Creo Parametric

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PTC Creo Parametric
Developer(s)PTC
Initial release1987 (1987)
Stable release
10.0 / 18 April 2023
Operating systemWindows
TypeCAD, CAM, CAE, PLM
LicenseTrialware
Websiteptc.com/product/creo

Creo Parametric, formerly known, together with Creo Elements/Pro, as Pro/Engineer and Wildfire, is a solid modeling or CAD, CAM, CAE, and associative 3D modeling application, running on Microsoft Windows.

Creo Parametric should not be confused with Creo Elements/Direct Modeling, which was CoCreate ME10 (2D) and or ME30 (3D) CAD Products. The ex-CoCreate CAD Products are now owned by PTC and offered as "Creo Elements/Direct Drafting" and Creo Elements/Direct Modling".

Creo Parametric is an application of a suite of 10 that provide collaborative solid modeling, assembly modeling, 2D orthographic views, finite element analysis, parametric modeling, sub-divisional and NURBS surface modeling, Drafting, and NC and tooling functionality for mechanical designers.

Creo Elements/Pro compete directly with CATIA, SolidWorks, NX/Solid Edge, Inventor/Fusion 360, IRONCAD, and Onshape. It was created by Parametric Technology Corporation (PTC) and was the first of its kind to market.[1]

The software uses a specific file naming scheme, not allowing certain characters (including spaces).[2]

Overview[edit]

Creo Elements (formerly Pro/Engineer), PTC's parametric, integrated 3D CAD/CAM/CAE solution, is used by manufacturers for mechanical engineering, design and manufacturing.

Pro/Engineer was the industry's first rule-based constraint (sometimes called "parametric" or "variational") 3D CAD modeling system.[3] The parametric modeling approach uses parameters, dimensions, features, and relationships to capture intended model behavior. This design approach can be family-based or platform-driven, where the strategy is to use engineering constraints and relationships to quickly optimize the design, or where the resulting geometry may be complex or based upon equations. Creo Elements provides a complete set of design, analysis and manufacturing capabilities on one, integral, scalable platform. These required capabilities include Solid Modeling, Surfacing, Rendering, Data Interoperability, Routed Systems Design, Simulation, Tolerance Analysis, and NC and Tooling Design.

Creo Elements can be used to create a complete 3D digital model of manufactured goods. The models consist of 2D and 3D solid model data which can also be used downstream in finite element analysis, rapid prototyping, tooling design, and CNC manufacturing. All data are associative and interchangeable between the CAD, CAE and CAM modules without conversion. A product and its entire bill of materials (BOM) can be modeled accurately with fully associative engineering drawings, and revision control information. The associativity functionality in Creo Elements enables users to make changes in the design at any time during the product development process and automatically update the end products. This capability enables concurrent engineering – design, analysis and manufacturing engineers working in parallel – and streamlines product development processes.

Summary of capabilities[edit]

Creo Elements is a software application within the CAID/CAD/CAM/CAE category.

Creo Elements is a parametric, feature-based modeling architecture incorporated into a single database philosophy with rule-based design capabilities. It provides in-depth control of complex geometry. The capabilities of the product can be split into the three main headings of Engineering Design, Analysis and Manufacturing. This data is then documented in a standard 2D production drawing or the 3D drawing standard ASME Y14.41-2003.

Product Design[edit]

Creo Elements offers a range of tools to enable the generation of a complete digital representation of the product being designed. In addition to the general geometry tools there is also the ability to generate geometry of other integrated design disciplines such as industrial and standard pipe work and complete wiring definitions. Tools are also available to support collaborative development.

A number of concept design tools that provide up-front Industrial Design concepts can then be used in the downstream process of engineering the product. These range from conceptual Industrial design sketches, reverse engineering with point cloud data and comprehensive free-form surface.

Analysis[edit]

Creo Elements has numerous analysis tools available and covers thermal, static, dynamic and fatigue finite element analysis along with other tools all designed to help with the development of the product. These tools include human factors, manufacturing tolerance, mould flow and design optimization. The design optimization can be used at a geometry level to obtain the optimum design dimensions and in conjunction with the finite element analysis.

