MITCalc - Pinned couplings will help you with the geometric design and strength check of couplings using pins and clevis pins.

The program is used to solve the following tasks: design of pin for spring attachment, design of couplings with securing pins, design of cross pin in rod and sleeve, design of radial pin for shaft-hub connection, design of longitudinal pin for shaft-hub connection, design of clevis pin for rotating rod-clevis connection, strength check of designed couplings.

The program includes dimensional tables for pins and clevis pins according to ANSI, ISO, DIN, BS, JIS and CSN.

Support of 2D CAD (AutoCAD, AutoCAD LT, IntelliCAD, Ashlar Graphite, TurboCAD).Related standards: ANSI B18.8.1, ANSI B18.8.2, ISO 2338, ISO 2339, ISO 2340, ISO 2341, ISO 8733, ISO 8734, ISO 8735, ISO 8739, ISO 8740, ISO 8741, ISO 8742, ISO 8743, ISO 8744, ISO 8745, ISO 8746, DIN 1, DIN 7, DIN 1443, DIN 1444, DIN 1470, DIN 1471, DIN 1472, DIN 1473, DIN 1474, DIN 1475, DIN 1476, JIS B 1352, JIS B 1354, JIS B 1355, BS EN 22339, BS EN 22340, BS EN 22341, CSN EN 22339, CSN EN 22340, CSN EN 22341.

This module is a part of MITCalc - Mechanical and Technical Calculation Package for gear, belt and chain drives, bearings, springs, beam, shaft, bolt connection, shaft connection, tolerances and many others.

MITCalc - Pinned couplings will help you with the geometric design and strength check of couplings using pins and clevis pins.

The program is used to solve the following tasks: design of pin for spring attachment, design of couplings with securing pins, design of cross pin in rod and sleeve, design of radial pin for shaft-hub connection, design of longitudinal pin for shaft-hub connection, design of clevis pin for rotating rod-clevis connection, strength check of designed couplings.

The program includes dimensional tables for pins and clevis pins according to ANSI, ISO, DIN, BS, JIS and CSN.

Support of 2D CAD (AutoCAD, AutoCAD LT, IntelliCAD, Ashlar Graphite, TurboCAD).Related standards: ANSI B18.8.1, ANSI B18.8.2, ISO 2338, ISO 2339, ISO 2340, ISO 2341, ISO 8733, ISO 8734, ISO 8735, ISO 8739, ISO 8740, ISO 8741, ISO 8742, ISO 8743, ISO 8744, ISO 8745, ISO 8746, DIN 1, DIN 7, DIN 1443, DIN 1444, DIN 1470, DIN 1471, DIN 1472, DIN 1473, DIN 1474, DIN 1475, DIN 1476, JIS B 1352, JIS B 1354, JIS B 1355, BS EN 22339, BS EN 22340, BS EN 22341, CSN EN 22339, CSN EN 22340, CSN EN 22341.

This module is a part of MITCalc - Mechanical and Technical Calculation Package for gear, belt and chain drives, bearings, springs, beam, shaft, bolt connection, shaft connection, tolerances and many others.

Zee WebDock Docking Window for ASP.NET 2.0 offers you First ASP.NET server control that creates Visual Studio style docking panels. Can auto-hide/slide-open/maximize / pintabbed-panels. Panel groups for complex layout. Live refresh of contents while resizing. Constraints on sizes: min/max/step. Appearance customizable via CSS & Themes. Works with MS ASP.NET AJAX. Panel states persist across postbacks. Client API. Dynamic panel. Supports all major browsers, quirks/strict modes.

