Convert TIFF to STP Online For Free
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How to convert your TIFF to STP online?
Upload your TIFF file
Click the "Upload a File" button and select the TIFF file you want to upload.Select your Options
Set the size and other options, then click the "Convert" button to convert TIFF to STP.Download your STP file
After the conversion is complete, click the "Download" button to save the STP file to your personal computer.TIFF to STP Conversion Handbook
Explain each option in the TIFF to STP Conversion tool, to effectively create accurate 3D STP model from your TIFF images.
Tool
This setting lets you choose how your TIFF image is converted into a STP 3D model. You can use "Stander" for a smooth, heightmap-style model based on brightness, or "Stander Color" for a similar effect but with color details. If you want distinct, separate shapes in your model, go for "Extrude", which creates layers, or "Extrude Color", which does the same but keeps different colors as separate elements.
Dimensions and Resolution
Width & Height & Depth: These settings control the overall size of the resulting 3D STP model.
Width Segments & Height Segments: Control the number of subdivisions along the respective axes, affecting the model's resolution and detail. Higher numbers give more detail but make the model more complex.
Border & Border Width
You can add a border around the model for extra structure or visual emphasis. The "Border Width" adjusts how thick that frame is.
Basic Thickness
This value can be adjusted to control how far the STP model extrudes from the base, giving it more dimensionality.
Merges Similar Colors
This helps clean up the model by merging areas with similar colors, making the result smoother and less complex, which is especially helpful for low-quality TIFF images.
Transparency Conversion
This lets you decide what happens with transparent areas in your TIFF image—either converting them to black or white in the model.
Lock Aspect Ratio
If you want to keep the proportions of your image intact while resizing, this option ensures that the width and height scale together.
Invert Output
This option flips the brightness in the image, turning black into white and vice versa, so the model will be the opposite of the original.
Enable Smoothing
When enabled, this reduces sharp, jagged areas in the 3D geometry of the generated STP model, smoothing out harsh edges.
Z-axis reflector mirror
With this option enabled, the tool mirrors the model along the Z-axis, creating a symmetrical design if needed.
Frequently Asked Questions about Converting TIFF to STP
How to convert TIFF to STP file?
First, click the "Upload a File" button and select the TIFF file you want to convert. Set the relevant properties and select STP as the target format, then click the "Convert" button. After the conversion is complete, you can download your STP file.How long does it take to convert my TIFF to STP file?
Converting from TIFF format to STP format usually takes about 5 seconds. However, for more complex files, it may take more time. Please be patient.How accurate is the conversion from TIFF to STP?
We strive to create the most accurate 3D converter. Development work is ongoing, with new features being released every week to meet the needs of users.Is it safe to convert my TIFF to STP on 3dpea.com?
Of course! We will not store the files you upload, and the download link will expire when the current webpage is refreshed or the current browser application is closed.Can I convert TIFF to STP on Linux, Android, iOS, or Mac OS?
Yes. 3DPEA file converter can run online on any system with modern internet, without the need to download or install any professional software.Other TIFF Convertsion Tools
You can also convert TIFF file into many other file formats. Please see the complete list below.
Latest articles
From TIFF to STP file format
Tag Image File Format (TIFF) is a flexible bitmap format primarily used to store images including photographs and art drawings, originally developed by Aldus Corporation in conjunction with Microsoft Corporation for PostScript printing. TIFF, along with JPEG and PNG, became a popular high-bit color image format. The TIFF format is widely supported in the industry, such as Adobe's Photoshop, The GIMP Team's GIMP, image processing applications such as Ulead PhotoImpact and Paint Shop Pro, desktop printing and page layout applications such as QuarkXPress and Adobe InDesign, scanning, fax, Word processing, Optical Character Recognition and other applications support this format. Adobe, which obtained the PageMaker printing application from Aldus, controls the TIFF specification.
STEP (Standard for the Exchange of Product model data) is an international standard used for data exchange in the fields of computer-aided design (CAD) and computer-aided manufacturing (CAM). It defines a universal data format for describing and exchanging product model data.
STEP files adopt a neutral, platform independent representation method that allows for data exchange across different CAD software and systems. It uses an entity based data model, as well as a unified data structure and semantic rules, to ensure data consistency and reliability.
STEP files can contain rich product model information, such as geometric shape, topological relationships, material properties, assembly structure, dimensions and tolerances, and process information. It supports multiple geometric types of representations, including points, lines, curves, surfaces, volumes, etc., while also storing other non geometric attributes such as color, mass, material properties, etc.
There are many advantages to using STEP format for data exchange. Firstly, it allows seamless data interoperability between different CAD software, thereby avoiding issues of data conversion and information loss. Secondly, STEP files are text based, have good readability, and are easy to view and edit. In addition, as STEP is an international standard, it can promote global data exchange and cooperation.
In the fields of industrial manufacturing and engineering, STEP is widely used in product design, process planning, CNC machining, assembly analysis, virtual prototyping, and other links. It provides a standardized data exchange method, promotes the integration and collaborative work of design and manufacturing processes, and improves production efficiency and quality.