Surface Modeling[edit]

Creo has a good surface modeling capabilities also. Using commands like Boundary blend and Sweep we can create surface models. Advance options like Style (Interactive Surface Design Extension - ISDX) and Freestyle [4] provide more capabilities to designer to create complicated models with ease.

Manufacturing

By using the fundamental abilities of the software with regards to the single data source principle, it provides a rich set of tools in the manufacturing environment in the form of tooling design and simulated CNC machining and output.

Tooling options cover specialty tools for molding, die-casting and progressive tooling design.

Release History[edit]

The UNIX version was discontinued after 4.0,[5] except x86-64 UNIX on Solaris.[6] The name changed to Creo 1.0 after Pro/Engineer Wildfire 5.0 (rebranded PTC Creo Elements/Pro),[7] took place on October 28, 2010, which coincided with PTC's announcement of Creo, a new design software application suite.

For the first 10 years, PTC generally released 2 versions per year, with some exceptions. The initial release (Rev 1) was in 1988.

Version Year
Release 1 1988 [8]
Release 2 ...
Release 7 1991 [9]
Release 8 ...
Release 9
Release 10
Release 11
Release 12 1994
Release 13 1995
Release 14 1996
Release 15
Release 16
Release 17
Release 18
Release 19
Release 20
Pro/Engineer 2000i 2000
Pro/Engineer 2000i2 2001
Pro/Engineer 2001 2001
Pro/Engineer Wildfire 1.0 2002
Pro/Engineer Wildfire 2.0 2004 [10]
Pro/Engineer Wildfire 3.0 2006 [11]
Pro/Engineer Wildfire 4.0 2008 [12]
Creo Elements/Pro (Pro/Engineer Wildfire 5.0) 2009 [13][14]
Creo R1.0 2011
Creo R2.0 2012[15]
Creo R3.0 2014[15]
Creo R4.0 2015[15]
Creo R5.0 2018
Creo R6.0 2019
Creo R7.0 2020
Creo R8.0 2021
Creo R9.0 2022
Creo R10.0 2023

See also[edit]

Comparable Software

References[edit]

  1. ^ "PTC History - PTC". Archived from the original on 2010-01-30. Retrieved 2009-12-15.
  2. ^ "Creo Parametric Help Center".
  3. ^ Horgan, Jack (2004-06-21). "EDA & PLM?". EDACafe.com Contributing Editor. Retrieved 2010-06-15.
  4. ^ "Parametric and Freestyle Surfacing - PTC".
  5. ^ "News from PTC: PTC announces end of Arbortext Linux and Solaris support". single-sourcing.com. Retrieved 2011-12-06.
  6. ^ Software Update Availability (Advanced), PTC, 2012-06-06, archived from the original on 2012-08-10, retrieved 2012-06-06
  7. ^ "PTC - PTC Introduces Creo Design Software". Archived from the original on 2013-01-10. Retrieved 2010-12-14.
  8. ^ Brunelli, Mark (14 September 2014). "A Quick History of PTC and PTC Creo". ptc.com. Retrieved 22 July 2019.
  9. ^ Corten, Olaf. "ProESite - Olaf Corten's Pro/Engineer Site - Pro/E Utilities, Benchmark, Tips and Links". Archived from the original on 6 December 2017. Retrieved 18 January 2016.
  10. ^ "PTC plans summer ship for Pro/Engineer Wildfire 2 - Cadalyst". Retrieved 18 January 2016.
  11. ^ "PTC - PTC Announces Pro/Engineer Wildfire 3.0". Retrieved 18 January 2016.[permanent dead link]
  12. ^ "PTC - PTC Introduces Pro/Engineer Wildfire 4.0 With New Industry Leading Capabilities To Drive Process Improvements". Archived from the original on 6 September 2017. Retrieved 18 January 2016.
  13. ^ "PTC Targets Key Barriers to Productivity with Pro/ENGINEER Wildfire 5.0". Archived from the original on 6 September 2017. Retrieved 18 January 2016.
  14. ^ "PTC/USER Portal - Blogs - PTC Announces Creo!". Retrieved 18 January 2016.
  15. ^ a b c "معرفی نرم افزار PTC Creo (طراحی سه بعدی و محاسبه و تولید قطعات صنعتی) | همیار مکانیک". mechassis.com. Archived from the original on 2017-09-06. Retrieved 2016-12-25.

External links[edit]