Major Features:

1. Layout

• DIV-based panels
• Panels dockable to any of the four edges of the container
• Panel groups for complex layout
• Multiple dock panels/groups in a container or a panel group
• Multiple tabbed panels in a dock panel
• Container resizes with browser window
  

2. Behaviors

• Panels can be autohidden, pinned, maximized or hidden
• Live refresh of contents while resizing
• Constraints on panel sizes: min/max/step sizes
• Oversized thumbs allow users to grab thin splitters easily
• Show splitter buttons only on mouse-over
• Panel states, active tab index, positions of splitter bars and scrollbars persist across postbacks
  

3. Appearances

• Customizable via CSS, Themes, and object properties
• Customizable splitter bar thickness, thumb image, mouse-over cursor, etc.
• Customizable tabs and action buttons appearances
• ASP.NET 2.0 Themes support
  

4. ASP.NET AJAX

• Works with Microsoft ASP.NET AJAX
• Customized UpdatePanel for better programmatic access and design-time support
• Panel state and size updatable via AJAX postback, even panel is not an UpdatePanel
  

5. Client API

• Selected panel properties accessible with JavaScript
  

6. Dynamic Panels

• Dock panels, tabbed panels and their contents can be created dynamically at run-time
• Panel sequence can be rearranged at run-time
  

7. Design Time

• Excellent design-time support for Visual Studio 2005 / 2008
• You can work comfortably in both Design and Source Views
• In Design View, server controls can be drag-and-dropped to panels, and contents can be visually edited in the same way as the default .NET Panel class
• In Source View, the code structure is natural and highly intuitive
  

8. Browser Support

• Supports all major browsers, and various modes (quirks/strict)
• No more browser-hacks
• Consistent box-model
  

Requirements:

1. Design-Time

ZettaCube ZeeControls works with the design-time environment of Visual Studio 2005 / 2008 or Visual Web Developer 2008 Express. .NET Framework 2.0 or above is required.

If AJAX-enabled version of ZeeControls is used, then Microsoft ASP.NET AJAX Extensions 1.0 or .NET Framework 3.5 is required.

64-bit Windows OS is supported.

2. Run-Time

On the server side, ASP.NET 2.0 or above is required. If AJAX-enabled version of ZeeControls is used, then Microsoft ASP.NET AJAX Extensions 1.0 or .NET Framework 3.5 is required.

64-bit Windows OS is supported.

On the client side, modern browsers with JavaScript enabled are supported:

• Internet Explorer 6, 7, 8
• Firefox 2, 3
• Opera 9
• Safari 3

MITCalc - Force shaft connection is intended for geometrical design and strength check of force couplings of shafts with hubs with a cylindrical contact area (Interference fit, clamping connection).

The application provides solutions for the following tasks:
Design of force fits, possibly shrink fits.
Design of clamping connections with separated, or one-side cut hub.
Strength check of designed couplings.
Check of interference fit strained by additional radial force with bending moment.
Check of interference fit working at specific service temperature.

The calculation is based on data, procedures and algorithms from specialized literature and standards ANSI, ISO, DIN and others. List of standards: ANSI B4.1, ISO 286, DIN 7190

This module is a part of MITCalc - Mechanical and Technical Calculation Package for gear, belt and chain drives, springs, beam, shaft, bolt connection, shaft connection, tolerances and many others

MITCalc - Tolerances includes tables and calculations for easy option of fits of machine parts and determination of their dimensional tolerances and deviations. Application is developed in MS Excel, is multi-language, supports Imperial and Metric units and solves the following main tasks:
Selection of suitable fits of machine parts according to the international standard ISO 286.
Determination of dimensional tolerances and deviations of machine parts according to the international standard ISO 286.
Selection of preferred fits of machine parts and determination of their dimensional tolerances and deviations according to ANSI B4.1.
Determination of non-prescribed limit deviations of linear and angular dimensions according to ISO 2768.
Automatic design of a fit for the given clearance or fit interference respectively

The data, procedures, algorithms and specialized literature and standards ANSI, ISO, DIN and others were used in the calculations.

Used standards: ANSI B4.1, ANSI B4.2, ISO 286, ISO 1829, ISO 2768, EN 20286, JIS B 0401

This module is a part of MITCalc - Mechanical and Technical Calculation Package for gear, belt and chain drives, springs, beam, shaft, bolt connection, shaft connection, tolerances and many others.

