10/27/2010

PEPS Turn Aufgabe 6

http://www.cadfamily.com/downinfo/301785.html

In diesem ubungsbeispiel wird Ihnen erlautert,wie Bohrbearbeitungen im PEPS
Drehmodul programmiert werden.
Es sollen auf derStirn-und auf der Mantelflache eines Drehteils,Bohrungen bearbeitet
werden.
Dazu laden wir als erstes eine vorhandene Datei,mit einem schon programmierten Drehteil
in das PEPS System.

PEPS Turn Aufgabe 5

http://www.cadfamily.com/downinfo/301784.html

- Gewinde-Freistich DIN 76 Form A
- Freistich DIN 509 Form E
- Figurgeometrie beeinflussen (Passung definieren)
- Technologie beeinflussen (Vorschub auf Drehkontur andern)
- Gewindeschneidzyklus
- Einstechen
- Abstechen

PEPS Turn Aufgabe 4

http://www.cadfamily.com/downinfo/301783.html

- Kopieren von Geometrieelementen
- Bemaßen von Geometrieelementen
- Arbeiten mit Layern
- Rohteildefinition
- Neues Spannmittel erzeugen
- Einstechen aus Geometrie
- Schlichtzyklus
- G-und MCFunktionen hinzufgen
- Abstechzyklus

PEPS Turn Aufgabe 3

http://www.cadfamily.com/downinfo/301782.html

Das Beispiel soll zeigen, wie man eine komplexere Bearbeitungsgeometrie erzeugt und
diese schruppt, die Nut bearbeitet und die Kontur schlichtet.
Stellen Sie sicher, dass Sie VOR der Bearbeitung dieses Beispiels die notwendigen Schritte
zur Vorbereitung eines Programms durchgef??hrt haben.Dies sind: Vergabe des
Dateinamens, Dialogbox Programmstart einstellen etc.siehe Kapitel: Vorbereitung).
Vorgehensweise bei der Konstruktion
Wir wissen aus den Aufgaben 1 und 2, dass in PEPS mehrere Wege existieren, um eine
Drehkontur zu konstruieren:
Da die Aufgaben 1 und 2 aus relativ einfachen Geometrien bestanden, konnten wir deren
Konturdaten mit Hilfe von XZ-Koordinaten direkt eingeben.

PEPS Turn Aufgabe 2

http://www.cadfamily.com/downinfo/301781.html

- Rohteildefinition
- Erzeugung der begrenzten Konstruktionsgeometrie
- Anbringen von Fasen und Radien
- Erzeugung einer Bearbeitungsfigur
- Plandrehen
- Abspanzyklus
- Schlichtzyklus
- Solidsimulation
- Erzeugung von NC-Daten

PEPS Turn Aufgabe 1

http://www.cadfamily.com/downinfo/301780.html

Erzeugung der begrenzten Konstruktionsgeometrie
In PEPS existieren mehrere Wege, um eine Drehkontur zu konstruieren:
Bei einfachen Geometrien können Sie die XZ-Koordinaten der Geometrie direkt eingeben.
Bei komplexeren Geometrien verwendet man Hilfsgeometrien (Konstruktionskreise und
Konstruktionslinien) und nutzt diese anschließend zur Erzeugung der Drehkontur.
Da es sich bei dem ersten Beispiel um eine einfache Geometrie handelt, werden wir deren
XZ-Koordinaten direkt eingeben.

Abaqus Inelastic Dynamic Analysis Of Shells

http://www.cadfamily.com/downinfo/301773.html

5. Numerical examples, verification with ABAQUS
Numerical examples are presented to test and verify the efficiency of the proposed nonlinear dynamic formulation of the TRIC element. The examples are nonlinear dynamic problems that present simultaneously material and geometrical nonlinearities. The results are compared to those found in the literature and produced by the commercial code ABAQUS.

Dynamic Multibody Unit Injector System using ABAQUS/Explicit

http://www.cadfamily.com/downinfo/301774.html

The dynamic simulation of the UIS has been carried out for many years using the commercial
software MSC/Adams. Since version 11 of MSC/Adams Bosch engineers have been partly re-
placing the rigid bodies with flexible bodies.


The combination of MBS- and FEM-functionality is a trend which was picked up by Abaqus in
version 6. Through that development it is possible to define rigid bodies and joints (so-called connector elements). From version 6.2 on, the bug-fixing has reached a point where a complex, industrial application could be tackled.

Abaqus Modeling Implantable Medical Device-Tissue Interactions

http://www.cadfamily.com/downinfo/301772.html

There is a tremendous amount of information available to describe many aspects of the mechanical behavior of cardiovascular tissue (Fung, 1993). There are also many areas where more empirical information is needed to address some of the issues that medical device companies face.More research is needed in the area of diseased and healthy in vivo human heart tissue and vein properties and anatomies, for example. More information is also needed regarding the boundary conditions associated with various device-tissue interactions. However, even if all aspects of tissue behavior and device-tissue interaction were perfectly understood, it would be extremely difficult, if not impossible, to incorporate this understanding into workable FEA models.

Abaqus Mechanism of effects of warm prestressing (WPS) on apparent

Abaqus Numerical modeling of spinal motion segment

From the review introduced above it is apparent that the mechanism of WPS effects is
still an attractive subject. This paper describes the results of a comprehensive FEM calcula-tion carried out for various regimes of Loading-unloading-cooling-fracturing (LUCF) cycles and a great variety of WPS operations with complex loading and unloading steps different in signs. Analyses are focusing on the roles played separately by the residual compressive stress, macro-blunting of original notch and the prestrain-deactivation of cleavage initiation by micro-blunting of conventional second phase particles in notched specimens.

Abaqus Numerical modeling of spinal motion segment

http://www.cadfamily.com/downinfo/301771.html

Abaqus Numerical modeling of spinal motion segment

Abaqus Simulation of the rotary shear experiment through the overlay method

http://www.cadfamily.com/downinfo/301769.html

Experimental techniques show that the stresses associated with a small torsion superposed on large tension cannot be modelled for filled rubber using any hyperelastic model. Ahmadi et al. (1999) suggest that this phenomenon is related to that of energy dissipation in a strain cycle. The literature on biaxial shear of a rubber shows that for both unfilled and filled rubber, energy dissipation occurs if the deformation is held at a constant magnitude but rotated through the material.
This paper aims to show that the overlay technique proposed by Austrell (1997) is able to
reproduce the energy dissipation of the rubber material subjected to cyclic shear deformation, and describes the results obtained from the simulation of a rubber disc subjected to cyclic uniaxial shear and rotational shear deformation, an experiment first proposed by Gent (1960).

Abaqus Finite Element Modelling of Bends and Creases

http://www.cadfamily.com/downinfo/301765.html

The objective of this work is to induce the attributes of paper in foils of stainless steel so that a public sculpture of origami can be folded with it. Origami is an ancient Japanese art of paper folding for fun. However, in the recent years, the figures folded by this technique have complex shapes and they closely resemble the objects portrayed. Nowadays, an origami artist has a choice with a variety of construction material with specific texture, colour and body. Origami has evolved to the level of sculpture (La Fosse, 2000) than merely a simple form of art. However, origami artists have not had a good experience of working with metal sheets or foils. Copper or aluminium based foils have shown rupture and dents, which cannot be accepted for display as a public sculpture. With an in-depth discussion with the renowned paper artist Paul Jackson, this project was launched. In short, the aim is to mimic qualities of paper in foils of stainless steel.

10/24/2010

Solaris 9 For Dummies

http://www.cadfamily.com/downinfo/300285.html

This book diverges from most For Dummies computer titles in that it does not
include any information on Solaris installation and configuration. Unlike the
homebrew hacker ethos of the Linux world, Solaris is more straightforward in
its installation, and, more importantly, almost all Solaris systems are deployed
by a central system administration or information technology group. Solaris
users are uniquely shielded from the installation and configuration process.
As a result, Ive decided itd be much more useful to jam as much user level
information in this book as humanly possible. Rather than spend 75 pages
nattering on about this configuration switch, that disk partitioning scheme,
and this other swap space allocation algorithm, you find out how to use
Solaris.

SAP Teaching Material for the Department of Production Management

http://www.cadfamily.com/downinfo/300284.html

Enter an estimate for the actual percentage of completion in the work breakdown structure or network. In addition, a measurement method for estimates and a maximum percentage of
completion can be specified in the Customizing for the Project System.
The maximum percentage of completion prevents an overestimate of completion which
occurs when tasks are "almost finished", also called the "90% syndrome". As long as the
task has not been completed, that is, no actual finish date has been entered, the system will not allow you to have an actual percentage of completion which is higher than the maximum percentage of completion.
Degree of processing
When this measurement technique is used, the degree of processing from the confirmation
becomes the percentage of completion.

SAP NetWeaver For Dummies

http://www.cadfamily.com/downinfo/300283.html

Weve made a few assumptions about you, the reader. We figure that you probably work in a company, either big or small. We also assume that youre either in the IT department of the company or one of the IT workers gave you this book so that youd quit asking so many questions about this stuff.

We also assume that the company you work for either already has some SAP software or is making a decision to buy some right now. Whether youve got a huge SAP installation already or youre evaluating whether to buy a bunch of business applications, youll need to have an understanding of SAP NetWeaver and exactly what impact it can have on your business.

We dont assume that you have any previous experience with SAP NetWeaver or its components. We also dont assume that youre a techie. On the contrary, we explain things so that a general business person can easily grasp the concepts without all the technical mumbo jumbo that usually accompanies enterprise software explanations.

