ANSYS Composite Cure Simulation 2.2 | 118.6 mb
The ANSYS development team is pleased to announce the availability of ANSYS Composite Cure Simulation (ACCS) 2.2 is a tool within the ANSYS Structures portfolio that lets engineers determine the effects of the curing process on composite parts.

The Ansys Composite Cure Simulation (ACCS) allows you to simulate the thermal-chemical reaction and to predict the development of residual stresses as well as process induced distortions during the curing of composite parts. The main focus is on composite manufacturing yet the same principles apply to the curing of unreinforced thermosetting polymers.

Ansys Composite Cure Simulation (ACCS) was developed by LMAT in response to the growing market demand for a reliable simulation platform to support manufacturing and tooling engineers throughout the process design cycle. The platform has been comprehensively validated and subsequently used to compensate millions of pounds worth of rib, spar and wing-skin tools across the European aerospace and wind energy industries, where previously the only method of achieving parts of sufficiently high tolerance to meet strict aerospace assembly rules was to re-machine finished tooling after molding the first part.

The ACCS is fully integrated into the ANSYS Workbench environment. The composite material data necessary for the cure simulation are stored in the engineering data module. Connectivity to Ansys Composite Pre-Post (ACP) as well as other ANSYS products enabled seamless exchange of simulation and process design data. The connection with the ANSYS DesignXplorer enables advanced design optimization of material and manufacturing process parameters. Seamless transfer of the lay-up information from the existing CATIA and FIBERSIM models is also available through the HDF5 format.

This video demonstrates the ANSYS Composite Cure Simulation (ACCS) tool that enables the analysis of curing processes (for example, those used for composite structures). This video demonstrates a cure simulation of a rib used in aerospace applications. Layered composite materials modelling and simulating composite structures with ANSYS Composite PrepPost with an efficient workflow.

Founded in 1970, ANSYS employs nearly 3,000 professionals, many of whom are expert M.S. and Ph.D.-level engineers in finite element analysis, computational fluid dynamics, electronics, semiconductors, embedded software and design optimization. Our exceptional staff is passionate about pushing the limits of world-class simulation technology so our customers can turn their design concepts into successful, innovative products faster and at lower cost. As a measure of our success in attaining these goals, ANSYS has been recognized as one of the world's most innovative companies by prestigious publications such as Bloomberg Businessweek and FORTUNE magazines.

Product: ANSYS Composite Cure Simulation
Version: 2.2
Supported Architectures: x64
Website Home Page :
Language: english
System Requirements: PC *
Software Prerequisites: ANSYS Workbench 2020 R2
Size: 118.6 mb
Ansys 2020 R2 Supported Platforms

- Windows 10 (64-bit Professional, Enterprise and Education editions, including FIPS mode support for most products)
- Windows Server 2016 Standard Edition (64-bit)
- Windows Server 2019 Standard Edition (64-bit); Microsoft HPC Pack not supported with this release

We support versions of Windows 10 from the Semi-Annual Channel as are available at the time of the Ansys
release. For SCADE products, code generators are qualified/certified on Windows using long term service versions

Additional Hardware and Software Requirements

- Intel 64 / AMD64 system with the correct operating system version installed
- 8 GB of RAM (Minimum)
- 128 GB free on the hard drive is recommended

Minimum Graphics Requirements

ANSYS Products (other than Discovery Live), Windows Platforms: Discrete graphics card with the latest drivers and compatible with the supported operating systems. For full functionality, use of a recent NVIDIA Quadro or AMD Radeon Pro card with at least 1 GB of discrete video memory and supporting, at a minimum, OpenGL version 4.5, DirectX 11, Shader Model 5.0
ANSYS Discovery Live: NVIDIA Discrete graphics card (Quadro recommended) with the latest drivers. Kepler-, Maxwell-, Pascal-, Volta, or Turing-based cards are recommended (Maxwell 2000 or better). At least 4 GB of discrete video memory (8 GB recommended). OpenGL version 4.5 or above.
GPGPU: Some ANSYS products support problem solving on the graphics processor (GPGPU capability). The additional graphics card requirements for GPGPU are included in the GPU Accelerator Capibilities document at> Support> Platform Support

Virtual Desktop Infrastructure

In addition, Ansys 2020 R2 supports the following Virtual Desktop Infrastructure:

- VMware Horizon View 7.9 (Windows 10 and Server 2016, 2019) with VMware vSphere ESXI 6.5 U2 (Hypervisor Layer)
- Citrix XenDesktop 7 1909 (Windows 10 and Server 2016) with Citrix Hypervisor 8.0


To take advantage of improving compiler technologies, Ansys updates supported compilers from time to time. The following compilers are supported for user-programmable features and functions at Ansys 2020 R2:

- Visual Studio 2017 (Windows)
- Intel Parallel Studio XE 2019, Update 3 (Windows and Linux)

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