Kisssoft Student | Version Free
Launch the cylindrical gear module. Enter your critical system constraints: Rotational Speed (RPM) Required Nominal Torque (Nm) 2. Select Materials and Lubrication
As a student, you will likely use it for:
Dedicated modules calculate the fatigue and static safety of bolted joints and mechanical springs. kisssoft student version
For engineering students focusing on mechanical power transmission, the transition from theoretical formulas to industrial application can be a steep climb.
Obtain the student version through your university (many schools have campus licenses) or directly from the vendor’s educational program. Licenses are typically tied to an academic email and restricted to non-commercial use. Launch the cylindrical gear module
KISSsoft offers a specifically for students to use their gear and transmission design software for non-commercial academic work. ⚙️ Core Capabilities
In many cases, the software is pre-installed on university computer lab workstations. If you want it on your personal laptop, ask your department administrator for the license file or server details. KISSsoft offers a specifically for students to use
For mechanical engineering students specializing in power transmission, drivetrain technology, or machine design, KISSsoft is an industry standard. It is the software used by major automotive and aerospace companies to calculate, optimize, and verify gears, shafts, and bearings.
Design complex gear geometries, calculate stresses, and determine safety factors based on ISO and AGMA standards.
A: Yes. If your university has a college contract, the license is provided to you free of charge. In some European cases, the university may charge a small administrative fee (approx. €10), but this is just to cover processing costs, not for the software itself.
The KissSoft Student Version is more than just a freebie; it is a gateway to high-end mechanical engineering. By mastering this software during your university years, you transition from a student who understands "how gears work" to an engineer who knows "how to build them to last." Download your copy today and start turning your theoretical designs into optimized mechanical reality. Share public link