BW Certification-A Business Information Warehouse Study Guide

http://www.cadfamily.com/downinfo/300282.html

As noted in previous chapters, SAP BW can extract and load data from a variety of source
systems including:
Non-SAP source systems. Data from non-SAP data sources can be loaded into SAP BW in
one of three ways:
1. Flat file source systems (loaded through flat files)
2. External source systemsconnect to external systems with third-party custom ex-
traction tools (using staging BAPIs).
3. External data providers such as Nielsen
SAP source systems:
1. SAP R/3 source systems (after release 3.1H)
2. SAP BW systemsusing Myself
3. Other SAP products
Non-SAP Source Systems
Non-SAP source systems include:
Flat file source systems (loaded through flat files)
External source systemsconnect to external systems with third-party custom extraction
tools (using staging BAPIs).

Project Management with SAP R/3

http://www.cadfamily.com/downinfo/300281.html

Which kind of structuring is used depends on the focus of the project. Objects orientation is
often used, if the main part of the project is a physical object like a power plant. Functional
organisation is preferred, if many different parts of an organisation or many organisations are
involved.
In practice, all three kinds of structuring are used within one WBS.
Project Management can be defined as planning, directing, and controlling resources
(people, equipment, material) to meet the technical, cost and time constraints of the
project.5
The primary reason why projects fail is insufficient effort in the planning phase.

Project Management thus is considered as very important.

Introduction to SAP Enterprise portal knowledge

http://www.cadfamily.com/downinfo/300280.html

KM platform
Applications around unstructured
information
People-centric collaboration
Enterprise content management
Opeframework
Plugable repository managers
Plugable services
Standard interfaces WebDAV, ICE
Openamespaces
Partners/customers cadevelop
their owrepostitory managers
Connectors to different platforms
HTTP, FTP, FILE, WebDAV, LDAP
JDBC, IMAP, UDDI

Simple WYSIWYG editing
Output is plaiHTML
Most important formatting
functions
Insert images and links
Used ifeedback, rating,
discussions, personal notes
Supported for text input
fields iXML forms builder
Browser Support
IE5.5/IE6.0 fully supported
Other browsers will display
text
field for editing plaiHTML

CATIA/ENOVIA Digital Mock-Up Fitting Simulator

http://www.cadfamily.com/downinfo/300310.html

You will play a ready-to-use fitting simulation.
You will create your own fitting simulation with
automatic interferences detection.
In this exercise you will create and play DMU Fittings Simulation for the Car Suspension
assembly.
In this exercise you will:

Design Intent C Car Suspension
The Car Suspension assembly consists of the suspension and the wheel assembly.
Here you will define simulation for disassembly of the wheel and perform clash analysis
during the disassembly of the wheel using the DMU Fitting workbench.

CATIA/ENOVIA Digital Mock-Up Basics

http://www.cadfamily.com/downinfo/300309.html

Click on an element of the fuselage in the 3D. View it using Current Selection
3D panel and then go back in Tree tab having the View related objects option
checked. This means select Aircraft.1 and view it in 3D panel.
Close the Current Selection panel.
Use documents of the end result of Master Exercise Step1 to begin Step 2.

Activate the render style with material :
Go to View menu > Render Style > Customize View and check the Materials option if it is not
applied.
Use all the navigation modes:
Examine Mode: Rotate, Pan, Zoom
Fly Mode: Beginners, Normal and Advanced Fly mode, turn head

CATIA V5 Expert Mechanical Designer-Surface Design

http://www.cadfamily.com/downinfo/300308.html

This Tab Page includes a sensitive Icon
dialog box that allows the selection of :
6 : Imposed planes (two groups)
Force cutter to machine in this plane
(global offset can be applied on each
group)
7 : Limiting contour
Re-limit machining area after stock and
part definition
8 : Center zone order
Define pocket machining order
9 : Start Point (optional)
Impose start point in open area (not in
pocket)

CATIA Training V4/V5 Advanced Interoperability

http://www.cadfamily.com/downinfo/300307.html

Student Notes:
Solids: Exceptions / Restrictions
Primitives (always transferred « As Result »)
Pyramid
Sweep non-closed / Until a sweep
Project
« Out of model » solids « As Result »
Import primitive (MML solids)
Detail/Ditto from a Library
Operations (complete transfer « As Result »)
Draft reflect line with « keep edge » option
Detail-Ditto / Macroprimitive (multi-instances)
Body containing the specifications «Copy with link » instances
Inactive primitives / Unresolved features
Not migrated at all
Copy/Paste AS RESULT or AS SPEC a V4 document into CATIA V5
No Possibility to copy/paste features belonging to different V4 Models (within
the CATProduct) in the same transaction.

CATIA Training Real Time Rendering

http://www.cadfamily.com/downinfo/300306.html

In this step you will:
Create a directional light
Position the directional light
Define the lighting parameters

Create a light source
Position the light source
Define the light source parameters
Activate the shadow generation
Tune the shadow parameters

Apply a texture to each environment wall
Use texture DSP_back.jpeg at the back of the car
Use texture DSP_left.jpeg on all other walls
Use texture DSP_top.jpeg on the ceiling
Use texture DSP_bottom.jpeg on the ground
Define a material for each component of the product

CATIA Training Multi-Pocket Machining

http://www.cadfamily.com/downinfo/300305.html

This operation provides highly productive global rough to finish
machining strategies for structural prismatic multi-cavity part
MPG delivers a process focused solution to machine multi-cavity parts
such as mechanical prismatic parts or aerospace structural parts
This breakthrough solution delivers to NC programmers the possibility to
machine multi-cavity parts with a mix of roughing and finishing tool paths
This power machining operation enables to machine the part in a global
and automatic way that drastically reduces the programming time

CATIA Prismatic Machine Preparation Assistant

http://www.cadfamily.com/downinfo/300303.html

B - Create a Pocketing and rework operation due to a catalog with
prismatic machining area.
1. Let the Manufacturing View window open
2. Select Open Catalog icon
3. With browser go to the MPA training data directory EX01-MPA
4. Select Myprocesscatalog.Catalog & Pocketing
5. Select corner_and_ channel process double click on it:
6. Select geometry (Prismatic Machining Area.2) and level in program as follows:
7. Click OK to apply the machining process on the selected geometry
8. Close Catalog and Manufacturing View windows
9. Expand the last branch in the PPR tree
11. Replay both Pocketing and Rework operations

CATIA Training Detail Drafting

http://www.cadfamily.com/downinfo/300302.html

Design intent clean up views in the
drawing view drawing
Renamed Left view to Section view A-A
Added Cut line to Front view
Changed line style of Center lines in the
Section view
Changed cross-hatching pattern
Added centerline to hole in Front view

Design intent was to clean
Car_Jack_Support drawing
Rename Isometric view to Isometric
View 1
Reposition Isometric Views
Remove name under Breakout view
Re-create callout for detail view
Change line style for callout
Move views

GT-SUITE CFD Coupling Manual and Tutorials

http://www.cadfamily.com/downinfo/300293.html

This tutorial has been prepared to assist users of GT-SUITE in performing a coupled simulation with STAR-CD or FLUENT. This tutorial assumes that the user is already familiar with GT-SUITE, GT-ISE, FLUENT, and the STAR-GUIde of PROSTAR.

Step-by-step instructions for setting up the coupled simulation are provided in this tutorial. Some of the instructions and settings presented in tutorial are specific to particular versions of STAR-CD, PROSTAR, and FLUENT. This information should be treated as informative and for tutorial purposes only. For specific STAR-CD or FLUENT instructions, please consult their respective documentation.

GT-SUITE COOL3D Reference Manual

http://www.cadfamily.com/downinfo/300294.html

COOL3D is a tool that can be used to build 3D models of underhood thermal management flow systems that can be discretized and made into model files for use with GT-SUITE. It provides the ability to build the model in a 3D environment so that the full details of the model can be included. It also includes sophisticated discretization logic that is able to transform the 3D model into a model file that is compatible with the GT-SUITE software. COOL3D can be used to build any flow system that contains only blockages, fans, heat additions, and heat exchangers.

This manual describes the operations and components available in COOL3D. It is assumed that the user is already familiar with the GT-SUITE software package including GT-ISE and GT-POST. COOL3D will share concepts with both GT-ISE and GT-POST where possible to maintain consistency. It will also incorporate new concepts and methods that are unique to 3D modeling.

GT-SUITE Engine Performance Tutorials

http://www.cadfamily.com/downinfo/300295.html

Once all the templates/objects have been selected, the project library should look like the picture above. Maximize your project map so that the template library is no longer visible by clicking the maximize button in the top right corner of the project map window.

1.4 Defining Objects

This section of the tutorial will explain how to create all the parts that will be used for the single cylinder engine. The objects will be defined step-by-step from intake side to exhaust side. Once all the objects are created, they will be turned into parts by dragging them into the project map.

GT-SUITE VTDesign User's Manual

http://www.cadfamily.com/downinfo/300301.html

Polynomial Function:
Dropdown list has three choices:
• Cam Shape- The radius of curvature will be calculated directly from the cam shape.
• Flat Follower Lift- The radius of curvature will be calculated based on a flat follower lift profile.
• Roller Follower Lift- The radius of curvature will be calculated based on a roller follower lift profile.

10/20/2010

PEPS TubeCut 6 Achsen Rohrbearbeitung

http://www.cadfamily.com/downinfo/301691.html

Ubungshandbuch 6 Achsen Rohrbearbeitung fur die PEPS Version 5.3

PEPS TubeCut Recht

http://www.cadfamily.com/downinfo/301692.html

Aus Sicherheitsgrunden empfehlen wir vor jedem Programmstart
eine Simulation des NC-Programms an der NC-Steuerung.