MITCalc-Beam is created for calculations of straight, maximum three times static indefinite beams with constant axis-symmetrical profiles.

Application is developed in MS Excel, is multi-language, supports Imperial and Metric units and solves the following main tasks:

- Simple definition of the type of beam and its loading with visual check.
- Calculation of area characteristics of 20 types of cross sections.
- Calculation of reactions in supports.
- Calculation of minimum / maximum bending moment, stress and deflection of the beam.
- Calculation and graphic illustration of the moment, stress, deflection and bending angle of the loaded beam.

The application includes a table of materials and a table of area characteristics of W, S, C, L profiles acc. to ANSI/AISC and I, U, L a T profiles acc. to DIN/ISO.

Used standards: DIN 1025, 1026, 1028, 1029, 1024, AISC W, S, C, L, LU

This module is a part of MITCalc - Mechanical and Technical Calculation Package for gear, belt and chain drives, springs, beam, shaft, bolt connection, shaft connection, tolerances and many others.

This calculation includes tables and calculations for easy option of fits of machine parts and determination of their dimensional tolerances and deviations. Application is developed in MS Excel, is multi-language, supports Imperial and Metric units and solves the following main tasks: - Selection of suitable fits of machine parts according to the international standard ISO 286. - Determination of dimensional tolerances and deviations of machine parts according to the international standard ISO 286. - Selection of preferred fits of machine parts and determination of their dimensional tolerances and deviations according to ANSI B4.1. - Determination of non-prescribed limit deviations of linear and angular dimensions according to ISO 2768. - Automatic design of a fit for the given clearance or fit interference respectively. The data, procedures, algorithms and specialized literature and standards ANSI, ISO, DIN and others were used in the calculations. Used standards: ANSI B4.1, ANSI B4.2, ISO 286, ISO 1829, ISO 2768, EN 20286, JIS B 0401This module is a part of MITCalc - Mechanical and Technical Calculation Package for gear, belt and chain drives, springs, beam, shaft, bolt connection, shaft connection, tolerances and many others.

MITCalc is a engineering, industrial, and technical calculator for the day-to-day needs. MITCalc is a multi-language mechanical and technical calculation package. It includes solutions for gear, belt and chain drives, bearings, springs, bearings, beam, shaft, bolt connection, shaft connection, tolerances and many other mechanical parts. The calculations are compatible with most types of 2D and 3D CAD systems (AutoCAD , AutoCAD LT , IntelliCAD , Ashlar Graphite , TurboCAD , Autodesk Inventor , SolidWorks , Solid Edge , Pro/ENGINEER ...) , support both Imperial and Metric units, and are processed according to ANSI, ISO, DIN, BS, Japanese and other common standards.

It will reliably, precisely, and most of all quickly guide you through the design of components, the solution of a technical problem, or a calculation of an engineering point without any significant need for expert knowledge.

MITCalc contains both design and check calculations of many common tasks, such as: spur gear, bevel gear, timing belt, v-belt and chain drives, bearings, springs, beam, buckling, shaft, bolt connection, shaft connection, force couplings of shafts, pins, tolerances, tolerance analysis, technical formulas and many others. You also have available many material, comparison, and decision tables, including a system for the administration of resolved tasks.
Description in PDF format: English version, Persian (Farsi) version

MITCalc is an open system designed in Microsoft Excel to which you can make further modifications or user extensions without any programming skills.


You don?t have to learn MITCalc because you already know how to use it. The straightforward and fully comprehensive user interface with complex on-line help and the ?expert notes? system will allow you to be more productive in just a few minutes.

MITCalc supports simple interconnection of individual parts between either each other, or your calculation, or tables. You can easily customize a solution to any special task you need.

MITCalc cooperates with many 2D and 3D CAD systems (AutoCAD, AutoCAD LT, IntelliCAD, Autodesk Inventor, SolidWorks, Solid Edge, Pro/Engineer...). To draw a designed solution in 2D or insert correspondent 3D models and their assemblies is a matter of seconds.

