nTopology 5.50.2 | Size: 1.5 GB
Language: English
nTop has released nTop 5.50.2 is a computational design software platform that enables engineers to create, analyze, and optimize complex geometry using implicit modeling and field-driven design methodologies.
This release introduces five new export blocks for Analysis Results, two new Conic curve blocks for aerodynamic profile design, and a Path input update that makes folder selection available across all blocks.
nTop 5.50 - What's New
Conic by Points
- The Conic by Points block creates a conic curve defined by a start point, an apex point, and an end point. It is commonly used for aerodynamic profiles such as nose cones.
- Location: Create > Curves
. Point 1: Start point of the Conic.
. Point 2: Apex point of the Conic. The tangent lines at the start and end points meet at this point.
. Point 3: End point of the Conic.
. Rho: Rho value of the conic. Accepted range: 0.02-0.95.
. Output: Spline
Conic by Tangents
- The Conic by Tangents block creates a conic curve defined by two points and their tangent vectors. The apex of the conic is determined automatically by the intersection of the tangent lines at the start and end points. It is commonly used for aerodynamic profiles such as nose cones.
- Location: Create > Curves
. Point 1: Start point of the Conic.
. Point 2: End point of the Conic.
. Tangent 1: Tangent vector at the start point.
. Tangent 2: Tangent vector at the end point.
. Rho: Rho value of the conic. Accepted range: 0.02-0.95.
. Output: Spline
Export Static Analysis Result
- The Export Static Analysis Result block lets you export a Static Analysis Result to a file for use outside of nTop, such as downstream reporting or data exchange workflows.
- Location: Design Analysis > Export
. Path: The output file path.
. Static Analysis: Static Analysis Result to export.
. Compression: The compression objective. Choose between fastest compression (larger file size), balanced performance (medium file size), smallest file size, or no compression (largest file size). Defaults to Fastest.
. Unit System: (Optional) Target unit system for the exported data. Defaults to MKS units.
. Output: Analysis File Data
Export Buckling Analysis Result
- The Export Buckling Analysis Result block lets you export a Buckling Analysis Result to a file for use outside of nTop, such as downstream reporting or data exchange workflows.
- Location: Design Analysis > Export
. Path: The output file path.
. Buckling Analysis: Buckling Analysis Result to export.
. Compression: The compression objective. Choose between fastest compression (larger file size), balanced performance (medium file size), smallest file size, or no compression (largest file size). Defaults to Fastest.
. Unit System: (Optional) Target unit system for the exported data. Defaults to MKS units.
. Output: Analysis File Data
Export Modal Analysis Result
- The Export Modal Analysis Result block lets you export a Modal Analysis Result to a file for use outside of nTop, such as downstream reporting or data exchange workflows.
- Location: Design Analysis > Export
. Path: The output file path.
. Modal Analysis: Modal Analysis Result to export.
. Compression: The compression objective. Choose between fastest compression (larger file size), balanced performance (medium file size), smallest file size, or no compression (largest file size). Defaults to Fastest.
. Unit System: (Optional) Target unit system for the exported data. Defaults to MKS units.
. Output: Analysis File Data
Export Thermal Analysis Result
- The Export Thermal Analysis Result block lets you export a Thermal Analysis Result to a file for use outside of nTop, such as downstream reporting or data exchange workflows.
- Location: Design Analysis > Export
. Path: The output file path.
. Thermal Analysis: Thermal Analysis Result to export.
. Compression: The compression objective. Choose between fastest compression (larger file size), balanced performance (medium file size), smallest file size, or no compression (largest file size). Defaults to Fastest.
. Unit System: (Optional) Target unit system for the exported data. Defaults to MKS units.
. Output: Analysis File Data
Export Time Dependent Thermal Analysis Result
- The Export Time Dependent Thermal Analysis Result block lets you export a Time Dependent Thermal Analysis Result to a file for use outside of nTop, such as downstream reporting or data exchange workflows.
- Location: Design Analysis > Export
. Path: The output file path.
. Time Dependent Thermal Analysis: Time Dependent Thermal Analysis Result to export.
. Compression: The compression objective. Choose between fastest compression (larger file size), balanced performance (medium file size), smallest file size, or no compression (largest file size). Defaults to Fastest.
. Unit System: (Optional) Target unit system for the exported data. Defaults to MKS units.
. Output: Analysis File Data
Usage Improvements
- The File Path input has been renamed to Path across all blocks and now supports selecting a folder in addition to a file.
Block Updates
- File Path Variable has been renamed to Path Variable.
- The Cubic Bezier block has been renamed to Cubic Bezier Distance Field.
- The Conic block has been renamed to Conic Distance Field.
nTop introduced the concept of implicit modeling for mechanical design, which is an innovative, modern, and scalable way define parts and products. It has many benefits to end-users and companies, such as the elimination of model failures, speed of changes or iterations, and scalability to name a few. But implicit modeling enables so much more. In this informational session, we'll explore a topic that is redefining product development - field-driven design. In short, field-driven design is a way for design, analysis, and manufacturing teams to overlay information into one engineering model. This approach enables orders of magnitude increase in design iteration speed and greatly improves collaboration between teams.
How Field-Driven Design Allows Engineers to Design for Additive Manufacturing
Watch this information session where we'll define field-driven design, show examples of how it enables better knowledge sharing, and show how it promotes the development of more sophisticated, highly engineered products. You'll also better understand how nTopology is addressing today's engineering problems through its nTop Platform product.
nTop, formerly known as nTopology, is a leading computational design software company founded in 2015. The company specializes in empowering engineers across industries to innovate without the limitations of traditional CAD tools. Built on proprietary technologies, nTop enables the creation of complex geometries, instantaneous optimization, and automated workflows, making it ideal for applications such as additive manufacturing and advanced product development.
Сopyright holder \ Distributor: nTop
Product Name: nTop
Version: 5.50.2
Supported Architectures: x64 Languages Supported: english
System Requirements: Windows *
Size in archive: 1.5 Gb
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