MITCalc

20/12/2025

RELEASE OF MITCalc v2.04
09/30/2025
New calculations of Thermomechanics and other improvements...

Thermomechanics
This program is designed to solve common thermomechanics and heat transfer problems that engineers frequently encounter.

The program includes and addresses the following:
Energy: Heating and cooling, phase change, fuel calorific value.
Ideal Gas: State and state change, thermodynamic system.
Heat Transfer through Composite Walls: Conduction, radiation, convection.
Solutions for Finned Walls and Tube Bundles.
Longitudinal Temperature Change in Piping. Temperature change and cooling time in tanks.
Heat Exchangers.
Heat Transfer by Radiation.
Solar Radiation Power: Time, position, location, environment, surface orientation, etc.
Data Preparation for the "Solver" Add-in.
The calculations include hundreds of predefined materials, liquids, and gases, a periodic table of elements, unit conversions, and more. A number of solved examples are also available.

Calculation extensions, modifications and updates:
Signature of VBA sections with a certificate valid until 2027.
Import of a new certificate into Windows.
Updating tolerance rules based on the latest version of ISO286 for:
Tolerances and fits, Tolerance analysis, Force Couplings of Shafts with Hubs and Hydrodynamic plain journal bearings.
Planetary gearing – correction of force calculations (differences in the order of percent).
Spur gear (Inch) - Correction of calculation of coefficient of elasticity CP.
Worm gearing – minor correction to geometry calculation for mn module.
Update of support of all 2D/3D CAD system (AutoCAD, Autodesk Inventor, SolidWorks, Solid Edge).

27/05/2024

RELEASE OF MITCalc v2.03
02/29/2024
New calculations of hydrodynamic radial and axial plain bearing and other improvements...

Enhancements and modifications into version 2.03:

Hydrodynamic plain journal bearings
The program is designed for design and control of hydrodynamic radial plain bearing. In the program it is possible to solve other tasks such as lubricant viscosity, shaft and bearing fit tolerances, parameters of friction materials, calculation of bearing clearance, etc.

Hydrodynamic plain thrust pad bearings and plain tilting pad thrust bearings
The program is intended for design and control of hydrodynamic thrust bearing and plain bearing with tilting pads. The program can solve other problems such as viscosity of lubricants, parameters of friction materials, etc.

The program includes and addresses the following:

Design of radial and axial plain bearing dimensions based on load and operating conditions.
Control calculation of various types of bearings.
Bearing clearance design and calculation of bearing and shaft tolerances.
Proposal of suitable lubricant, oil database, viscosity calculations.
Calculation of operating temperatures, coefficient of friction, lubricant flow and other parameters.
Database of sliding materials and their parameters.
The calculation is based on data, procedures and algorithms from specialized literature, standards and company catalogues.

Calculation extensions, modifications and updates:
Signature of VBA sections with a certificate valid until 2027.
Import of a new certificate into Windows.
Mechanics of fluids – modification of hydraulic shock calculation.
Planetary gear – correction of safety calculation for gear type: Planet Carrier => Sun.
Welded joints, Spring calculation (15 types) – redesign of calculation controls to facilitate working on small displays.
Update of support of all 2D/3D CAD system (AutoCAD, Autodesk Inventor, SolidWorks, Solid Edge).

05/09/2022

RRELEASE OF MITCalc v2.01
08/31/2022
New Fluid mechanics calculation module and other improvments...

Enhancements and modifications into version 2.01:
Fluid mechanics
The program is designed to solve the most common problems in fluid mechanics. The program solves problems in the area of:
- Hydrostatics
- Stationary fluid discharge through hole
- Stationary discharge - overflows (ISO 1438, Swiss Engineers, Hansen, Bazin, Frese)
- Stationary flow of viscous fluid - constant pipe cross section with output nozzle / diffuser
- Stationary flow of fluid - various pipe cross sections
- Water hammer
Calculations include determination of Reynolds number, viscosity, laminar and turbulent flow losses for various materials, and dozens of types of loss coefficients

Calculation extensions, modifications and updates:
- Signature of VBA sections with a certificate valid until 2024
- Update of support of all 2D/3D CAD system (AutoCAD, Autodesk Inventor, SolidWorks, Solid Edge)
- The option to install individual calculations has been discontinued (Only a complete set can be installed).
- It is still possible to purchase a license for an individual calculation (The individual calculation will be unlocked within the complete installed set).
- Individually purchased calculations now include support for 3D CAD systems (The 3D systems support will be available for your existing standalone calculations with a valid license without a need to obtain a new license).
A license purchased for an individual calculation also unlocks bonus calculations: Indexation and calculation search, Design of the transmission ratio, Vehicle Aerodynamics, External Ballistics, Conversions of units, Viscosity calculatio

26/11/2020

New instructional video:

MITCalc - How to calculate and design the Ball Screw. Calculation of kinematic parameters (speed, torque, revolutions and power output...). Simple selection...

26/11/2020

New instructional video:

MITCalc - How to calculate and design the Power Screw. Calculation of kinematic parameters (speed, torque, revolutions and power output...). Simple selection...

