Professional Software Archive

PROKON Structural Analysis and Design is a suite of over thirty structural analysis, design and detailing programs. The first PROKON programs were developed in 1989, and today PROKON is used worldwide in over eighty countries. The suite is modular in nature, but its true power lies in the tight integration between analysis, design and detailing programs.PROKON Strcutural Analysis and Design currently includes a single timber design module. A number of timber connection design modules are planned for future release.Timber Member DesignTimber Member Design Check and optimise wood member sizes. Members can be subjected to a combination of axial and biaxial bending stresses, e.g. beams, frames and trusses. Sections can be solid or glued laminated timber. The program primarily acts as...

What\’s New in Visual MODFLOW Flex 2012.2Support for model calibration with PEST v12.3 Visual MODFLOW Flex 2012.2 introduces a new interface for PEST that has been designed for groundwater modelers of all skill levels. The intuitive, easy-to-use interface offers step-by-step guidance through the entire model calibration process, making it ideal for junior modelers and beginners with minimal PEST experience. At the same time, it offers support for advanced PEST features and direct access to the PEST control files from within the application, allowing experienced modelers to fully customize the car insurance claims adjuster PEST run. Simple, intuitive user interface: A unique workflow-based GUI guides you through the PEST process from start to finish, allowing you to define PEST inputs more...

NSYS Composite PrepPost Composite materials are created by combining two or more layered materials, each with different properties. These materials have become a standard for products that are both light and strong. Composites provide enough flexibility so products with complex shapes, such as boat hulls and surfboards, can be easily manufactured. Engineering layered composites involves complex definitions that include numerous layers, materials, thicknesses and orientations. The engineering challenge is to predict how well the finished product will perform under real-world working conditions. This involves considering stresses and deformations as well as a range of failure criteria. ANSYS Composite PrepPost provides all necessary functionalities for the analysis of layered composite structures.Product:Ansys Composite PrepPost 14.5 Lanaguage:english Platform:WIN32&WIN64 Size:732 MB

What\’s New in Mathematica 9 Mathematica 9 adds major new areas—further expanding Mathematica\’s unrivaled base of algorithmic, knowledge, and interface capabilities. Introducing the Wolfram Predictive Interface Optimizing your workflow by predicting what you\’ll want to do next Next-Computation Suggestions Bar As soon as you finish a computation, you will get optimized suggestions about what to do next. Press a button to evaluate a new function or bring up an interactive wizard. It\’s a new interface paradigm that lets you navigate and discover functionality throughout the Mathematica system.» Context-Sensitive Input AssistantIntelligent autocompletion and highlighting for functions, options, and other elements of Mathematica, integrated with Mathematica\’s unrivaled documentation system.» Social Network AnalysisA full suite of social network analysis functionality, including community detection,...

Simufact.forming is a simulation tool that has been developed especially for the forming industry. As a consistent advancement of the long-established simulation solutions MSC.SuperForm and MSC.SuperForge from our partner MSC.Software, both complementary technologies were integrated in a single, powerful product that is up to all the challenges of forming technology. From forging to rolling, from sheet metal to titanium Simufact.forming has been developed to support in all forming applications, independent from process temperature, machine used or material processed: closed die forging or extrusion, drawing, upsetting, bending or free forging, flat rolling, profile rolling or tumbling – cold, hot or semi-hot, mechanical press, hammer or screw press, rolling machine or orbital forging – even coupled processes and spring-controlled tools, simple low-alloyed...

Fast progressive die design Tooling development for progressive dies is best approached with a purpose-built solution. With PTC Creo Progressive Die Extension software, easy-to-use wizards guide the user through automatic strip layout definition, cut stamp creation, and placement/modification of die components. Documentation, clearance cuts, and drilled holes are created automatically, enabling die designers to avoid manual, error-prone tasks.Features & Benefits Process-oriented workflow automates progressive die design and detailing, enabling quicker time to production Includes large library of die components and fasteners for faster detailed design Speeds unbending and identification of features for staging Increases design flexibility, allowing new stages to be added even after the die is created Increases efficiency through automation of repetitive tasks, such as creating clearance cutsProduct:PTC...

CAMWorksNesting Datasheet English Automatic nesting solution for SolidWorks® CAMWorksNesting is an automatic nesting module designed to nest the layouts of SolidWorks parts or assemblies. It is seamlessly integrated within SolidWorks® and allows nesting of flat or 3D sheet metal parts or assembly models. CAMWorksNesting uses NestLib®, one of the fastest and most featured automatic true-shape nesting library available in the industry. This module can be used to create efficient layouts of metal, wood or composite based materials, producing the maximum number of parts from a single piece of raw material within minutes NestAssem1 Features and benefits Easy to learn and use Part-in-part nesting Fully Automatic true-shape nesting solution Fast Nesting and Optimal Nesting (with time constraint) options Full associativity with...

New and Improved Modules: The Sintermodule features a multi-core 3D-Nester that automatically nests your parts in 3D, in real time. In addition, the nester analyzes the part geometry in order to maximize the number of parts in the build envelope while simultaneously minimizing build height and powder consumption. Improved Support Generation modules allow users to get most out of our powerful software. For our metal customers, we have introduced a new support type dedicated to metal sintering. We have also introduced interactive angled supports to reduce finishing time and achieve the best part quality possible. In addition to drastically optimizing speed, Materialise’s software developers have continued innovating, resulting in exciting new functionalities for this latest release. With Magics17 we are...

A real-world representation of the shading from surrounding objects is extremely important for precisely calculating yields. You’re therefore looking for a program which takes shading into account as analytically as possible? PV*SOL® Expert does just that! You can visualize all roof-integrated or mounted systems – even in the ground – with up to 2,000 modules in 3D and calculate shading on the basis of 3D objects. The user-friendly 3D menu navigation is divided into the five sections of terrain view, building view, module coverage, module mounting and module configuration. Simply select possible shading objects and position them on the terrain or the building. PV*SOL® Expert then calculates how often on average the modules are shadowed by the objects and displays...

TOSCA Structure is the market leading technology for structural optimization based on industry standard FEA packages (ABAQUS, ANSYS, MSC NASTRAN, NX NASTRAN). It allows for rapid and reliable design of lightweight, rigid and durable components and systems. Using topology optimization with TOSCA Structure.topology you obtain optimal design proposals already during design concept. Specific detail improvements through shape and bead optimization respectively (with TOSCA Structure.shape and TOSCA Structure.bead respectively) make your designs ready for production. 123456Stress reduction through subsequent shape optimizationYour Benefit: Fast return-on-invest through use of existing simulation technology and models Performance improvement through automated layout process and closed process Innovative, directly producible, robust product proposals through exact consideration of realistic requirements Highest result quality and reliability due to integration...