Dates - winter semester 2024/25
Thursday 01.09.2024 Start of winter semester
Monday 30.09.2024 Start of lectures
Thursday 03.10.2024 No lectures: Holiday
Friday 01.11.2024 No lectures: Holiday
Friday - Thursday 27.12.2024 - 02.01.2025 No lectures:Christmas and New Year
Saturday 01.02.2025 End of lectures
Friday 28.02.2025 E
Re-enrollment period
Students can re-enroll themselves for winter semester 2025/26 from 03.06.2025 till 24.07.2025.
Students can re-enroll themselves for summer semester 2025 from 02.01.2025 till 13.02.2025.
Participation in the meetings
The committees usually meet in public, so you are welcome to attend the meetings by registering in advance by emailing sektretariat.hochschulleitung@hs-kl.de .
Senate protocols
The minutes of the Senate meetings since summer semester 2012 are available on the Intranet .
Information on meetin
Senate committee of the Hochschule Kaiserslautern
The university’s basic rules stipulate five faculties. The Senate includes: the President as chair, 10 representatives for the professors, 5 representatives for the students, 3 representatives for the academic and non-research employees.
Advisory members include the Deans, provided that they have n
SensTex - Thermal moisture sensor for application in thin, textile-like layers
The determination of moisture and temperature in thin textile-like layers is interesting for a wide range of applications. Especially for body-worn applications, the so-called wearables, a measurement method with the following characteristics is needed: • resista
SensTex - Thermal moisture sensor for application in thin, textile-like layers
The determination of moisture and temperature in thin textile-like layers is interesting for a wide range of applications. Especially for body-worn applications, the so-called wearables, a measurement method with the following characteristics is needed: • resistant
Following this characterization, the damaged volume is removed from the specimen, which is polished and then subjected to secondary loading on various test systems at test frequencies of 5, 60, 200 and 1000 Hz. In the HCF range, a direct comparison with the original undamaged specimens can thus be derived. In the VHCF range, possible deviations i
Following this characterization, the damaged volume is removed from the specimen, which is polished and then subjected to secondary loading on various test systems at test frequencies of 5, 60, 200 and 1000 Hz. In the HCF range, a direct comparison with the original undamaged specimens can thus be derived. In the VHCF range, possible deviations i
