Automatically generate and place complex components—like an exact involute gear—directly into a SOLIDWORKS assembly in seconds.
Today, the story of MITCalc is one of efficiency. It is used by everyone from college students to professional mechanical designers to streamline day-to-day routines. By linking the "why" (the math) with the "what" (the 3D model), it ensures that every part is not only designed quickly but is and ready for manufacturing. Bring MITCalc Solids into solidworks MITCalc for SolidWorks
Over 15 types of springs and complex shaft connections. 3. The Integration Spark By linking the "why" (the math) with the
The story begins with a common frustration for mechanical designers. Before a single part can be modeled in SOLIDWORKS , hours—sometimes days—must be spent in spreadsheets or hand-calculating gear ratios, belt tensions, or spring rates to ensure they won't fail under load. For many, this was a disconnected process: calculate in one window, then manually draw the result in another. 2. The Solution: MITCalc The Integration Spark The story begins with a
The climax of the story is the "sophisticated interaction" between the math and the model. Once the engineer perfects a design in the Excel-based MITCalc environment, they don't have to rebuild it from scratch. With a few clicks, the software communicates directly with to:
The story of is about how a "hidden gem" of engineering software bridged the gap between raw mathematical formulas and complex 3D modeling, turning grueling design days into minutes. 1. The Engineering Dilemma