PEPS TubeCut Inhaltsangabe

http://www.cadfamily.com/downinfo/301693.html

Vorwort
Starten des Systems
Die Bedieneroberflache
Der Operationsmanager
Solid - Geometriearten
Voreinstellen des Systems
Einstellen der Darstellung von 3D-Modellen
CAD-Dateien importieren
Steuern der grafischen Ansicht

PEPS TubeCut Vorbereitung

http://www.cadfamily.com/downinfo/301694.html

Stellen Sie sicher, dass das PEPS Basismodul und die dazugehorigen Maschinenanpassungen auf
Ihrem PC installiert wurden.
Nahere Informationen zur Installation von PEPS finden Sie im Kapitel Installation.
Nachdem Sie Ihren Computer eingeschaltet haben und MS-Windows XP oder 2000 gestartet wurde,
sehen Sie in der linken unteren Bildschirmecke die Schaltflache Start.

Programming the Actel M1A3P evaluation board

http://www.cadfamily.com/downinfo/301704.html

Introduction:
This application note describes the techniques to install the ARM Cortex-M1 soft core into the Actel ProASIC3®
M1A3P-DEV-KIT-SCS evaluation board using the Actel FlashPro® utility.
Once this is accomplished, you can write, run and debug your C and C++ programs for the Cortex-M1 using RealView MDK featuring the Keil µVision3 IDE. MDK version 3.22e and later contains support for this board.

Keil-Emulator Diagnostic Utility User Manual

http://www.cadfamily.com/downinfo/301705.html

Connecting to the Emulator
When starting, EmuDiag prompts you for the method of connecting to the
emulator(Figure 3).

FIGURE 3 Selecting the method of connecting to the emulator.
• The Connect to Emulator Automatically method searches for emulators on USB ports. Click the Next button to connect automatically. If there is more
than one emulator physically connected, you will need to select one.
• The Select Emulator and Customize Connection Parameters method allows you to select your emulator and customize the connection parameters. Click Next to display a list of the available emulators (Figure 4).

JTAG Probes for Signum Emulators Technical Specifications

http://www.cadfamily.com/downinfo/301706.html

ADA-ARM-SWD
The ARM-SWD probe supports both ARM and Cortex boards at voltages 1.8V to 3.3V. It must be used when Cortex Serial Wire Debug or Cortex Serial Wire Output operation mode is required.
In addition to a standrd 20-pin double-row female ARM connector, this probe has a 20-pin and 10-pin high-density Cortex connectors. Only one connector can be used at a time.The ARM connector, mounted underneath the probe, has the pinout of the ADA-JET-ARM20 probe (Figure 10). The pinouts of the 20-pin and 10-pin Cortex connectors are shown in Figure 11 and Figure 12, respectively. The two high-density cables included with the probe provide a link between the Cortex connectors and the
target board (Figure 9).

MCBSTM32E User's Guide

http://www.cadfamily.com/downinfo/301711.html

You may use the Cortex-M3 based MCBSTM32E Evaluation Board to generate and test application programs for the STMicroelectronics STM32F10x microcontroller family. With this hands-on process, you can determine the hardware and software requirements for current and future product development.

The MCBSTM32E Evaluation Board ships with the STM32F103ZE device that is a superset of several other device variants of the STM32F10x microcontroller series. The MCBSTM32E Board contains all the hardware components required in a single-chip STM32x system.

Catopo Installation Guide

http://www.cadfamily.com/downinfo/301712.html

Choose the desired folder on which CATOPO has to be
installed. Continue with Next >
Notice: For server installation (Code Server) CATOPO has
firstly to be installed on a PC locally, and in the next
step the program files can be copied to the application
server manually. There is no direct way to install
CATOPO on the application server.
Please read also the notice on page 10.
Two types of installation are available in CATOPO, Typical
and Custom.
Typical: Three components of CATOPO will be installed
automatically. These are the basic code of CATOPO, the
CLSAcisBrowser (ACIS interface) and the LCSolver.
Custom: Installation of defined components is possible.
Beside the three components mentioned above, the
CATIA V5 geometry readers (CAA interface) can be
installed.
The user will be asked in the next steps to enter the
paths of the CATIA installation and CATIA environment
of the currently supported Releases R18SP4 and
R18SP6.

Mesh size influence on the results of the topology optimization with CATOPO

http://www.cadfamily.com/downinfo/301713.html

The more fine is the mesh, the more precise the optimized structure is being calculated.
When one aim that the optimized structure have ribs or bars of defined size, then the mesh size of the 3D-mesh should be lower then this value (minimum requirement) or if possible several times lower.

Einfluss der Netzdichte auf das Ergebnis der Topologieoptimierung mit CATOPO

http://www.cadfamily.com/downinfo/301714.html

Generell gilt: Je kleiner die Elementkantenlänge ist, desto präziser wird die optimierte Struktur berechnet.
Wird bei der Berechnung die Entstehung von Strukturen (Rippen, Streben etc.) einer gewissen Größe angestrebt, sollte die maximale
Elementkantenlänge im Modell (3D-Netz!) diesen Wert nicht ??berschreiten (Mindestanforderung) oder nach Möglichkeit deutlich
unterschreiten.

CATOPO CAST Penalty Beschreibung

http://www.cadfamily.com/downinfo/301715.html

Der Wert der "Cast Penalty" kontorlliert die Art, wie die Hinterschnittfreiheit realisiert wird.Kleine Werte bewirken Aufdickungen, grosse Werte bewirken scharf abgegrenzte Bereiche.
Die nachfolgenden Bilder sollen dies veranschaulichen (FILTER-Radius = 0):

CATOPO CAST Penalty Description

http://www.cadfamily.com/downinfo/301716.html

The value "Cast Penalty" controls the way, how the cast restrictions will be realized.
Small values force a thickness-like variation, large values force a more stamped-like solution.
The following pictures illustrate this behaviour (FILTER-RADIUS=0)

InterOp Connect Help

http://www.cadfamily.com/downinfo/301717.html

This section discusses how to install InterOp Connect, including prerequisites and requirements. For details regarding file extensions and versions supported for your particular file format, refer to the respective format-specific section.

Topics include:

Prerequisites
Installation Requirements
Installation Procedure
Directory Structure
Supported Platforms and Compilers
Compiler Flags and Preprocessor Directives
Integrating with Your Application
3D InterOp Shared Libraries and DLLs at Link and Runtime

10/19/2010

CATIA v5 launcher

http://www.cadfamily.com/downinfo/301660.html

These instructions assume that the CFdesign installation directory is c:\Program Files\CFdesign 2010. If you use a different direc-
tory, please modify the steps below as needed.
l Navigate to the launchers folder, and copy the install folder. On a 32 bitmachine, rename the copied folder to "intel_a". On
a 64-bitmachine, rename the copied folder to "win_b64".
l Open a Command Prompt.
l On a 32-bitmachine, change to the B*\intel_a\code\bin sub-folder of your CATIA installation.
l On a 64-bitmachine, change to the B*\win_b64\code\bin sub-folder of your CATIA installation.
(For example, if CATIA v5r18 is installed in the default directory of a 32 bitmachine, this would be found in C:\Program Files\Da-
ssault Systemes\B18\intel_a\code\bin.)

CFDESIGN inventor-launcher

http://www.cadfamily.com/downinfo/301661.html

During the CFdesign installation, the launcher is automatically configured for the most recent installed version of Inventor.
To add the launcher to an existing installation, run CFdConfig.exe from the CFdesign installation folder, and select Inventor.

CFDESIGN OSD-launcher

http://www.cadfamily.com/downinfo/301662.html

If the launcher is not in the CAD interface or to configure the launcher for a different installed version of CoCreate:
The launcher installation file, osd-install.zip, is located in the \Launchers\OSD-CoCreate sub-folder of your CFdesign installation.
Unzip this file into theOneSpace Modeling folder of yourOneSpace installation.
Create an environment variable called CFDESIGNDIR that points to your CFdesign installation folder.

CFDESIGN ProE-launcher

http://www.cadfamily.com/downinfo/301663.html

If the launcher is not in the CAD interface or to configure the launcher for a different installed version ofWildfire:
Copy the protk.dat file from the appropriate Launchers\ProE subfolder to the Text folder of your Pro/Engineer installation direc-
tory.

CFDESIGN solid edge launcher

http://www.cadfamily.com/downinfo/301664.html

Supported Solid Edge Versions
The CFdesign Launcher for Solid Edge is compatible with versions v20, ST, and ST2. (MP 9 or higher is required for ST when using
ST parts.)
To download MP 9, follow the appropriate link:
http://ftp.ugs.com/solid_edge/ST/SolidEdge32/
http://ftp.ugs.com/solid_edge/ST/SolidEdge64/

CFDESIGN solid works launcher

http://www.cadfamily.com/downinfo/301665.html

Manual Installation:
During the CFdesign installation, the launcher is automatically configured for the most recent installed version of SolidWorks:
Open the \Launchers\SolidWorks directory within your CFdesign installation folder. If necessary, edit the path in the cfde-
sign.reg file, and run it by double-clicking on it.
In SolidWorks, click on Tools_Addins, and selectCFdesign.

CFDESIGN UGNX-launcher

http://www.cadfamily.com/downinfo/301667.html

If the launcher is not in the CAD interface or to configure the launcher for a different installed version of UGNX:
The launcher is configured by editing the custom_dirs.dat file in the UGS\NX #.#\UGII\MENUS folder.
Edit this file by appending the location of your CFdesign NX launcher file.
For example, if your CFdesign installation folder is c:\Program Files\CFdesign 2010, then add this line to the end of the file:
c:\Program Files\CFdesign 2010\Launchers\UGNX

CFDESIGN spaceclaim-launcher

http://www.cadfamily.com/downinfo/301666.html

If the launcher is not in the CAD interface or to configure the launcher for a different installed version of SpaceClaim:
Copy the two files from the \Launchers\SpaceClaim folder of your CFdesign installation:
Copy cfdesign_spaceclaim.dll --> CFdesign folder
On XP, Copy cfdesign_launcher.xml --> Documents and Settings/All Users/Application Data/SpaceClaim/Addins .
Edit the cfdesign_launcher.xml file and modify the assembly = line to include the full path to your CFdesign installation folder.
On Vista, Copy cfdesign_launcher.xml --> ProgramData/SpaceClaim/Addins
(This is created during the SpaceClaim installation.)
Edit the cfdesign_launcher.xml file and modify the assembly = line to include the full path to your CFdesign installation folder.

