extrusion for its body, and a subtle drop shadow to ground it.

CorelDRAW’s Perspective and Shadow Tools: Enhancing the Illusion

Beyond direct “3D” effects, CorelDRAW offers powerful tools that contribute to the overall perception of depth and realism in 2D designs.

These are essential for creating convincing scene compositions and giving objects a grounded feel.

Perspective Tool: Distorting Objects for Depth

The Perspective tool allows you to apply a vanishing point perspective to any 2D object or group of objects. This is fundamental for creating the illusion of distance and spatial relationships.

• Applying Perspective: You can drag the corners of a bounding box to define a single-point or two-point perspective, making objects appear to recede into the background or stretch into the foreground. This is especially useful for mock-ups of signs, billboards, or book covers.
• Real-world Applications: Designers frequently use the Perspective tool to:
  • Product Packaging Mock-ups: Placing a flat label design onto a mock-up of a bottle or box.
  • Architectural Visualizations: Creating quick mock-ups of building facades or interior elements.
  • Environmental Graphics: Designing banners or signs that appear to fit into a specific architectural setting.
• Integration with Smart Objects: In some workflows, designers might bring a 2D design into a program like Photoshop as a Smart Object, then use its perspective transform tools to place it realistically onto a photo of a product or scene. While CorelDRAW handles the initial vector creation, the final perspective application might occur in a compositing tool.

Drop Shadow Tool: Grounding Objects and Creating Separation

The Drop Shadow tool is a simple yet incredibly effective way to add depth, separate objects from the background, and simulate lighting conditions.

• Customization: Users can control the shadow’s color, opacity, feathering blur, and direction. This allows for shadows ranging from sharp and defined to soft and ambient.
• Importance of Realism: A well-applied drop shadow can make a flat object appear as if it’s floating above the surface, giving it volume and a sense of presence. Conversely, a poorly applied shadow can make a design look amateurish. According to UX design principles, subtle shadows can improve visual hierarchy by up to 20%.
• Types of Shadows:
  • Hard Shadows: Used for direct light sources, creating sharp, distinct shadows.
  • Soft Shadows: Mimic ambient light, resulting in diffused and blurry shadows.
  • Inner Shadows: Can be used to create the illusion of an object being cut into a surface.
• Beyond Drop Shadow: While CorelDRAW focuses on visual effects, dedicated 3D software calculates shadows based on light sources and material properties, which provides a level of realism impossible to achieve with 2D tools alone.

CorelCAD: The True 3D Design Solution from Corel

For users genuinely interested in 3D modeling, especially in technical and engineering contexts, Corel’s offering is CorelCAD. It’s crucial to differentiate CorelDRAW from CorelCAD, as they serve different purposes. CorelCAD is a standalone computer-aided design CAD application developed by Corel, leveraging the ARES CAD platform. It provides robust tools for both 2D drafting and comprehensive 3D design, making it a direct competitor to software like AutoCAD.

What is CorelCAD?

CorelCAD is a professional-grade CAD software designed for precision drafting and 3D modeling.

It’s aimed at engineers, architects, construction professionals, and designers who need to create accurate technical drawings and realistic 3D prototypes. Sell original art

Unlike CorelDRAW, which is primarily a vector illustration program, CorelCAD is built from the ground up for geometric accuracy and design validation.

• Key Features:
  • Native .DWG Support: CorelCAD works natively with the industry-standard .DWG file format, ensuring seamless collaboration with other CAD users e.g., AutoCAD users. This is a significant advantage for interoperability.
  • Full 2D Drafting Tools: Includes a complete suite of tools for precise 2D drawing, dimensioning, and annotation.
  • Solid 3D Modeling: Offers comprehensive tools for creating, editing, and manipulating 3D solid objects using primitive shapes boxes, cylinders, spheres, Boolean operations union, subtract, intersect, and extruded/revolved profiles.
  • Surface Modeling: Allows for the creation of complex free-form surfaces.
  • Mesh Modeling: Supports the creation and editing of mesh objects for more organic forms.
  • Industry Standards: Complies with industry standards for CAD, making it suitable for professional workflows.
• Target Audience:
  • Architects: For floor plans, building designs, and 3D architectural visualizations.
  • Engineers: For mechanical part design, assembly modeling, and technical schematics.
  • Construction Professionals: For site plans, structural details, and quantity take-offs.
  • Product Designers: For creating detailed 3D prototypes and manufacturing specifications.

