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Getting Started
- Configuring Your Management Module
- Create & Configure A New Organization
- Creating a Customized Address
- Mastering Advanced Search and Filters
- Understanding Your Organization's Homepage
- Understanding Role Function
- Changing The Language
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- Editing Your Profile
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- Frontier.cool Privacy Policy
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- Are all of my digital fabrics shared publicly?
- Does Frontier.cool’s TextileCloud™ offers a free trial plan?
- How do I change the language?
- How do I send feedback or make a request?
- How does Frontier.cool protect my privacy and keep my data secure?
- How does Frontier.cool’s TextileCloud™ accurately generates physical properties?
- How does Frontier.cool’s TextileCloud™ generates accurate texture maps?
- Why can't I download other people's 3D material files?
- Why is my asset upload unsuccessful or canceled?
- How does Frontier.cool’s TextileCloud™ generates environmental impact data with Eco-Impactor™?
- Accessing and Copying a Shared Collection
- Adding Assets to Collection in the Workspace
- Creating and Accessing Collections
- Creating and Managing a Private Digital Library on an Embed Page
- Managing Collections
- Managing Your Workspace
- Sharing Assets and Collections
- Edit Your Collection’s Cover Image
- Attaching Files to Support Asset Information
- Copying Assets To Group or Workspace
- Creating 3D Materials
- Creating 3D Materials for Fabrics with Mesh
- Creating Assets
- Creating Assets by Smart Upload
- Creating Assets with APEXFiz File
- Creating Assets with Multiple Fabric Sides
- Customizing Asset’s Cover Image
- Deleting Assets
- Digital Drape Overview
- Downloading 3D Material Files
- Editing An Asset
- Exploring the 3D Viewer
- Export Digital Library Data to Excel
- Importing TextileCloud™'s 3D Material Files Into CLO3D
- Integrate Your System With TextileCloud™ Using APIs (Application Programming Interfaces)
- Mass Data Update and Management
- Mass Upload Data
- Mass Upload Data with Multiple Fabric Sides
- Merge Material for Asset with Face and Back Side
- Navigating the Asset Library on Frontier.cool
- Printing an Asset
- Printing and Customizing Your QR Code Label
- TextileCloud™'s Supported 3D Material Files
- The Asset Library
- Understanding Texture Maps
- Updating Fabric Images with QR Code Labels
- Uploading Pre-Scanned Images
- Best Practices for Filling Mass Upload's Excel Template
- Frontier.cool's Fabric Physical Properties
- Unlock the Power of Eco-Impactor®
- Exploring the Key Features of the Thread Board on Frontier.cool
- Navigating Detailed Card Information in the Thread Board Module on Frontier.cool
- Navigating the Thread Board Module in Frontier.cool
- Start a DigitalThread™ Conversation
- Accessing Detailed Fabric Information on Frontier.cool
- Accessing Trade Events and Vendors on Frontier.cool
- Exploring the Sourcing Library Module on Frontier.cool
- Fabric Discovery and Information in the Frontier.cool Sourcing Library
Frontier.cool's Fabric Physical Properties
Introduction
The physical properties of Frontier.cool's digital fabrics are measured using prediction models powered by the Lasagna AI Engine. It analyzes fabric layers from 2D images to generate 3D texture maps, leveraging extensive material data like type, weight, and features. The model’s performance is validated by comparing predicted properties with real-world fabric behavior from physical tests or simulations, ensuring accuracy and reliability.
Input Variables
The input variables consist of (1) material type, (2) construction type, (3) content, and (4) weight. The detail of each variable is explained:
1. Material Type
There are five material types: woven, knit, leather, non-woven, trims, and others.
2. Construction Type
The construction type is based on the material type, for example, knit, denim, canvas, challis, mesh, lace, satin, twill, etc.
3. Content
The content consists of one fiber or more than one fiber. The fibers include acrylic, amicor, biofibre, nylon, chiffon, cotton, polyester, rayon, silk, tencel, vinyl, wool, etc.
4. Weight (Mass Density)
The default weight is in g/m2, with a minimum weight of 1.00 g/m2, while the other units are oz/yd2, g/y, and g/m.
Output Variables
Each fabric sometimes uses different variables and naming conventions, for example, the general terms "length" and "width" to describe fabric size and properties, and another one uses "warp (vertical)" and "weft (horizontal)." These terms refer to the specific directions in which yarns are woven, reflecting the structural differences of fabrics in their detailed simulations.
Variables
- Bending (length and width or warp and weft): This measures a fabric's stiffness or flexibility, with values ranging from 0 to 1000. A value of 0 indicates no rigidity, 5 is low flexibility, and 1000 signifies high stiffness. Low values mean the fabric is soft and bends easily, while high values indicate stiffness, like leather.
- Bending Bias: This refers to the directional bending behavior of fabric, affecting asymmetrical effects in garments. For practical purposes, assuming symmetrical bending, the Bending Bias is the average of Bending Warp and Bending Weft values.
- Stretch (Tensile): This indicates how much a fabric can be extended or its elasticity under force.
- Stretch Linearity: This evaluates how evenly a fabric stretches, expressed as a percentage. High linearity means the fabric stretches consistently, while low linearity indicates it becomes difficult to stretch quickly, as seen in woven fabrics.
- Shear: This measures the force needed to distort or shift fabric at a 45-degree angle to its grain.
- Thickness (Compression): This describes how thick or thin a fabric feels, measured in millimeters. Thickness affects a fabric's appearance, drape, and performance. Thicker fabrics tend to be heavier, more durable, and better at insulation due to trapped air.
Conclusion
In conclusion, Frontier.cool's digital fabrics are modeled using the Lasagna AI Engine, which analyzes 2D images to create accurate 3D texture maps. By validating the model with real-world testing, we ensure the digital properties align with physical fabric behavior. If you need any more information, feel free to schedule a demo with us or email us at support@frontier.cool.
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