KEIL J-Link/J-Trace User's Guide

http://www.cadfamily.com/downinfo/301668.html

With Segger's J-Link/J-Trace debugger adapters and the OEM Versions you can debug and trace applications on ARM7, ARM9, and Cortex-M processor-based devices. µVision runs with all J-Link/J-Trace adapters that are not IDE-dependent.

Minimum requirements to use J-Link/J-Trace are:

Keil MDK-ARM, version 4.10 or higher.
Segger J-Link driver for Windows.
Common features of J-Link/J-Trace are:

Examine memory and registers.
Programming Flash Memory.
Debugging in JTAG and Serial Wire mode.
Single-stepping through programs and inserting multiple breakpoints.
Supporting Segger's Flash Breakpoint feature, which allows more breakpoints than the hardware can actually handle.

MCB1700 User's Guide

http://www.cadfamily.com/downinfo/301669.html

The Writing Programs topics introduce you to the Keil development tools, and show you, step-by-step, the process of using them with the MCB1700 board. You will learn how to use µVision to create, compile, download, debug, and run a program on the MCB1700 board.

Writing programs for the MCB1700 board is easy.

Create the Application Program using the µVision IDE and the ARM C/C++ Compiler.
Download the program to the on-chip Flash of the MCB1700 Board.
Debug the program using µVision Debugger and ULINK.
The MCB1700 board comes with the Keil Development Tools CD-ROM that contains an Evaluation Version of the MDK-ARM Microcontroller Development Kit (Evaluation Version) . If you are not already using Keil Tools, you may install the evaluation version from the CD-ROM.

MCB2130 User's Guide

http://www.cadfamily.com/downinfo/301671.html

The Keil MCB2130 Evaluation Board allows you to generate and test application programs for the NXP LPC2100 microcontroller family. With this hands-on process, you can determine hardware and software components required for current and future product development.

The MCB2130 Evaluation Board ships with an LPC213x device that is a superset of several other device variants of the NXP LPC2100 microcontroller series. The MCB2130 Board contains all hardware components that are required in a single-chip LPC2100 system plus 2 COM ports for serial RS232 output.

MCB2140 User's Guide

http://www.cadfamily.com/downinfo/301672.html

The Keil MCB2140 Evaluation Board allows you to generate and test application programs for the NXP LPC2100 microcontroller family. With this hands-on process, you can determine the hardware and software requirements for current and future product development.

The MCB2140 Evaluation Board ships with an LPC214x device that is a superset of several other device variants of the NXP LPC2100 microcontroller series. The MCB2140 Board contains all hardware components required in a single-chip LPC2100 system.

MCBSTR7 User's Guide

http://www.cadfamily.com/downinfo/301676.html

You can use the ARM-based MCBSTR7 Evaluation Board to generate and test application programs for the STMicroelectronics STR71x microcontroller family. With this hands-on process, you can determine the hardware and software requirements for current and future product development.

Note

The MCBSTR7 Evaluation Board is identical to the HITEX STR7 EVALBOARD. The Keil toolchain provides extensive example projects for the STMicroelectronics STR71x device series that run on the MCBSTR7 Evaluation Board.
The MCBSTR7 Evaluation Board ships with the STR710FZ2. This device is a superset of several other device variants of the STR71x microcontroller series. The MCBSTR7 Board contains all the hardware components required in a single-chip STR7 system.

MCBSTM32C User's Guide

http://www.cadfamily.com/downinfo/301675.html

You may use the Cortex-M3 based MCBSTM32C Evaluation Board to generate and test application programs for the STMicroelectronics STM32F107x microcontroller family. With this hands-on process, you can determine the hardware and software requirements for current and future product development.

The MCBSTM32C Evaluation Board ships with the STM32F107VC device that is a superset of several other device variants of the STM32F107x microcontroller series. The MCBSTM32C Board contains all the hardware components required in a single-chip STM32x system.

MCBTMPM330 User's Guide

http://www.cadfamily.com/downinfo/301677.html

You may use the Cortex-M3 based MCBTMPM330 Evaluation Board to generate and test application programs for the Toshiba TMPM330Fxxx microcontroller family. With this hands-on process, you can determine the hardware and software requirements for current and future product development.

The MCBTMPM330 Evaluation Board ships with the TMPM330FDFG device that is a superset of several other device variants of the TMPM330 microcontroller series. The MCBTMPM330 Board contains all the hardware components required in a single-chip TMPM system.

ULINK2 User's Guide

http://www.cadfamily.com/downinfo/301678.html

The Keil ULINK2 USB-JTAG Adapter connects your PC's USB port to your target hardware (via JTAG, OCDS or Serial Wire) and allows you to:

Download programs and test them on your target hardware.
Program the on-chip FLASH memory of many devices.
Program external FLASH memory of many target systems.

ULINKpro User's Guide

http://www.cadfamily.com/downinfo/301679.html

The Keil ULINKpro USB-JTAG/SW Debug and Trace Unit connects the PC's USB port to the target system's connector via JTAG or Serial Wire, and allows users to:

Download and test programs on target hardware.
Capture and analyze trace information.
Program the FLASH memory of many devices.
Use JTAG or Serial Wire signals.
Define unlimited breakpoints in RAM.
ULINKpro supports the CoreSight Technology.

Requirements
MDK-ARM V4.03, or higher.
PC Performance Requirements.

PEPS-PentaCut Beispiel 1

http://www.cadfamily.com/downinfo/301681.html

Schwerpunkte bei diesem Beispiel:
Importieren einer CAD-Datei
Positionieren des Modells auf den Maschinentisch
Verändern der Modellansicht
Vergrößern durch eine Fensterauswahl
Alle Durchbrche im Modell bearbeiten
Löschen von Schnitten
Kollisionspr fung
Korrektur der automatisch eingefgten Positionierbewegungen

PEPS NC-Daten erzeugen

http://www.cadfamily.com/downinfo/301683.html

Sind alle Programmierarbeiten abgeschlossen, besteht der nächste Schritt darin, die NC Daten fr die Werkzeugmaschine zu erzeugen
Klicken Sie in der oberen Ikonenleiste auf die Ikone NC-Daten fr das momentane Programm
erzeugen.

PEPS-Erzeugen von Spannvorrichtungen

http://www.cadfamily.com/downinfo/301684.html

Um das Werkst ck auf dem Maschinentisch aufspannen zu können, ist es oft notwendig
Spannvorrichtungen zu erzeugen. Diese bestehen aus einer Reihe von vertikalen und
horizontalen Blechplatten, die man ineinander steckt um das Werkst ck darauf abzulegen und
fest zu spannen.

PEPS PentaCut Beispiel 2

http://www.cadfamily.com/downinfo/301685.html

Schwerpunkte bei diesem Beispiel:
Anwendung des Bearbeitungsbefehls „Facekanten schneiden (automatisch)
Start- und Endpunkt einer Bearbeitung verschieben
Simulation der Schneidbearbeitung
Wechselpunkte hinzufgen, um Kollisionen zu eliminieren
Automatische Kollisionsverhinderung verwenden

PEPS PentaCut Beispiel 3

http://www.cadfamily.com/downinfo/301686.html
Schwerpunkte bei diesem Beispiel:
Anwendung der Befehle „Loop schneiden und „Loops schneiden
Interaktives Ändern der Ansicht innerhalb eines Befehls
Anwendung des Befehls „Trimmungen bearbeiten (interaktiv)
Ändern der Länge der Einfahr-/Ausfahrfahne eines Schnittes
Neu ordnen der Schneidreihenfolge
Manuelle Bestimmung von Positionierbewegungen
Ändern des Anstellwinkels der Schneiddse
Ändern des Winkels der D??se fr die Anfahrbewegung

PEPS PentaCut Beispiel 4

http://www.cadfamily.com/downinfo/301687.html

Schwerpunkte bei diesem Beispiel:
Löschen von nicht benötigten Solidgeometrien
Ausblenden von nicht benötigten Solidgeometrien
Anwendung des Bearbeitungsbefehls „Automatisch schneiden
Löschen einer berflssigen Bearbeitung
Anwendung des Operationsmanagers
Neu ordnen der Schneidreihenfolge Cautomatisch
Glätten des Werkzeugweges
Spannvorrichtung erzeugen

PEPS-Inhaltsangabe

http://www.cadfamily.com/downinfo/301688.html

Schwerpunkte bei diesem Beispiel:
Anwendung der Befehle „Loop schneiden und „Loops schneiden
Interaktives Ändern der Ansicht innerhalb eines Befehls
Anwendung des Befehls „Trimmungen bearbeiten (interaktiv)
Ändern der Länge der Einfahr-/Ausfahrfahne eines Schnittes
Neu ordnen der Schneidreihenfolge
Manuelle Bestimmung von Positionierbewegungen
Ändern des Anstellwinkels der Schneiddse
Ändern des Winkels der D??se fr die Anfahrbewegung

PEPS PentaCut Recht

http://www.cadfamily.com/downinfo/301689.html

Inhaltliche Änderungen dieses Handbuchs behalten wir uns ohne Ankndigung vor.
Die Camtek GmbH kann fr eventuelle Fehler oder Mängel, die in diesem Handbuch
festgestellt werden, nicht haftbar gemacht werden. Ebenso bernimmt die Camtek GmbH
keine Haftung fr Schäden, die direkt oder indirekt auf Lieferung, Leistung oder Nutzung des
Systems zur ckzufhren sind.