26/11/2020

Decin, Czech Republic, 11/15/2020
Engineering calculations MITCalc - extensions and modifications into version 1.76

Power screw
Design and check of power screws
This program (algorithm) is used to design and check power screws. It is used to solve the following tasks:
- Calculation of kinematic parameters (speed, torque, revolutions and power output...)
- Simple selection / definition of power screw (metric, square, trapezoidal...)
- Screw check for tensile/pressure, thrust, bend, buckling and critical revolutions.
- The program contains a table of materials, threads and friction coefficients.
- Support of 2D CAD systems.
The calculation is based on data, procedures and algorithms from specialized literature and AGMA, ISO, DIN and BS standards.
List of standards: (ISO 68-1, 68-2, ISO 724, ISO 965, ISO 2904: 1977, DIN 513, CSN 01 4050, CSN 01 4052, ANSI/ACME B1.5-1977, ANSI/ACME B1.9-1973, ASME B1.1-2003, IS 4694-1968....)
Literature: Mechanical engineering design (Konstruování strojních součástí), Textbook of Machine Design, Machinery’s Handbook 26th Edition, Části a mechanismy strojů.

Ball screws.
Design, calculation and check of ball screws
This program (algorithm) is used to design, calculate and check ball screws. It is used to solve the following tasks:
- Preliminary design (minimum input parameters – sufficient to navigate and select from catalogs)
- Detailed analysis (load, dimensions, parameter check)
- Load spectrum table definition (speed, torque, revolutions and power output...)
- Calculation of an equivalent load
- Service life calculation, tolerances, temperature analysis
- Tensile/Pressure, thrust, bend, buckling and critical revolutions
- Lubrication proposal and efficiency calculation
- The program contains tables of screws according to ISO and ANSI
- Support of 2D CAD systems
The calculation is based on data, procedures and algorithms from specialized literature and AGMA, ISO, DIN and BS standards.
List of standards: ISO 3408-1:2006; ISO 3408-2: 1991; ISO 3408-3:2006; ISO 3408-4:2006; ISO 3408-5:2006; ISO 286-2:2010; DIN ISO 3408; JIS B1192-1997; JIS B1192-2018; DIN 69051-5; ANSI B5.48
Company cataloques: THK, PMI, KSK, NSK, SKF, HIWIN, KURODA, NOOK, THOMSON, Steinmayer, MANESMAN

Thermal Properties of Materials
Influence of temperature on selected material parameters.
This workbook contains information defining the effect of temperature on some physical and mechanical properties of materials used in the engineering industry. Using this tool the following tasks can be solved:
- Calculation of the linear coefficient of thermal expansion and elongation of the component for the given heating process.
- Elongation of a group of components made of various materials arranged into a linear chain.
- Calculation of the modulus of elasticity for the given temperature.
- The database contains approximately 700 metallic materials used in mechanical engineering.
List of standards: EN 1561, EN 1563, EN 16079, EN 1753, EN 10088-1, EN 10095, EN 10269, EN 10302

Calculation extensions, modifications and updates
Rolling bearings – the possibility to calculate and compare the service life of an equivalent bearing supplied by another manufacturer has been added
- Bolted connection, Spring calculations – refinement of the empirical model used in determining the physical properties of materials based on temperature
- Welded connections – redesign of calculation controls with the intention to improve workbook compatibility with different versions of MS Excel
- Pinned couplings – for some types of connection, the maximum permissible number of pins in the connection has been increased
- Update of support of all 2D/3D CAD system (AutoCAD, Inventor, SolidWorks, SolidEdge).

02/06/2019

New instructional video:

MITCalc - How to calculate and design the Bevel and Hypoid Gear according the ISO 23590 in Solid Edge. Preliminary design of the gear size. Detail geometrica...

02/06/2019

New instructional video:

MITCalc - How to calculate and design the Bevel and Hypoid Gear according the ISO 23590 in Autodesk Inventor. Preliminary design of the gear size. Detail geo...

02/06/2019

New instructional video:

MITCalc - How to calculate and design the Bevel and Hypoid Gear according the ISO 23590 in SOLIDWORKS. Preliminary design of the gear size. Detail geometrica...

02/06/2019

Decin, Czech Republic, 05/27/2019
Engineering calculations MITCalc - modifications into version 1.75
Bevel and hypoid gears according ISO 23509
- Extension of calculation functions.
- Generation of standard 2D drawings.
- Precision 3D model of the bevel gearing (Straight, Oblique, Spiral, Zerol).
- Precision 3D model of the hypoid gearing (Gleason, Oerlikon, Klingelnberg).
- Generation of precision 3D models for manufacturing or printing for any
3D CAD system.
Spur gearing, Helical gearing (external)
- Generation of precision 3D models for manufacturing or printing for any
3D CAD system.
Helical conical compression springs
- Improvement of calculations for springs with end coils.
Roller bearings I - SKF
- Updated SKF bearing database.
System
- Save a copy of the calculation for different versions of Excel (compatibility solution).
- Update of support of all 2D/3D CAD system (AutoCAD, Inventor, SolidWorks, SolidEdge).