CorelCAD vs. CorelDRAW for 3D

The fundamental difference lies in their core functionality and purpose.

• CorelDRAW: Primarily a 2D vector graphics and illustration program. Its “3D” features are visual effects that simulate depth. It excels at branding, print design, web graphics, and artistic illustrations.
• CorelCAD: A dedicated CAD software for technical drafting and true 3D modeling. It excels at creating precise, measurable, and manufacturable 3D objects.

Think of it this way: If you want to design a beautiful, stylized 3D-looking logo for a t-shirt, CorelDRAW is your tool. If you want to design a functional 3D-printable prototype of a mechanical part, CorelCAD is what you need. Attempting to use CorelDRAW for true 3D modeling would be like trying to build a house with a paint brush – you can create a drawing of a house, but not the house itself.

The Intersection of 2D and 3D in Design Workflows

While CorelDRAW and CorelCAD serve different primary functions, they can be complementary in a broader design workflow, particularly when it comes to visualization and presentation.

The concept of “Corel 3D modeling” might arise from the desire to leverage CorelDRAW’s excellent 2D capabilities within a 3D context.

Importing and Exporting: Bridging the Gap

Designers often need to move assets between 2D and 3D environments.

CorelDRAW’s ability to export various vector and raster formats can be useful here.

• 2D to 3D:
  • Vector Profiles: You can design precise 2D profiles like a logo, a specific shape, or a cross-section of an object in CorelDRAW and then export them as .SVG, .DXF, or .AI Adobe Illustrator files. These vector files can then be imported into dedicated 3D modeling software like CorelCAD, Blender, Fusion 360, etc. and extruded, revolved, or used as a base for more complex 3D forms. This is a common workflow for designers creating custom logos or intricate patterns that need to be applied to 3D objects or rendered in 3D.
  • Raster Textures: CorelDRAW can also be used to create detailed textures or decals that are then exported as high-resolution raster images .PNG, .JPG and applied to 3D models in other software. For example, a designer might create a detailed label design in CorelDRAW, then map it onto a 3D bottle model in a rendering program.
• 3D to 2D:
  • Rendered Views: 3D models created in CorelCAD or other 3D software can be rendered into 2D images from various angles. These high-quality renders can then be imported into CorelDRAW for layout, text additions, further graphic enhancements, or integration into brochures, presentations, or marketing materials. This allows designers to combine the realism of 3D with the flexibility of CorelDRAW’s page layout tools.
  • Technical Drawings: CorelCAD can generate precise 2D technical drawings from 3D models. These drawings, often in .DWG or .DXF format, can be imported into CorelDRAW for annotation, adding supplementary graphics, or preparing for print.

The Role of Visualization

For many businesses, the goal isn’t always to create a functional 3D model for manufacturing, but rather to create compelling visual representations of products or concepts.

Here, CorelDRAW’s ability to simulate 3D plays a crucial role.

• Marketing Materials: Creating brochures, advertisements, or web graphics that showcase products with a sense of depth and realism, even if the underlying product is a 2D graphic.
• Concept Art: Rapidly prototyping visual concepts for clients, demonstrating how a design might look in a “3D” context without the need for extensive 3D modeling.
• Mock-ups: Presenting designs on mock-ups of devices, packaging, or signage with applied perspective and shadows to make them appear realistic. While not true 3D, these mock-ups are often sufficient for client approval and marketing purposes. For example, a clothing brand might use CorelDRAW to place their logo realistically on a flat image of a t-shirt, giving it a perceived dimensionality.

CorelDRAW and its Integration with Other Design Software

While CorelDRAW isn’t a standalone 3D modeling solution, its position as a robust vector editor means it often acts as a feeder or recipient in design pipelines involving 3D. Understanding its place in the ecosystem is key. Background photo editor for pc

Companion Software for True 3D Modeling

If your project explicitly requires true 3D modeling—beyond what CorelDRAW’s effects can provide—you will need to use dedicated 3D software.

CorelDRAW can still play a role in preparing assets or refining outputs.