PEPS PentaCut Vorbereitung

http://www.cadfamily.com/downinfo/301690.html

Stellen Sie sicher, dass das PEPS Basismodul und die dazugehörigen Maschinenanpassungen auf
Ihrem PC installiert wurden.
Nähere Informationen zur Installation von PEPS finden Sie im Kapitel Installation.
Nachdem Sie Ihren Computer eingeschaltet haben und MS-Windows 2000 oder XP gestartet wurde,
sehen Sie in der linken unteren Bildschirmecke die Schaltfläche Start.

10/12/2010

Deform2d Diestress Lab

http://www.cadfamily.com/downinfo/301527.html

The DieStress Analysis-2D is a convenient tool to set up and do a die stress
analysis. This lab will demonstrate how to run a die stress analysis in die stress
wizard. When the stress analysis is being done on only one tool, a one step
simulation is sufficient to get accurate stresses. When the stress analysis is
being done on die assemblies where there is interaction between the tools,
more than one step is typically needed for the die stack to come to a state of
equilibrium under the applied load.
In a typical die stress simulation,the workpiece is removed and the forces
exerted onto the dies by the workpiece are interpolated onto the tools. In this
lab, a shrink fit will also be modeled.

DEFORM 2D Version 10.0 Keyword Documentation

http://www.cadfamily.com/downinfo/301525.html

FRCSTP is how often the fracture criteria is checked. If 1 where used, ever step would be
checked, which is fine. However, this checking is not done in the FEM engine. This means
that ever step would be saved in the database, even if you specified to save ever X number
of steps in the Stopping Step Criteria. This keyword takes precedence. It is better not to
use this keyword but rather FRCNEL. This is checked in the FEM engine which means it
will only exit the FEM engine when the criteria set for FRCNEL is reached. This will
reduce the size of the database.

DEFORM-F2 Cold Forming Labs

http://www.cadfamily.com/downinfo/301528.html

Display Icons

Note: Some of the display functions (Pan, Zoom and Magnify) have easy
keyboard/mouse combination hotkeys that allow the user to quickly perform these
functions without excessive button clicking.

DEFORM-Heat Treatment Wizard Labs

http://www.cadfamily.com/downinfo/301529.html

This lab will demonstrate how to use the Heat Treatment Wizard to conveniently prepare
a multiple-stage heat-treatment simulation. Phase transformation of the material (JIS S45C) will be simulated. Multiple zones of heat-transfer coefficients are assigned to the workpiece.
1. Starting a new problem
Start a new Heat Treatment Wizard problem with problem ID QUENCH. You
can do so by clicking the New problem button and choose Heat treatment.
Alternatively,you can right click on the directory tree to create an empty directory
and click Heat treatment on the right side of the main window.

DEFORM Modeling of a Heating Operation with Phase Transformation

http://www.cadfamily.com/downinfo/301530.html

1. In Simulation Controls dialog, set the following parameters:

2. In category Main, change the Operation Name to Heating.

3. Ensure the Units are set to SI.

4. Change the Geometry type to Plane Strain

5. Turn on modules Deformation, Heat Transfer and Transformation.

6. Go to category Step and change the number of simulation steps to
10000. (The step number is a large number, as the actual stopping
criterion will be controlled by the Process Duration specified below.)

DEFORM Carburization of a Gear Tooth

http://www.cadfamily.com/downinfo/301531.html

2.3. Setting Boundary Conditions
1. Go to object Boundary Conditions. At this point the user needs to
define the boundary over which the carbon-bearing atmosphere is
exposed to the workpiece. In this, the entire surface, both the outer
surface and the bore surface, will be exposed to a carbon-bearing
environment.

DEFORM Resistance heating Lab

http://www.cadfamily.com/downinfo/301532.html

This test case is a 2d axi-symmetric case involving two plates, 4mm thick and two electrodes. Top plate has a diameter of 300mm, and bottom plate has diameter of 200mm (See Figure 1). The two plates have different thermal electrical resistance properties and the electrodes are subjected to a current flux of 2 amp, (grounded on one side, i.e zero voltage) to trigger local heating in the plates (See Figure 2). Please note that the process data used in this example is for illustration purpose only. (3D images indicated here have been documented using 3D Viewer for this axi symmetric analysis).

Sample keyword file available in the release ëLabs?? folder can be taken as the basis. Only the essential data needed for resistance heating are discussed here and this document assumes user is fairly conversant to the Deform2D Preprocessor.

DEFORM 2D Stub Shaft Lab

http://www.cadfamily.com/downinfo/301533.html

The DEFORM-2D Pre-processor will open. The Pre-processor is divided into
several distinct sections - namely the DISPLAY window, the Object Tree and
Object Data. (Figure 1.3)There is also a row of icons along the top of the screen.
These icons will be described as they are encountered in the labs. The most
important of the icons are the ones located at the top right. Due to their
importance, a brief description of each is given:

DEFORM-Preform Design Lab

http://www.cadfamily.com/downinfo/301534.html

In forming process, an intermediate shape so called preform or blocker is necessary if final forged shape is complex. By using preform shape, lower forming load, uniform strain distribution, no die under filling and reduced die wear can be obtained by introducing smooth metal flow.
Conventional way of designing preform shape is inefficient and time consuming in that it
requires many cross sections and the design will be done in 2 dimension so the designed
cross sections need to be connected each other to make 3 dimensional preform shape.

Deform Multiple Operations System manual

http://www.cadfamily.com/downinfo/301535.html

The interface is an innovative mixture of an open system and a guided user interface. If
the user desires, the user can navigate sequentially through a list of menus to construct a simulation or the user can access menus in any sequence by selecting any item in a
project list.

Standalone program

The navigation within this program is made through a single window. Tabs and buttons
are available to direct the user to various points in the program including project set up, running the simulation and viewing the results.

Installation de NCSimul

http://www.cadfamily.com/downinfo/301539.html

Installation interactive Installation interactive
Lancement automatique
Linstallation se lance automatiquement, apres linsertion du CD-Rom.
Si la fenetre de bienvenue napparait pas, elle peut tre lancee manuellement en
double-cliquant sur le fichier NCSimul.msi.
Fonctionnalites/Composants installs
La fenetre ci-dessous permet de
• Choisir les elements o installer.
• Selectionner le r??pertoire d??installation.
• Verifier la place prise/disponible sur le disque en cliquant sur le bouton
« Disque ».

NCSIMUL-8-1-JP

http://www.cadfamily.com/downinfo/301540.html

NCSIMUL-8-1-JP

NCSIMUL 8.3 Guide d'utilisation

http://www.cadfamily.com/downinfo/301541.html

NCSIMUL est un logiciel de simulation d'usinage dedie aux professionnels de la fabrication
soucieux d'obtenir une programmation d'usinage de qualite.
Ce guide d'utilisation est donc destine a un public averti et maîtrisant parfaitement les
techniques d'usinage et le monde des machines outils.
1.1. Introduction
La presente documentation a ete realisee dans le but de vous accompagner lors de l'utilisation
de NCSIMUL8, en decrivant chaque fonctionnalite du logiciel.
Cependant cette documentation ne peut en aucun cas remplacer une formation realisee par des
personnes habilitees a le faire. Lors d'une formation au logiciel vous apprendrez comment
mener a bien tous vos projets de simulation.

NCSIMUL 8.4.0 NEW RELEASE

http://www.cadfamily.com/downinfo/301543.html

• New " Reversible Removing Material to rebuilt the rough stock volume at any program blocks. The volume of removed material from each block is stored in memory. The user can define the number of blocks he wishes to store. Depending on the size of the program, NCSIMUL 8.4.0 is able to store all simulation. This option enables a new way of working, step by step, in which the user identifies the problem, corrects and continues simulation without going back to the beginning

NCSIMUL 8.4 User guide

http://www.cadfamily.com/downinfo/301544.html

3.4.6. 3D-CAD Extension - Holder
To be able to use a 3D-CAD extension or a holder you must prepare a CAD file with practically
the same characteristics as for a 2D-CAD extension or holder:
The model can only contain a 3D model of the extension or holder.
The model??s CAD origin must be located:
At the machine??s spindle nose for a holder.
At the fastening point between the holder and the extension for an extension.
At the default origin in the CAD software.
The orientation of the CAD origin can be configured in NCSIMUL. The CAD model
will use the machine spindle as the orientation reference. For most milling centres the
Z axis corresponds to the spindle axis.
NCSIMUL calculates the height of the elements automatically.
For an extension the calculated height corresponds to the distance between the CAD reference and the lowest CAD element of the model, measured along the
revolution axis. This distance define the fastening point for next element (tool).
The calculated height of a holder corresponds to the distance between the CAD
origin and the lowest point in the CAD model measured along the revolution
axis. This distance define the fastening point for next element (tool or extension).
The elements are stacked automatically by NCSIMUL, end to end (CAD origin and fastening
point of next element). However the total value of the stack can be modified in the Parameters tab.
The source CAD file, the layers used to model the 3D-CAD extension or holder and the elemnt
orientation must be specified in the tool library.

CATIA Training Electrical Librarian&Harness Installation

http://www.cadfamily.com/downinfo/301545.html

In the Electrical Part Design workbench
Select the Define Mounting Equipment icon
Select the Part as Mounting Equipment
To define Cavities, select a point, a line for the
coincidence and a line for the orientation
Create an Mounting Equipment

CATIA Training Foils FEM Solid

http://www.cadfamily.com/downinfo/301546.html

You need to study the geometry of the part and decide which will be the best approach to create solid mesh. Then you will select the proper tool to generate the mesh. Following list shows
various tools provided in FMD.
1. Directly create solid mesh using existing part as support.
2. Reuse the surface or solid mesh to create solid mesh for that part.
FMD provides you two approaches to create solid mesh.

