Thanks to the powerful 3D lighting system that it comes with, Fold Defy is capable of rendering impressive folded images with a natural look. It enables you to work with multiple light sources, which can be placed anywhere on the image. The shadow strength, height and softness can be easily adjusted until the desired effect is obtained.
To give it an even more natural look, you can freely adjust the photo paper texture. Intelligently combined with light and shadow effects, textures can help you turn a simple photo into a work of art.
With support for high-resolution images, Fold Defy is capable of rendering 3D folds and completely transform your photos. It takes care of the perspective and shadow distortions needed to generate realistic effects, without you having to manually apply gradients. Thanks to its built-in lighting system, it can help you deliver impressing results.
Fold Defy Features
Fold a variety of common and not-so-common paper textures
Fold Defy allows you to create 3D paper folds with many paper textures including:
• Realistic paper textures
• Paper textures with different looks
• Paper textures of the crumpled paper
• Note: Not all images will render well with all of the texture packs.
Various folding, crumpling and crinkling templates
Focusing on ease of use, the application comes with a generous set of style templates that you can choose from, not only for folding the input picture, but also for creasing or crumpling it. Thus, you can use it to make the image look like a crunched paper smoothed flat.
Manually add creases to an image
Fold Defy lets you manually add creases to the image by simply drawing lines directly on the picture and previewing the result on the spot. You have full control over the number of columns and rows in the fold, the perspective and the variation, the fold neatness and width, as well as the paper texture, the generated crinkles and the fold direction.
Perform light and shadow adjustments
Fold Defy lets you precisely adjust the shadow strength, height and softness until you get the desired effect. Furthermore, you can effortlessly change the light sources and other parameters of the photo paper texture.
Capture the camera shake
Fold Defy keeps a track of the last four frames you captured, and it will use them to generate a 3D-folded image automatically, eea19f52d2
RemoteAccess with TSplus-RemoteWork
, a number of different length tubular members can be used to form a tubular wall assembly. For example, according to the methods of the present invention, the tubular wall assembly can include a plurality of different lengths of tubular members. The lengths of tubular members are joined together using welding, bonding, adhesives, mechanical connectors, screws, dowels, bolts, or other known connectors.
In another embodiment of the present invention, the tubular wall assembly includes a plurality of non-metallic construction elements, such as a plurality of wood or wooden members, which are used to reinforce the wall. The plurality of construction elements can be arranged to form a grid or lattice that is affixed to the tubular wall members. For example, the construction elements can be affixed to the tubular wall members using an adhesive. In this embodiment, the tubular wall members provide structural support, while the construction elements provide the desired tensile strength.
In another embodiment of the present invention, at least a portion of the tubular wall assembly includes a structural element that is formed from a metallized plastic or a reinforced polymeric material.
In yet another embodiment of the present invention, a method of forming a tubular wall assembly includes forming a first tubular member from a first flexible material, and affixing the first tubular member to a second tubular member. The second tubular member is formed from a second flexible material, and has a first end and a second end, the first end being coupled to the first tubular member and the second end being coupled to an end cap.
In this embodiment, at least one of the first and second tubular members is expanded, using a tubular expanding tool, to form an expansion joint. In this embodiment, the method includes positioning the first and second tubular members, relative to each other, so that the expansion joint overlies the second end of the second tubular member. The first end of the second tubular member is positioned in contact with the second end of the first tubular member, such that the first tubular member is positioned between the end cap