MITCalc is a engineering, industrial, and technical calculator for the day-to-day needs. MITCalc is a multi-language mechanical and technical calculation package. It includes solutions for gear, belt and chain drives, bearings, springs, bearings, beam, shaft, bolt connection, shaft connection, tolerances and many other mechanical parts. The calculations are compatible with most types of 2D and 3D CAD systems (AutoCAD , AutoCAD LT , IntelliCAD , Ashlar Graphite , TurboCAD , Autodesk Inventor , SolidWorks , Solid Edge , Pro/ENGINEER ...) , support both Imperial and Metric units, and are processed according to ANSI, ISO, DIN, BS, Japanese and other common standards.

It will reliably, precisely, and most of all quickly guide you through the design of components, the solution of a technical problem, or a calculation of an engineering point without any significant need for expert knowledge.

MITCalc contains both design and check calculations of many common tasks, such as: spur gear, bevel gear, timing belt, v-belt and chain drives, bearings, springs, beam, buckling, shaft, bolt connection, shaft connection, force couplings of shafts, pins, tolerances, tolerance analysis, technical formulas and many others. You also have available many material, comparison, and decision tables, including a system for the administration of resolved tasks.
Description in PDF format: English version, Persian (Farsi) version

MITCalc is an open system designed in Microsoft Excel to which you can make further modifications or user extensions without any programming skills.

You don?t have to learn MITCalc because you already know how to use it. The straightforward and fully comprehensive user interface with complex on-line help and the ?expert notes? system will allow you to be more productive in just a few minutes.

MITCalc supports simple interconnection of individual parts between either each other, or your calculation, or tables. You can easily customize a solution to any special task you need.

MITCalc cooperates with many 2D and 3D CAD systems (AutoCAD, AutoCAD LT, IntelliCAD, Autodesk Inventor, SolidWorks, Solid Edge, Pro/Engineer...). To draw a designed solution in 2D or insert correspondent 3D models and their assemblies is a matter of seconds.

MITCalc - Tolerance analysis consists of two programs for the tolerance analysis of linear, 2D and 3D dimensional chains

Tolerance analysis of linear dimensional chains.
MITCalc - Tolerance analysis is designed for tolerance analysis of linear (1D) dimensional chains. MITCalc - Tolerance analysis solves the following problems:
Tolerance analysis, synthesis and optimization of a dimensional chain using the arithmetic "WC" (Worst case) method, possibly the statistical "RSS" (Root Sum Squares) method.
Analysis of a dimensional chain deformed as a result of temperature change.
Extended statistic analysis of dimensional chain using the "6 Sigma" method.
Tolerance analysis of a dimensional chain during selective assembly including optimization of the number of assembled products.

All solved tasks enable work with standardized tolerance values, both in designing and in optimization of the dimensional chain.

Tolerance analysis of 2-D and 3-D dimensional chains
MITCalc - Tolerance analysis is designed for the tolerance analysis of two-dimensional (2-D) and three-dimensional (3-D) dimensional chains. MITCalc - Tolerance analysis solves the following problems:
Tolerance analysis of a dimensional chain using the "Worst case" method.
Tolerance analysis of a dimensional chain using the "Monte Carlo" method.

In designing a dimensional chain, MITCalc - Tolerance analysis enables work with standardized tolerance values.

Data, methods, algorithms and information from professional literature and ANSI, ISO, DIN and other standards are used in calculation. List of standards: ANSI B4.1, ISO 286, ISO 2768, DIN 7186.

MITCalc - Tolerance analysis is developed in MS Excel, is multi-language and supports Imperial and Metric units.

MITCalc - Profiles Calculation will solve area characteristics of profiles created in a simple graphic editor and mass characteristics of solids created by extrusion or rotation of the profile.