CATIA Training Functional Molded Parts

http://www.cadfamily.com/downinfo/301547.html

For the Boundary profile, select
the outermost circular curve and
enter the values for the parameters
as shown in the figure.
For the Ribs profile, select all the circular
curves other than the one selected for
Boundary. Also enter the values for the
parameters as shown in the figure.

CATIA V5 Expert Mechanical Designer-Design in Context

http://www.cadfamily.com/downinfo/301549.html

The case study for this lesson is the completion of an earphone, as shown below. The
focus of this case study is the creation of a cover part. The features that are used to
design the cover part are created within the context of the existing components. This
method ensures that the cover part will interface properly with the existing components.

10/11/2010

Release Notes for Arbortext Editor Styler and Architect

http://www.cadfamily.com/downinfo/301505.html

PTC Server connection changes
The PTC Server connection now supports two-way metadata. T wo-way metadata
enables XML element content or attribute values to be passed to PTC Server
instance based attributes (IBA) during document import or check in and PTC Server
IBA values to be passed to XML elements or attributes during document check out.
T wo-way metadata is confgured through a new twowaymetadatarule element in
the document-type-specifc burst confguration fle. Refer to Assigning PTC Server
pr operties in the Arbortext Editor online help for details.
The system-wide burst confguration fle has a new twowaymetadata attribute
for the cr eatedefaults element that enables you to disable two-way metadata. Refer
to Confguring system default values in the PTC Server connection section of the
Arbortext Editor online help for details.

Guide to Arbortext Styler

http://www.cadfamily.com/downinfo/301506.html

Free version of Arbortext Styler
overview
Arbortext Styler has two dif ferent versions. The free version of Arbortext Styler
is packaged along with Arbortext Editor . The full version of Arbortext Styler is
a separate product. The free version of Arbortext Styler enables you to develop
StylerSheets to control display in Arbortext Editor . Y ou cannot use the free version
of Arbortext Styler to develop StylerSheets for other editors or outputs. The full
version of Arbortext Styler enables you to develop StylerSheets for all supported
output formats.
Note
If you do not want the free version of Arbortext Styler to be available in Arbortext
Editor , use the Options element?? s allowStyler attribute in the document
type confguration fle ( .dcf ) to disable the free version of Arbortext Styler .
See the Arbortext Editor online help for more information about document type
confguration fles.

Ricardo ML-Motion Link

http://www.cadfamily.com/downinfo/301509.html

Usage: Forces FO[1-4] are input as 4 scalars and motions MO returned as a 2-vector. The child process id CHD determines which Valdyn solver file is to be run of the form:
valdynCHD.dat.
e.g. if CHD = 1, then Valdyn will attempt to run valdyn1.dat. The link number LNK
should correspond to the link number as defined in Valdyn.
NOTE : If intending to save any results from Valdyn the angle increment for output in
Valdyn must be a multiple of: Time Increment x Engine speed (deg/s).

Ricardo SDFBROWSER DOCUMENTATION/USER'S MANUAL

http://www.cadfamily.com/downinfo/301511.html
1.1 Introduction to SDFBROWSER
The Browser’s purpose is to provide a Graphical User Interface to view the data stored
in a Ricardo Standard Data File (SDF). The Browser enables you to view and edit
named variables/arrays stored in an SDF, along with their properties and values. New
SDFs can also be created and new variables/arrays can be added to existing SDFs.
The browser work area is split into two parts (using variable height panes). The first
pane shows the Names of the variables/arrays stored in the file from which you can
select the item of interest. When a name is selected the value of the variable/array will
be displayed in the second pane. The second pane shows the information (value, units,
and description) associated with the selected name. It also displays a segment of a
selected array.

Ricardo-SDFTOASCII 2.0 Guide

http://www.cadfamily.com/downinfo/301512.html

If an index string is present and does not account for all the dimensions of a
filtered name, data will be extracted for all the unspecified indices as if a (1-)
specification had been given. If an index string has too many indices
specified for a filtered name, the surplus is ignored.
If no index string exists, all data from the arrays to be sampled are extracted.
If the -names option is not specified, data will be extracted from all arrays for
all indices.

Ricardo VALDYN 2.8 Release Notes

http://www.cadfamily.com/downinfo/301513.html

Fraction of critical damping is be used to determine the initial spring node positions based on initial valve lift. If this value is zero, the solver will crash on dividing by zero. Valdyn GUI will now issue a warning and not run the solver in this case.

PEPS-Preparation Vorbereitung

http://www.cadfamily.com/downinfo/301517.html

Le module PEPS PentaCut - Decoupe laser 5 axes offre un grand nombre de strategies dusinage puissantes qui vous permettent de decouper les modles solides 3D complexes.
Lutilisation du module PEPS PentaCut - Decoupe laser 5 axes est optionnelle et demande une licence.
Demarrage du systeme :
Assurez-vous que le module de base PEPS et les parametrages machine correspondants sont installes sur votre ordinateur.
Pour plus dinformations sur linstallation de PEPS, reportez-vous chapitre Installation.
Une fois lordinateur sous tension et MS-Windows 2000 ou XP demarre, vous voyez apparaitre le bouton Dmarrer dans le coin inferieur gauche de lecran.

PEPS-Creation de donnees CN

http://www.cadfamily.com/downinfo/301519.html

Selectionnez la matiere Acier 2 mm.
Cet exercice nexplique pas comment cr??er de nouveaux matriaux. Pour plus dinformation,reportez-vous au systeme daide du systeme.
Cliquez sur le bouton Fini.

PEPS-PentaCut Simulation

http://www.cadfamily.com/downinfo/301518.html
Si vous avez effectu lexercice correctement, la simulation sera executee sans probleme.
Vous pouvez terminer la simulation ou continuer a lire pour connaitre les autres fonctionnalites quelle propose.
Cliquez maintenant sur le bouton Abandon pour terminer la simulation,

PEPS-Spannvorrichtung erzeugen

http://www.cadfamily.com/downinfo/301520.html

On peut envisager de devoir couper plusieurs solides/modeles identiques ou differents sur unmeme dispositif de serrage.
Il est egalement possible de vouloir creer un programme pour plusieurs solides/modeles existantsdans lequel un dispositif de serrage serait cree, mais pas pour tous les modeles.
Cest pourquoi, mme si un seul modele existe, il est indispensable de slectionner au prealableles solides pour lesquels il faut creer un dispositif de serrage ou ceux pour lequel cela nest pasnecessaire.

PEPS-Beispiel Exemple3

http://www.cadfamily.com/downinfo/301523.html

Utilisation des commandes [Couper la boucle] et [Couper les boucles]
Modification interactive de l affichage dans une commande
Utilisation de la commande [Usinage des compensations (interactif)]
Modification de la longueur de la marque d??entree et de sortie d une coupe
R organisation de l ordre des coupes
Determination manuelle des mouvements de repositionnement
Modification de l angle de travail des buses de coupe
Modification de l angle de la buse pour le mouvement d??arrivee

PEPS-Beispiel Exemple2

http://www.cadfamily.com/downinfo/301522.html

Utilisation de la commande Couper les aretes de face (automatique)
Deplacement dun point de dpart et darrivee
Simulation de la coupe
Ajout de points de changement, afin deliminer les collisions
Utilisation de la fonction anti-collision automatique

PEPS-Beispiel Exemple1

http://www.cadfamily.com/downinfo/301521.html

Importation dun fichier CAO
Positionnement du modele sur la table de machine
Modification de l??affichage du modele
Agrandissement par selection de fenetre
Usinage de toutes les ouvertures du modele
Suppression des coupes
Controle des collisions
Correction des Trajectoires de repositionnements inseres automatiquement

10/08/2010

Aspen HYSYS Customization Guide

http://www.cadfamily.com/downinfo/301484.html

HYSYS can be accessed from external programs using
Automation. Programs such as Microsoft Visual Basic and
Microsoft Excel can use HYSYS as a calculation engine, allowing
you to create new applications that invisibly use HYSYS in the
background.
Two HYSYS objects can be created by an external program:
• The HYSYS Application object
• The HYSYS SimulationCase object
The Application object can be created using one of the
HYSYS.Application ProgIDs. The ProgID determines which
version of HYSYS is activated. Simulation Cases can be created
using the HYSYS.SimulationCase ProgID, or by calling GetObject
and passing the name of a Simulation Case. For example, this is
how you would create an Application object and a
SimulationCase object from Visual Basic:
Once the Application and Case objects have been created, other
HYSYS objects can be accessed through them. For example,
from the Case's flowsheet object (accessed through the
flowsheet property of the Case), you can create new Process
Streams and Unit Operations.
Dim App as Object
Set App = CreateObject(??HYSYS.Application??)
Dim HYCASE as Object
Set HYCASE = GetObject(??c:\hysys\cases\azeocol.hsc )

Aspen HYSYS-OLI Interface Reference Guide

http://www.cadfamily.com/downinfo/301483.html

1.1 Introduction
Many industrial processes are affected by many production and
environmental concerns when dealing with electrolytes. A
process cannot be designed and optimized effectively without
comprehensively and accurately addressing electrolyte
chemistry and phenomena. Electrolyte chemistry is particularly
complex and challenging to understand and predict, especially
for real industrial systems which contain many components and
operate over broad ranges of temperatures, pressures, and
concentrations. Many industrial operations need to be aware of
the concerns of electrolyte chemistry in these processes and can
include:
• Aqueous chemical and separations processes.
• Chemical conversion.
• Solution crystallization.
• Pharmaceutical and speciality chemical manufacturing.
• Reactive separations including acid gas treatment.
• Waste water treatment.
• Environmental behaviour of wastes, discharges, and
accidental releases.
• Corrosion and scaling of equipment.