• Blender Open Source: A powerful, free, and open-source 3D creation suite that supports modeling, sculpting, animation, rendering, and more. CorelDRAW can be used to create vector logos or patterns that are then imported into Blender for extrusion or texture mapping onto 3D objects.
• SketchUp Trimble: Known for its user-friendly interface, SketchUp is popular for architectural, interior design, and woodworking projects. CorelDRAW could create 2D floor plans or furniture profiles that are then imported and extruded in SketchUp.
• AutoCAD Autodesk: A highly respected CAD software for 2D drafting and 3D modeling, especially in architecture, engineering, and construction. CorelCAD is Corel’s direct competitor to AutoCAD. The term “difference between 3D basics and 3D modeling in AutoCAD” highlights that even within a dedicated CAD software, there are varying levels of 3D interaction.
• Fusion 360 Autodesk: A cloud-based 3D CAD, CAM, and CAE tool often used for product design and manufacturing. CorelDRAW can generate vector designs for laser cutting or etching which are then applied to 3D models within Fusion 360.
• ZBrush Maxon: Specializes in digital sculpting, ideal for organic models and high-detail character design. CorelDRAW is less directly integrated here, but might be used for creating initial concept sketches or refining final rendered images.

Leveraging Vector Graphics in 3D Environments

The precision and scalability of vector graphics created in CorelDRAW are highly valuable in 3D workflows.

• Logos and Branding: A company’s logo, meticulously crafted in CorelDRAW, can be imported into 3D software and extruded, beveled, or mapped onto surfaces of 3D product models, architectural renderings, or animated scenes. This ensures brand consistency across all visual mediums.
• Patterns and Textures: Complex patterns or intricate designs developed in CorelDRAW can be converted into seamlessly tileable textures for 3D models. This adds a layer of detail and realism that would be difficult to achieve solely within 3D software. For instance, a detailed Islamic geometric pattern designed in CorelDRAW could be applied as a texture to a 3D architectural element.
• Cut Paths for Manufacturing: For products that involve laser cutting, CNC machining, or vinyl cutting from 3D models, CorelDRAW can be used to refine the 2D cut paths extracted from the 3D model, ensuring precision before fabrication.

Best Practices for Simulating 3D in CorelDRAW

While not true 3D modeling, mastering the art of “faux 3D” in CorelDRAW can significantly enhance your designs. Here are some best practices.

Strategic Use of Lighting and Shadows

Effective lighting and shadowing are paramount for creating convincing depth in 2D.

• Consistent Light Source: Always imagine a single, consistent light source in your scene. All shadows and highlights should emanate from this theoretical light source. Inconsistent lighting immediately breaks the illusion of depth.
• Multiple Shadow Layers: Don’t just rely on a single drop shadow. Consider adding:
  • Contact Shadows: Subtle, dark shadows directly beneath an object where it meets a surface.
  • Ambient Shadows: Softer, diffused shadows that indicate overall depth and volume.
  • Cast Shadows: Shadows projected by an object onto another surface, indicating its position relative to the light source.
• Highlights and Midtones: Use lighter shades or gradients on surfaces facing the light source to indicate highlights, and darker shades for surfaces in shadow. This creates a realistic gradient that implies curvature or angle. For instance, a spherical object requires smooth tonal transitions from light to dark to appear round.

Mastering Gradients and Blends

Gradients and blends are powerful tools for simulating curved surfaces and smooth transitions that define 3D forms.

• Linear Gradients for Flat Surfaces: Use linear gradients to indicate changes in light across a flat surface, such as the top of an extruded box.
• Radial Gradients for Spherical Forms: Radial or elliptical gradients are excellent for creating the illusion of spheres, cylinders, or rounded corners. A dark outer edge fading to a lighter center can make a circle appear as a sphere.
• Mesh Fills for Complex Shapes: CorelDRAW’s Mesh Fill tool allows for creating complex, multi-point color blends within a single object, mimicking subtle light and shadow variations on irregular surfaces. This is akin to painting with light and shadow.
• Blend Tool for Smooth Transitions: The Blend tool can create smooth transitions between two shapes or colors, useful for simulating extruded paths or complex bevels that aren’t possible with the standard Bevel tool.

Layering and Grouping for Complex Effects

Organizing your design elements through proper layering and grouping is essential for complex “3D” effects and efficient workflow.