Application is developed in MS Excel, is multi-language, supports Imperial and Metric units and solves the following tasks:
Creation of a profile in a simple graphic editor.
Calculation of area characteristics (Ix, Sx) for main axes passing through the centre of gravity.
Calculation of area characteristics (Ix, Sx) for randomly turned axes passing through the centre of gravity, including a graph.
Calculation of characteristics for the turned axes which pass through a random point.
Calculation of volume and mass characteristics (V, m, Im) of solids created by extrusion or rotation of the profile

This module is a part of MITCalc - Mechanical and Technical Calculation Package for gear, belt and chain drives, springs, beam, shaft, bolt connection, shaft connection, tolerances and many others

MITCalc - Buckling Calculation was designed to calculate the optimum cross-section and perform strength check of slender struts strained for buckling. The program includes:
Selection of six basic types of buckling.
Calculation of area characteristics of 20 types of cross-sections.
Design of optimum profile accommodating the set load.
Strength check of the strut.
Calculation and graphical representation of permitted stress dependent on slenderness rate.
A table of materials and a table of area characteristics of W, S, C and L profiles according to ANSI/AISC and I, U, L and T profiles according to DIN/ISO.

The calculation is based on data, procedures, algorithms (Johnson, Tetmajer, Euler, Secant) and data from specialized literature and AISC, ISO, DIN and BS standards.

List of standards (DIN 1025, 1026, 1028, 1029, 1024, AISC W, S, C, L, LU ... )
This module is a part of MITCalc - Mechanical and Technical Calculation Package for gear, belt and chain drives, springs, beam, shaft, bolt connection, shaft connections, tolerances and many others

The application is designed for calculations of straight, maximum three times static indefinite beams with constant axis-symmetrical profiles. Application is developed in MS Excel, is multi-language, supports Imperial and Metric units and solves the following main tasks: - Simple definition of the type of beam and its loading with visual check. - Calculation of area characteristics of 20 types of cross sections. - Calculation of reactions in supports. - Calculation of minimum / maximum bending moment, stress and deflection of the beam. - Calculation and graphic illustration of the moment, stress, deflection and bending angle of the loaded beam. The application includes a table of materials and a table of area characteristics of W, S, C, L profiles acc. to ANSI/AISC and I, U, L a T profiles acc. to DIN/ISO. Used standards: DIN 1025, 1026, 1028, 1029, 1024, AISC W, S, C, L, LUThis module is a part of MITCalc - Mechanical and Technical Calculation Package for gear, belt and chain drives, springs, beam, shaft, bolt connection, shaft connection, tolerances and many others

The calculation solves area characteristics of profiles created in a simple graphic editor and mass characteristics of solids created by extrusion or rotation of the profile. Application is developed in MS Excel, is multi-language, supports Imperial and Metric units and solves the following tasks: - Creation of a profile in a simple graphic editor. - Calculation of area characteristics (Ix, Sx) for main axes passing through the centre of gravity. - Calculation of area characteristics (Ix, Sx) for randomly turned axes passing through the centre of gravity, including a graph. - Calculation of characteristics for the turned axes which pass through a random point. - Calculation of volume and mass characteristics (V, m, Im) of solids created by extrusion or rotation of the profile.This module is a part of MITCalc - Mechanical and Technical Calculation Package for gear, belt and chain drives, springs, beam, shaft, bolt connection, shaft connection, tolerances and many others

The program is designed to calculate the optimum cross-section and perform strength check of slender struts strained for buckling. The program includes: - Selection of six basic types of buckling. - Calculation of area characteristics of 20 types of cross-sections. - Design of optimum profile accommodating the set load. - Strength check of the strut. - Calculation and graphical representation of permitted stress dependent on slenderness rate. - A table of materials and a table of area characteristics of W, S, C and L profiles according to ANSI/AISC and I, U, L and T profiles according to DIN/ISO. The calculation is based on data, procedures, algorithms (Johnson, Tetmajer, Euler, Secant) and data from specialized literature and AISC, ISO, DIN and BS standards. List of standards (DIN 1025, 1026, 1028, 1029, 1024, AISC W, S, C, L, LU ... ) This module is a part of MITCalc - Mechanical and Technical Calculation Package for gear, belt and chain drives, springs, beam, shaft, bolt connection, shaft connections, tolerances and many others