Aspen Energy Analyzer User Guide

http://www.cadfamily.com/downinfo/301482.html

Editing an Operation
To edit an existing operation:
1 Open the Heat Integration Manager view by clicking the Heat Integration
Manager icon.
2 In the list on the left, select the type of operation you want to edit.
To see all the existing operation available, select All Heat Integration from
the left list.
3 Select the operation you want to edit from the list on the right.
4 Click the View button, and the selected operation property view appears.
Deleting an Operation
To delete an existing operation:
1 Open the Heat Integration Manager view by clicking the Heat Integration
Manager icon.
2 In the list on the left, select the type of operation you want to edit.
To see all the existing operation available, select All Heat Integration from
the left list.
3 Select the operation you want to delete from the list on the right.
4 Click the Delete button.
5 Aspen Energy Analyzer will prompt you for a confirmation to delete the
selected operation.
Click the Yes button to delete the selected operation, or click the No
button to not delete the selected operation.

Ricardo-WAVE Link

http://www.cadfamily.com/downinfo/301481.html

This block starts and connects to a WAVE model, which runs as a separate process on the same machine running EASY5. Simulation data are exchanged with the WAVE model once per EASY5 time step. During data exchanges, WAVE??s actuators are passed values from EASY5 and the values of WAVE's sensors are passed to EASY5.

Ricardo VALDYN 2.8.1 Patch Release Notes

http://www.cadfamily.com/downinfo/301480.html

VALKIN could not be started from the VALDYN GUI unless a .vsf and corresponding .vkn file
were already in existence.

Ricardo SDFBROWSER 1.1.9 Release Notes

http://www.cadfamily.com/downinfo/301479.html

Under some circumstances it was possible for the "Prev" button in the array appearance panel to cause negative array indices to be accessed.

"Make Array Editable" button was very small on Linux.
QA Reference: SDFB.50


Array appearance panel did not show all digits of Min and Max.
QA Reference: SDFB.53

For very large arrays there were not enough digits in the Min, Max and [Max] fields for the complete number to be seen.

Ricardo Software FEARCE 5.9 Release Notes

http://www.cadfamily.com/downinfo/301477.html
Bug
QA Reference: SCR SN.449

Warn about spring/constraint conflicts.

Ricardo-Force Link

http://www.cadfamily.com/downinfo/301476.html

NOTE: When terminating a simulation prematurely, Engdyn will not save any results if using
the Stop current analysis method of termination. If intending to save Engdyn data,stop the process via the Interactive Simulation IS Main widget.

Installation and Licensing Guide for Arbortext Editor Styler and Architect

http://www.cadfamily.com/downinfo/301473.html
Arbortext Import / Export must be installed and licensed on your Arbortext
Publishing Engine.
Export stylesheet development, Import MapT emplate development, and document
conversion can be performed directly on an Arbortext Publishing Engine server
using Arbortext PE Interactive. The Arbortext Publishing Engine is also the
engine used by client workstations performing document conversions.
To import and export fles (and do no Import MapT emplate or Export Stylesheet
development), each Arbortext Editor workstation must be confgured to use the
Arbortext Publishing Engine for publishing. Arbortext Import / Export only needs
to be licensed and installed on these client workstations if they are to be used to
preview exported R TF documents using Arbortext Styler .
Ensure that each client workstation has featureImportExport set to on in
their feature.cf fle and has the following set option values (or Advanced
Preference settings) :
peservices = on
peserverurl =
If your workstation is not currently connected to an Arbortext Publishing Engine
server licensed for Arbortext Import / Export, you will not be able to import or
export documents using Arbortext Import / Export.

Arbortext Import/Export Import Step-By-Step Tutorial

http://www.cadfamily.com/downinfo/301472.html

Launch the Arbortext Import W orkbench by opening Arbortext Editor and choosing
File??rt /Export and then choosing Open Import Project or New Import
Project .
After launching Arbortext Import, you will see the Arbortext Import W orkbench,
which displays a list of available existing transformations as well as dialog boxes
to edit these transformations. By default, Arbortext Import loads the last project
which you were using the very first time you run the Arbortext Import W orkbench
it opens up to the ??Examples?? project, which is a project that contains Arbortext
Import sample files and transformations.
While using the Arbortext Import W orkbench, refer to the Arbortext Import
W orkbench online help for descriptions of Arbortext Import W orkbench features and
other referential information.

Arbortext Import/Export-Reference Manual for Importing Documents

http://www.cadfamily.com/downinfo/301471.html

Overview
The Output Hierarchy Advanced Details dialog box is displayed when you click
the Advanced button in the Output Rules tab, and provides a means to control the
location of the current insertion point in the destination XML file, after the core
output step has been emitted. When the source element contains no child elements,
the default behavior of Arbortext Import /Export is to place the insertion point
immediately after the end tag of the core output step. When the source element
contains child elements, the default behavior of Arbortext Import /Export is to place
the insertion point immediately before the end tag of the core output step. In other
words, the insertion point for a child element of the source element will be inside its
parent element, mimicing the source document?? s hierarchy . There are a variety ways
to override these defaults in both the Output Hierarchy Advanced Details dialog
box and the Output Step tab .
Note
These advanced settings af fect the insertion point for the next MapObject as
processed by the MapT emplate, not the insertion point of the current MapObject.
Consider the downstream impact when using these advanced settings because they
will impact your destination XML hierarchy every time the current MapObject
matches your source data.

Getting Started with Arbortext Editor for Authors

http://www.cadfamily.com/downinfo/301470.html

Deleting elements and content
T o delete an element and its content :
1. Click the element icon to the left of a para element.
2. Press the D ELETE key . The element and its contents are deleted.
3. T o undo the deletion, click the Undo toolbar button.
T o delete text :
1. Select a portion of the content with a para element.
2. Press the D ELETE key . The contents are deleted.
3. To undo the deletion, click the Undo toolbar button.
Generated text
Generated text is defined and automatically inserted in your document according to
your stylesheet. Examples of generated text include a table of contents, an index,
and list numbers. Generated text is displayed in a contrasting font color (blue by
default) and cannot be edited directly in Arbortext Editor .
T o change the display of generated text :
1. Choose T ools erences and select the W indow category . If Full Menus
is not checked, click on the check box. Click OK.

Getting Started with Arbortext Editor

http://www.cadfamily.com/downinfo/301469.html

1.b.iii.1 Document Map components
The Document Map contains the following components:
• Modify Attributes icon
Modify Attributes Displays when attributes associated with an element have values. Clicking on the icon allows you
to see attribute names and edit their associated values.
• Graphic icon
Graphic Identifes a graphic in your document. The graphic itself does not appear in the Document Map, however ,
clicking on the Modify Attributes icon associated with a graphic gives you information about the graphic. The graphic
displays in the Edit pane.
• Element icon
Element Identifes an element in your document. Content associated with the element is displayed with the icon.

10/07/2010

Deform 3D Inverse Heat Transfer Wizard Primer

http://www.cadfamily.com/downinfo/301447.html

Pre-Processor
The geometry can be imported from an external database or a keyword file. An IGES file
or a GEO file can also be imported. The wizard then enables the mesh generator and the
coating mesh capability allows a creation of layered mesh (See Figure 2). With the
layered mesh, finer mesh density is possible near the surface and the transition to coarser
mesh in the core is dramatic.

DEFORM Machining Distortion Lab

http://www.cadfamily.com/downinfo/301446.html

In this lab, the Machining distortion template will be used to prepare the data required for
the simulation. To use this template, user needs to use the result from a DEFORM
simulation model that includes residual stress in the part. Typical models include elasto-
plastic deformation process or heat treat process model. Apart from this object input data,
machining process model, requires details on the fixtures, their location and details on
machining pass. The order of operations in which we will be modeling is as follows:
1) Machine the part.

2) Allow the part to spring back with tools to constrain.

3) Allow part to spring back free from tools.

DEFORM Spike Simulation Post-Processing

http://www.cadfamily.com/downinfo/301445.html

9.1. Opening a Previously Saved Problem

If DEFORM is not already open, open it as you did in the previous lab. When the MAIN
window opens, click on the Spike folder in the Directory list and then highlight the SPIKE.DB file in the file list.

DEFORM Geometry Manipulation

http://www.cadfamily.com/downinfo/301444.html

1.4. Display Manipulation

Functions that manipulate the DISPLAY window (such as Pan, Zoom, Magnify, and
Rotate) can be activated using icons at the top of the Pre-processor window.These functions also have easy keyboard/mouse combination hotkeys that allow the user to quickly perform these functions without any excessive button clicking. Once you have read about these functions, feel free to use them to manipulate the view of the Billet in the DISPLAY window.

DEFORM-3D Hot Forming Labs

http://www.cadfamily.com/downinfo/301443.html

Add objects

If an object named Top Die does not currently exist,using the??add object?? icon below
the object tree, add a new object.It will default to the name ??top die??. Set the temperature to 300F.

Add one more object. It will default to the name??bottom die.?? Set the temperature to
300F for this object, as well.

Import tool geometry
Select ??Top Die?? from the object tree. Go to the ??Geometry?? screen and import
TeeTop.stl.
Now select??Bottom Die??from the object tree and import the file TeeBottom.stl
Investigate object tree manipulation
Object Display Modes
DEFORM has 3 different object display modes:
• Single Object mode?Cthe selected object is displayed. All other objects are
hidden
• Multi Object mode?Cthe selected object is displayed in solid color. All other
objects are transparent

DEFORM Accuracy Verification Example 003 (NAFEMS T4)

http://www.cadfamily.com/downinfo/301442.html


DEFORM solution
This verification example was run in DEFORM-2D using plane strain elements.
Simulations were also run in DEFORM-3D by extruding the geometry 1m in the out-of-
plane dimension. Both 8-noded brick and 4-noded tetrahedral elements were tested in
3D.
The simulations were run until a steady-state temperature distribution was obtained.
For this verification example, 50 time steps were used with .01 second per step.
The temperature at point P is the solution of interest. In the 3D simulations, point P
actually corresponds to a line of nodes through the thickness of the object. For the 3D
simulations using brick elements, the temperature along the line of nodes was constant,
so only one temperature is reported. For the 3D simulations involving tetrahedral
elements, the minimum, maximum and average temperature along the line of nodes is
reported, and the % Difference is reported for the average temperature.