• Logical Layering: Place background elements on lower layers, main objects in the middle, and highlights or text on top. This prevents objects from obscuring each other unintentionally.
• Grouping for Manipulation: Group related objects e.g., all parts of an extruded letter so they can be moved, scaled, or transformed as a single unit without disturbing their relative positions. This is particularly important when applying perspective or other global transformations.
• Non-Destructive Editing: Whenever possible, use CorelDRAW’s effects like Extrude or Bevel in a non-destructive manner. This allows you to easily adjust parameters later without recreating the effect from scratch. For example, instead of converting an extruded object to curves immediately, keep it as an editable extrusion.

The Future of “3D” in Graphic Design Software

The line between 2D and 3D software is becoming increasingly blurred as technology advances.

While CorelDRAW might not evolve into a full-fledged 3D modeling suite, we can expect further enhancements in its pseudo-3D capabilities and integrations.

Enhanced Pseudo-3D Effects

Future iterations of CorelDRAW are likely to offer more sophisticated tools for simulating 3D, without necessarily venturing into true geometric modeling. Paintshop portable

• Improved Lighting and Shading Models: More realistic lighting algorithms and material properties e.g., metallic, glossy, matte could be introduced, allowing designers to create even more convincing visual effects.
• Dynamic Perspective Grids: Smarter perspective grids that automatically adjust to objects or allow for more complex scene setups could streamline the process of placing objects in spatial context.
• Advanced Extrusion Options: Greater control over extrusion profiles, tapering, and twists could allow for more organic or complex pseudo-3D shapes. Imagine being able to extrude along a curve, or having variable depth extrusions.
• Integration with AI/Machine Learning: AI could assist in generating realistic shadows and highlights based on a simulated light source, or even suggest optimal perspective settings for objects within a scene.

Stronger Interoperability with 3D Software

The trend towards seamless workflows between different software applications will continue.

• Direct Import/Export of 3D Assets: While full 3D editing within CorelDRAW is unlikely, improved capabilities for importing and displaying common 3D file formats e.g., .OBJ, .FBX as static representations for layout purposes could be beneficial. Similarly, exporting specific 2D elements into 3D-friendly formats for immediate extrusion in other programs will become more streamlined.
• Cloud-Based Integrations: Cloud platforms could facilitate easier transfer of assets between CorelDRAW and online 3D renderers or model repositories.
• Plugins and Extensions: A growing ecosystem of plugins might emerge that allow CorelDRAW to interact more dynamically with external 3D software, perhaps for simple model previews or direct export for rendering.

The Role of Web-Based 3D Viewers

For presenting designs, integrating with web-based 3D viewers will become more common, allowing clients to interact with 3D models that were perhaps initiated from 2D designs in CorelDRAW.

• Interactive Mock-ups: Imagine creating a product label in CorelDRAW, applying it to a 3D bottle in a specialized viewer, and then embedding that interactive 3D model directly into a web page or presentation. This significantly enhances client presentations.
• Augmented Reality AR Integration: As AR becomes more prevalent, designers might use CorelDRAW to create 2D assets that can then be quickly translated into AR experiences, allowing users to “see” products in their real-world environment. For example, a furniture design created in CorelDRAW could be viewable through an AR app on a smartphone, placed virtually in a living room.

In conclusion, while Corel 3D modeling as a full-suite solution resides in CorelCAD, CorelDRAW remains an indispensable tool for designers aiming to create visually compelling, dimensional 2D graphics. Its future will likely involve enhancing these “faux 3D” capabilities and strengthening its role in a broader, interconnected design ecosystem, rather than transforming into a comprehensive 3D modeling package itself.

Frequently Asked Questions

What are CorelDRAW’s “3D” capabilities?

CorelDRAW’s “3D” capabilities are primarily focused on simulating depth and perspective in 2D designs through tools like Extrude, Bevel, Perspective, and Drop Shadow, rather than true 3D modeling.

Can I create a true 3D model for 3D printing in CorelDRAW?

No, CorelDRAW cannot create true 3D models suitable for 3D printing. It is a 2D vector graphics software.

For 3D printing, you need dedicated 3D modeling software like CorelCAD, Blender, or Fusion 360.

What is the difference between CorelDRAW and CorelCAD for 3D?

CorelDRAW is a 2D vector design program with simulated 3D effects, best for visual graphics and layouts.

CorelCAD is a professional CAD software for true 2D drafting and comprehensive 3D modeling, used for engineering, architecture, and manufacturing.

Can CorelDRAW import or export 3D file formats like .OBJ or .STL?