DEFORM Accuracy Verification Example 001 (NAFEMS T2)

http://www.cadfamily.com/downinfo/301441.html

This analysis studies one-dimensional heat transfer with radiation. The left end of the
bar is held at a fixed temperature of 1000K (726.25?ラ while the right end is exposed to
radiation with the 300K (26.85?ム) ambient environment. The steady-state temperature
of the right end of the bar is the solution of interest.

DEFORM Die Stress Analysis

http://www.cadfamily.com/downinfo/301440.html

The objective of this lab is to run a die stress analysis. When the stress analysis is being
done on only one tool, a one step simulation is sufficient to get accurate stresses. When
the stress analysis is being done on die assemblies where there is interaction between the
tools, more than one step is typically needed for the die stack to come to a state of
equilibrium under the applied load.
In a typical die stress simulation, the workpiece is removed and the forces exerted onto
the dies by the workpiece are interpolated onto the tools. In this lab, a shrink fit will also be modeled.

DEFORM Spike Dwell on Bottom Die

http://www.cadfamily.com/downinfo/301439.html


6.1. Introduction

In Lab 5, a billet was transferred from the furnace to the dies. Once the billet gets to the dies, it will rest on the bottom die for 2 seconds prior to forging. This dwell will be modeled in this lab. The last step of the previous simulation (the step corresponding to the end of the furnace transfer) will be loaded into the Pre-processor and the dwell
operation will be set up.

DEFORM-3D Labs Block Simulation

http://www.cadfamily.com/downinfo/301438.html
3.4.3. Point Tracking

In DEFORM it is possible to track points in an object through the simulation. Not only
can the position of the points be tracked but also the state variables at those locations. To
open the POINT TRACKING window, click the icon.

We want to define several points on the undeformed geometry and see where they go as
the part deforms. To view the un-deformed geometry, click the button to view the
first step of the simulation. Now click three locations on the workpiece (See Figure 3.2)
(close to those shown below) and click the button.

CATIA Trining-Tubing Catalogs

http://www.cadfamily.com/downinfo/301434.html

In the Electrical Harness Assembly, Select the Measure
Geometrical Bundle inertia icon
Make sure your geometrical bundle is connected to an
electrical bundle and there are wires inside your geometrical
bundle

CATIA Training Functional Molded Parts

http://www.cadfamily.com/downinfo/301433.html

Multi-body Approach with FMP
The Multi Body Features are used for creating shapes
in two bodies such that they Fit / Lock in each other.
The Multi Body Features modify the existing FMP body in such a way that:
/It splits the Body in two Bodies.
/Modifies the shape of both the split Bodies so that they Fit / Lock in each other.

CATIA Training Electrical Librarian&Harness Installation

http://www.cadfamily.com/downinfo/301432.html


CATIA Training Electrical Librarian&Harness Installation

CATIA Training CATIA Product Design Expert

http://www.cadfamily.com/downinfo/301431.html

Do It Yourself (4/4)
You can compare your results with attached model :
??CATASM_Connector_Assembly3.CATProduct??

.Move the ??Top Shell?? with the compass. The ??Update?? icon is
activated indicating that an assembly needs an update.
.Update the assembly by clicking on the ??Update?? icon
.Save the assembly as ??CATASM_Connector_Assembly3.CATProduct??
using ??Save As?? command

Arbortext Putting Business Users in Control

http://www.cadfamily.com/downinfo/301458.html
The Arbortext 5 release, scheduled for availability in the first quarter of 2004, makes it easier for your or ganization to implement and deploy publishing systems that automatically produce information on multiple types of media from a single source.
This white paper begins with a review of the problems of traditional publishing systems, describes how an automated publishing system can solve those problems, and then explains the challenges of implementing such a system. This white paper concludes with showing how Arbortext 5 addresses those implementation challenges, with the result that it slashes development time and costs by giving business users greater control and reducing or eliminating the need for specialized technical support.

Arbortext Programmers' Guide

http://www.cadfamily.com/downinfo/301459.html
placeholderT arget attribute
A tar get which can be used for resource pairs whose real tar get resource is not yet known. Most of the properties of this tar get are null , and attempting to modify the properties of this tar get will result in a DLMException being thrown.

Arbortext Service Manual Application Configuration Guide

http://www.cadfamily.com/downinfo/301460.html

Conventions used in this guide
This guide uses the following notational conventions :
Bold text represents an exact reference, such as names of methods, classes, and
attributes or paths and fle names. For example :
Y ou can use the hide method to hide the dialog box.
See the sample fle demo.xml .
Monospaced text represents code snippets, URLs, fle contents, or commands
you would type. For example :
source insertcol.js

Arbortext Extensible Stylesheet Language (XSL)

http://www.cadfamily.com/downinfo/301462.html

1.1 Intr oduction to stylesheet pr ocessing
An XSL stylesheet pr ocessor accepts a document or data in XML and an XSL
stylesheet and produces the presentation of that XML source content that was in-
tended by the designer of that stylesheet. There are two aspects of this presentation
process: rst, constructing a result tree from the XML source tree and second, in-
terpreting the result tree to produce formatted results suitable for presentation on
a display , on paper , in speech, or onto other media. The rst aspect is called tr ee
transformation and the second is called formatting . The process of formatting is
performed by the formatter . This formatter may simply be a rendering engine in-
side a browser .
T ree transformation allows the structure of the result tree to be signicantly dif ferent
from the structure of the source tree. For example, one could add a table -of -contents
as a ltered selection of an original source document, or one could rearrange source
data into a sorted tabular presentation. In constructing the result tree, the tree trans-
formation process also adds the information necessary to format that result tree.

Fire Dynamics Simulator Technical Reference Guide

http://www.cadfamily.com/downinfo/301464.html
4.4.3 Coupling the Gas and Solid Phase
Gas phase temperatures are defined at cell centers; solid surfaces lie at the interface of the bordering gas phase cell and a ??ghost?? cell inside the solid. As far as the gas phase calculation is concerned, the normal temperature gradient at the surface is expressed in terms of the temperature difference between the ??gas??cell and the ??ghost?? cell. The solid surface temperature is not used directly in the gas phase calculation.
Rather, the ghost cell temperature is used to couple the gas and solid phases. The ghost cell temperature has no physical meaning on its own. It is purely a numerical construct. It does not represent the temperature within the wall, but rather establishes a temperature gradient at the solid surface consistent with the empirical correlation. Only the difference between ghost and gas cell temperatures matters, for this d fines the heattransfer to the wall.

Fire Dynamics Simulator User's Guide

http://www.cadfamily.com/downinfo/301465.html

12.2.4 Particles or Droplets Introduced at the Start of the Calculation
Sometimes it is convenient to introduce droplets or particles at the start of the simulation. For this purpose,NUMBER_INITIAL_DROPLETS is the number of particles/droplets within the computational domain at the start of the simulation. Its default value is 0, meaning that initially there are no particles or droplets present.
If non-zero, also specify MASS_PER_VOLUME (kg/m3) which specifies the particle/droplet mass per unit volume (Default 1 kg/m3). Do not confuse this parameter with DENSITY, explained in the next section. For example, water has a DENSITY of 1000 kg/m3, whereas a liter of water broken up into droplets and spread over a cubic meter has a MASS_PER_VOLUME of 1 kg/m3. Also, to limit the particles/droplets to a certain region of the domain, add the real sextuplet XB to designate the coordinates of a rectangular volume. The format for XB is the same as that used on the OBST line.

PyroSim Example Guide

http://www.cadfamily.com/downinfo/301466.html

Surface Properties
Surfaces are used to define the properties of objects in your model. Solid surfaces will use the material properties previously defined.
This problem uses English units as the primary values for the geometry. Switch to English units.
1. On the View menu, click Units.
2. Select English.
The concrete wall is 2 ft (0.6096 m) thick. This will be a Layered surface, although we will
define only one layer. To create this surface
1. On the Model menu, click Edit Surfaces....
2. Click New....
3. In the Surface Name box, type Concrete Wall, in the Surface Type list, select Layered.
Click OK to create the surface and close the New Surface dialog.
4. Click the Color button to open the Surface Color dialog, then select a dark gray and click OK.

PyroSim User Manual

http://www.cadfamily.com/downinfo/301467.html

Open a Saved PyroSim Model
PyroSim model files have a .psm extension. To open a saved model:
1. On the File menu, click Open....
2. Select the file and click the Open button.
A list of recently opened files is also available. To open recent files, on the File menu, click
Recent PyroSim Files, then click the desired file.
PyroSim has an auto-save feature which stores a copy of your current model every 10 minutes.
This file is automatically deleted if PyroSim exits normally, but if PyroSim crashes, you can recover your work by opening the autosave file. It can be found either in the same directory as your most recent .psm file, or in the PyroSim installation directory if your model was unsaved.
For more information about opening files saved with previous versions of PyroSim, please refer to Appendix A.

Visualizing Fire Dynamics Simulation Data User's Guide

http://www.cadfamily.com/downinfo/301468.html

1.1 Overview
Smokeview is an advanced scientific software tool designed to visualize numerical predictions generated by re models such as the Fire Dynamics Simulator (FDS), a computational fiuid dynamics (CFD) model of fire-driven fiuid fiow [1] and CFAST, a zone model of compartment fire phenomena [2]. This report documents version 5 of Smokeview?B For details on setting up and running FDS cases read the FDS User??s guide [3].
FDS and Smokeview are used to model and visualize time-varying fire phenomena. However, FDS
and Smokeview are not limited to fire simulation. For example, one may use FDS and Smokeview to model other applications such as contaminant fiow in a building.