No, CorelDRAW does not natively support importing or exporting common 3D file formats like .OBJ or .STL because it is not a 3D modeling software.

How can I make text look 3D in CorelDRAW?

You can make text look 3D in CorelDRAW by using the Extrude tool to add depth, applying the Bevel tool for sculpted edges, and adding a Drop Shadow for realism and separation from the background. Coreldraw 2021 full version free download

What is the Extrude tool used for in CorelDRAW?

The Extrude tool in CorelDRAW is used to give a 2D object or text the illusion of depth by extending it into a third dimension, creating a perceived 3D form from a flat shape.

How does the Bevel tool enhance 3D effects in CorelDRAW?

The Bevel tool enhances 3D effects by adding a sculpted, rounded, or angled edge to objects, making them appear raised or indented and giving them a more realistic, tactile look.

Can I apply perspective to objects in CorelDRAW?

Yes, you can apply perspective to any object or group of objects in CorelDRAW using the Perspective tool, which allows you to distort elements to create the illusion of depth and distance.

Is CorelDRAW good for product mock-ups that look 3D?

Yes, CorelDRAW is excellent for creating visually convincing 3D-looking product mock-ups e.g., packaging, labels on bottles by using its Extrude, Bevel, Perspective, and Drop Shadow tools.

However, these are 2D simulations, not true 3D models.

What are some alternatives to CorelDRAW for true 3D modeling?

For true 3D modeling, alternatives include CorelCAD, Blender, SketchUp, AutoCAD, Fusion 360, and ZBrush.

Each specializes in different aspects of 3D design.

How can I use CorelDRAW with other 3D software in a workflow?

You can use CorelDRAW to create precise 2D vector profiles exported as .SVG, .DXF or raster textures exported as .PNG, .JPG that are then imported and utilized in dedicated 3D modeling software for extrusion, texture mapping, or detailing.

Does CorelDRAW have features similar to “3D basics” in AutoCAD?

CorelDRAW’s capabilities are distinct.

While it allows for manipulating 2D objects to appear 3D, it lacks the true 3D viewing, rotation, or basic manipulation features of actual 3D models that “3D basics” in AutoCAD would imply. Custom paint number

Can I simulate lighting and shadows in CorelDRAW?

Yes, you can simulate lighting and shadows in CorelDRAW through the strategic use of gradients, the Drop Shadow tool, and by manually applying lighter and darker shades to different parts of an object to suggest a light source.

What is the importance of gradients in creating fake 3D in CorelDRAW?

Gradients are crucial for creating the illusion of curvature and smooth surface transitions, mimicking how light falls on a 3D object.

Linear gradients can simulate flat surfaces, while radial gradients are good for spherical forms.

How does CorelDRAW handle 3D text effects?

CorelDRAW handles 3D text effects through the Extrude tool, which adds depth, and the Bevel tool, which sculpts the edges.

You can also apply gradients and shadows to enhance the realistic appearance.

Is it possible to animate 3D objects created in CorelDRAW?

No, since CorelDRAW only creates 2D effects that simulate 3D, you cannot animate these “3D” objects within CorelDRAW in a true 3D space.

Animation would require dedicated 3D animation software.

What are some common mistakes when trying to do 3D in CorelDRAW?

Common mistakes include expecting CorelDRAW to function as a true 3D modeling software, trying to export models for 3D printing directly, or creating inconsistent lighting and shadows that break the illusion of depth.

Can I create architectural floor plans in CorelDRAW and then make them 3D?

You can create precise 2D architectural floor plans in CorelDRAW.

To make them 3D, you would typically export these 2D plans as a vector file .DXF, .SVG and import them into a dedicated 3D CAD software like CorelCAD or SketchUp for extrusion into 3D walls and structures. Sell art near me

Is CorelDRAW suitable for creating models for video games?

No, CorelDRAW is not suitable for creating 3D models for video games.

Game development requires true 3D models with proper topology, UV mapping, and textures, which are created in specialized 3D modeling software.

What is the role of CorelDRAW in a workflow involving 3D CAD software?

In a workflow involving 3D CAD software like CorelCAD, CorelDRAW can serve as a powerful tool for preparing high-quality 2D vector assets logos, complex shapes, textures that are then imported into the CAD software for 3D extrusion, mapping, or detailing.

It’s also excellent for final 2D presentation layouts of 3D renders.